CN116689120B - Grinding and granulating device for producing sintered flux - Google Patents

Abstract

The invention discloses a grinding and granulating device for producing sintered flux, and relates to the technical field of sintered flux production. According to the invention, the support assembly and the feeding assembly are respectively arranged, the movable lining plate and the fixed lining plate are respectively arranged in the support assembly and can rotate in the support assembly when the sintered flux is ground, and raw materials of the sintered flux can pass through the space between the movable lining plate and the fixed lining plate.

Description

Grinding and granulating device for producing sintered flux

Technical Field

The invention relates to the technical field of sintered flux production, in particular to a grinding and granulating device for sintered flux production.

Background

The sintered flux is a high-quality, high-efficiency, energy-saving and environment-friendly flux, and is prepared by processing the prepared wet flux into required particles, calcining at a high temperature of 750-1000 ℃ to form fine particles, so that the sintered flux is obtained, and the sintered flux is smokeless, odorless, arc-free and splash-free in welding, has no environmental pollution in the production and manufacturing process, low energy consumption, full raw material utilization, small stacking density of the sintered flux, less slag shell and low welding production cost, and meets the national industrial development policy.

The utility model provides a granulation device is used in sintered flux production that publication No. CN217016513U, includes support and screening subassembly, the central authorities of support settle have the stirring subassembly that is used for the stirring, and the below of stirring subassembly is provided with the granulation subassembly that is used for the granulation, be used for screening the screening subassembly includes screening frame, flexible post, spring, vibration motor, first sieve, baffle, guide plate, second sieve and discharge gate, both ends are connected with flexible post about the bottom surface of screening frame, and the outside of flexible post has cup jointed the spring. This granulation device for sintered flux production passes through the setting of screening subassembly, can make sintered flux fall into screening frame's inside after the grain is cut, starts vibrating motor, makes screening frame vibrations under the effect of telescopic column and spring to can make first sieve come to screen sintering welding, make the granule of normal size can be through first sieve and enter into the top of second sieve under the water conservancy diversion of guide plate, just can get rid of great granule.

According to the technical scheme, although screening work in production of the sintered flux can be realized, the sintered flux is required to be ground and granulated in the production process, so that the particle size of the sintered flux can meet the use requirement of a user, the traditional grinding device is limited in grinding effect and cannot be adjusted, and meanwhile, the raw materials of the sintered flux can be agglomerated after grinding, so that the follow-up production flow is affected.

Therefore, it is necessary to invent a grinding and granulating apparatus for sintered flux production to solve the above problems.

Disclosure of Invention

The invention aims to provide a grinding and granulating device for producing sintered flux, which solves the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the grinding and granulating device for producing the sintered flux comprises a supporting component, a feeding component, a movable lining plate and a fixed lining plate, wherein the movable lining plate is arranged in the supporting component;

the support assembly comprises a fixed cover, a fixed sleeve is fixedly arranged in the fixed cover, and a plurality of hydraulic rods are arranged on the outer side wall of the fixed cover in a surrounding mode;

the feeding assembly comprises a connecting seat with an annular structure, a plurality of extending seats are arranged on the outer side of the connecting seat in a surrounding mode, the extending seats are fixedly arranged at the top end of the hydraulic rod, and a feeding cover is arranged at the top end of the connecting seat;

the movable lining plate comprises a rotating shaft, the rotating shaft penetrates through the inside of the fixed sleeve, the top end of the rotating shaft is fixedly provided with a conical mounting cover, and the outer side of the mounting cover is fixedly provided with a movable lining;

the fixed lining plate comprises a fixed lining, and the fixed lining is fixedly arranged on the inner side wall of the feeding cover; the device comprises a feeding pipe, a discharging pipe, a supporting component, a counting sensor, a control component and a control component, wherein the feeding pipe is provided with a push block, the counting sensor is arranged in the feeding pipe and used for detecting the quantity of sintered flux particles entering the feeding pipe, and the supporting component is provided with the control component which is used for electrically controlling all electric elements;

according to the invention, the limiting plate is arranged at the bottom of the installation cover, the movable lining plate is arranged on the installation cover, when the installation cover is controlled to rotate, the sintered flux particles are effectively ground through the movable lining plate and the fixed lining plate, the convex blocks on the limiting plate drive the movable plate to vibrate, dust adsorbed on the sintered flux particles is vibrated to fall off, meanwhile, the sintered flux particles are prevented from being blocked in the strip-shaped groove, meanwhile, the blanking amount of the sintered flux particles is further improved by controlling the extension of the push block to further increase the vibration effect, and the dust adsorbed between the two lining plates is effectively cleaned by increasing the movement amplitude of the movable plate.

Preferably, the lateral wall bottom mounting of installation cover is provided with annular structure's locating plate, the fixed locating piece that is provided with annular structure in top of movable inside lining, the top of locating piece is provided with the location cover, the thread groove has been seted up at the top middle part of installation cover, the inside of thread groove is provided with the threaded rod, and the threaded rod is fixed to be set up in the top inner wall of location cover.

Preferably, the lateral wall bottom mounting of fixed cover is provided with the screen cloth, and the screen cloth sets up to hollow boss structure, the fixed extension board that is provided with annular structure in middle part of fixed cover, and a plurality of logical inslot that the extension board upper surface was seted up all run through and are provided with the inserted bar, the outside of inserted bar is encircleed and is provided with the spring, the bottom mounting of inserted bar is provided with the fly leaf, and the fly leaf sets up to hollow boss structure, a plurality of bar grooves have been seted up in the middle part of fly leaf run through.

Preferably, an annular plate is fixedly arranged at the top end of the inserted link, a plurality of extension blocks are arranged on the outer side of the annular plate in a surrounding mode, and a top block of a hemispherical structure is fixedly arranged in the middle of the lower surface of the extension block;

the bottom mounting of installing cover is provided with annular structure's limiting plate, and the limiting plate sets up in annular plate's below, the upper surface fixed of limiting plate is provided with the lug of a plurality of hemisphere structures, and the lug is crisscross setting with the kicking block.

Preferably, a driving motor is fixedly arranged at the bottom end of the outer side wall of the fixed cover, belt pulleys are fixedly arranged at the output shaft of the driving motor and the bottom end of the rotating shaft, and a transmission belt is arranged between the two belt pulleys;

the inside wall of fixed inside lining is fixed to be provided with the stock guide, and the stock guide sets up to spiral structure.

Preferably, the middle parts of the two sides of the fixed cover are respectively provided with a blanking pipe in a penetrating way, and one end of the blanking pipe extends to the upper surface of the screen.

Preferably, the outer side wall of the movable liner is set to be of an inclined structure, the inner side wall of the fixed liner is set to be of an inclined structure, and the outer side wall of the movable liner and the inner side wall of the fixed liner are arranged in parallel.

Preferably, the connecting seat is fixedly connected with the feeding cover through bolts.

Preferably, a feeding pipe penetrates through the middle of the top end of the feeding cover.

Preferably, a plurality of supporting legs are fixedly arranged at the bottom end of the outer side wall of the fixed cover.

The invention has the technical effects and advantages that:

1. according to the invention, the support component and the feeding component are arranged, the movable lining plate and the fixed lining plate are respectively arranged in the support component and the feeding component, when the sintered flux is ground, the movable lining plate can rotate in the support component, the raw material of the sintered flux can pass through the space between the movable lining plate and the fixed lining plate, in the process, the raw material of the sintered flux can be ground by the movable lining plate and the fixed lining plate, and the distance between the support component and the feeding component can be adjusted by arranging the hydraulic rod between the support component and the feeding component, so that the distance between the movable lining plate and the fixed lining plate can be adjusted, the grinding effect of the device on the raw material of the sintered flux can be adjusted, and the sintered flux can meet the processing requirement;

2. according to the invention, the supporting component is arranged, the movable plate is arranged in the supporting component, the middle part of the movable plate is penetrated and provided with the plurality of strip-shaped grooves, and the sintered flux after grinding passes through the strip-shaped grooves under the action of gravity;

3. according to the movable lining plate, the movable lining plate comprises the rotating shaft, the top end of the rotating shaft is provided with the installation cover, the outer side of the installation cover is provided with the movable lining, the top end of the installation cover is provided with the positioning cover, the positioning cover can play a role in locking and positioning the movable lining, and the limit of the movable lining can be relieved by removing the installation cover, so that the movable lining can be detached and maintained, and the maintenance of the device is facilitated.

Drawings

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

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

FIG. 3 is a schematic cross-sectional view of the overall structure of the present invention.

Fig. 4 is a schematic cross-sectional view of a support assembly of the present invention.

Fig. 5 is a schematic view of a moving plate structure according to the present invention.

Fig. 6 is a schematic view of the mounting cover structure of the present invention.

Fig. 7 is a schematic cross-sectional view of the mounting cup structure of the present invention.

Fig. 8 is an exploded view of the movable liner plate structure of the present invention.

FIG. 9 is a schematic view of the feed assembly of the present invention.

Fig. 10 is a schematic structural view of a fixing liner plate according to the present invention.

FIG. 11 is a schematic view of a support assembly according to the present invention.

In the figure: 1. a support assembly; 2. a feed assembly; 3. a movable lining plate; 4. a fixed lining plate; 101. a fixed cover; 102. a fixed sleeve; 103. a hydraulic rod; 104. a screen; 105. an extension plate; 106. a rod; 107. a spring; 108. a movable plate; 109. a bar-shaped groove; 110. an annular plate; 111. an extension block; 112. a top block; 113. discharging pipes; 114. a support leg; 201. a connecting seat; 202. an extension seat; 203. a feed hood; 204. a feeding tube; 301. a rotating shaft; 302. a mounting cover; 303. a movable liner; 304. a positioning plate; 305. a positioning block; 306. a positioning cover; 307. a thread groove; 308. a threaded rod; 309. a limiting plate; 310. a bump; 311. a driving motor; 312. a belt pulley; 401. fixing the inner lining; 402. a material guide plate; 5. and pushing the block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The invention provides a grinding and granulating device for producing sintered flux, which is shown in fig. 1 to 11, and comprises a supporting component 1, a feeding component 2, a movable lining plate 3 and a fixed lining plate 4, wherein the movable lining plate 3 is arranged in the supporting component 1, the fixed lining plate 4 is arranged in the feeding component 2, and the feeding component 2 is arranged at the top end of the supporting component 1.

The support assembly 1 comprises a fixed cover 101, a fixed sleeve 102 is fixedly arranged in the fixed cover 101, and a plurality of hydraulic rods 103 are circumferentially arranged on the outer side wall of the fixed cover 101.

Specifically, the lateral wall bottom mounting of fixed cover 102 is provided with screen cloth 104, and screen cloth 104 sets up to hollow boss structure, the fixed extension board 105 that is provided with annular structure in middle part of fixed cover 102, and all run through in a plurality of logical inslot that the extension board 105 upper surface was seted up and be provided with inserted bar 106, the outside of inserted bar 106 is encircleed and is provided with spring 107, the bottom mounting of inserted bar 106 is provided with fly leaf 108, and fly leaf 108 sets up to hollow boss structure, a plurality of bar grooves 109 have been seted up in the middle part of fly leaf 108 run through, the inner wall of bar groove 109 strikes the sintered flux of caking, in order to realize the processing of scattering to caking sintered flux.

More specifically, the top end of the plunger 106 is fixedly provided with an annular plate 110, the outer side of the annular plate 110 is circumferentially provided with a plurality of extension blocks 111, and the middle part of the lower surface of the extension block 111 is fixedly provided with a top block 112 with a hemispherical structure.

And, the middle parts of both sides of the fixed cover 101 are all provided with a discharging pipe 113 in a penetrating way, and one end of the discharging pipe 113 extends to the upper surface of the screen 104, and sintered flux particles conforming to the standard can be separated to the upper part by the screen 104 and then discharged out of the device through the discharging pipe 113.

Further, the outer side wall bottom end of the stationary cover 101 is fixedly provided with a plurality of legs 114.

The feeding component 2 comprises a connecting seat 201 with an annular structure, a plurality of extending seats 202 are arranged on the outer side of the connecting seat 201 in a surrounding mode, the extending seats 202 are fixedly arranged at the top end of the hydraulic rod 103, a feeding cover 203 is arranged at the top end of the connecting seat 201, the distance between the feeding component 2 and the supporting component 1 can be adjusted through the hydraulic rod 103, and therefore the distance between the movable lining plate 3 and the fixed lining plate 4 can be adjusted.

Specifically, through bolt fixed connection between connecting seat 201 and the feeding cover 203, demolish the spacing between connecting seat 201 and the feeding cover 203 can be relieved to can realize the dismantlement to the feeding cover 203, and then make things convenient for the inside clearance maintenance of device.

More specifically, the middle part of the top end of the feeding cover 203 is provided with a feeding tube 204 in a penetrating manner, and the feeding tube 204 is convenient for adding raw materials.

The movable lining plate 3 comprises a rotating shaft 301, the rotating shaft 301 penetrates through the fixed sleeve 102, a conical mounting cover 302 is fixedly arranged at the top end of the rotating shaft 301, and a movable lining 303 is fixedly arranged on the outer side of the mounting cover 302.

Specifically, the positioning plate 304 with an annular structure is fixedly arranged at the bottom end of the outer side wall of the installation cover 302, the positioning block 305 with an annular structure is fixedly arranged at the top end of the movable liner 303, the positioning cover 306 is arranged above the positioning block 305, the middle part of the top end of the installation cover 302 is provided with the thread groove 307, the threaded rod 308 is arranged in the threaded groove 307, the threaded rod 308 is fixedly arranged on the inner wall of the top end of the positioning cover 306, the threaded rod 308 is matched with the thread groove 307, the position between the installation cover 302 and the positioning cover 306 can be fixed, the positioning cover 306 can tightly press the movable liner 303 above the installation cover 302, and the direction of the threads on the outer side of the threaded rod 308 is opposite to the rotation direction of the driving motor 311, so that the threaded rod 308 is prevented from falling off due to the rotation of the installation cover 302.

More specifically, the bottom end of the mounting cover 302 is fixedly provided with a limiting plate 309 with an annular structure, the limiting plate 309 is arranged below the annular plate 110, the upper surface of the limiting plate 309 is fixedly provided with a plurality of protruding blocks 310 with hemispherical structures, the protruding blocks 310 and the top blocks 112 are arranged in a staggered manner, the protruding blocks 310 squeeze the top blocks 112 in the rotating process, the top blocks 112 drive the extending blocks 111 and the annular plate 110 to move upwards, when the protruding blocks 310 are separated from the top blocks 112, the extending blocks 111 and the annular plate 110 are reset downwards under the action of the springs 107, and the extending blocks 111 and the annular plate 110 can drive the movable plate 108 to move in the moving process, so that the movable plate 108 can reciprocate up and down.

And, the lateral wall bottom mounting of fixed cover 101 is provided with driving motor 311, and driving motor 311's output shaft and the bottom of pivot 301 are all fixed to be provided with belt pulley 312, and are provided with driving belt between two belt pulleys 312, and driving motor 311 can drive pivot 301 through belt pulley 312 and rotate to can provide the kinetic energy for movable welt 3.

Moreover, the outer side wall of the movable liner 303 is set to be of an inclined structure, the inner side wall of the fixed liner 401 is set to be of an inclined structure, the outer side wall of the movable liner 303 and the inner side wall of the fixed liner 401 are arranged in parallel, and the distance between the movable liner 303 and the fixed liner 401 is always kept in a parallel state during adjustment, so that the grinding effect of the movable liner 303 and the fixed liner 401 is ensured.

The fixed lining board 4 comprises a fixed lining 401, the fixed lining 401 is fixedly arranged on the inner side wall of the feeding cover 203, and the rotary movable lining 303 is matched with the fixed lining 401 which is stationary, so that grinding processing of sintered flux can be realized.

Specifically, the inside wall of the fixed inner liner 401 is fixedly provided with a material guiding plate 402, the material guiding plate 402 is in a spiral structure, the movable inner liner 303 can drive the sintered flux raw material to move, so that the sintered flux raw material rotates on the inside of the fixed inner liner 401, and the sintered welding raw material is guided to move downwards by the material guiding plate 402 in the moving process, so that the raw material can enter between the fixed inner liner 401 and the movable inner liner 303.

To sum up, this device is when carrying out the abrasive grain processing to the sintering flux raw materials, put into feeding subassembly 2 with the sintering flux raw materials, sintering flux raw materials gets into between movable welt 3 and the fixed welt 4 under the effect of gravity, movable welt 3 rotates under driving motor 311 this moment, movable welt 3 and fixed welt 4 cooperate, can carry out abrasive grain processing to the sintering flux that passes between the two, in order to reduce the particle size of sintering flux raw materials, when the particle of sintering flux is less than the clearance between fixed welt 4 and the movable welt 3, sintering flux can get into supporting component 1, and sintering flux in the supporting component 1 can be sieved, sintering flux that accords with the standard can be discharged from unloading pipe 113 of device one side, and the sintering flux that the granule is less can pass screen cloth 104 and be discharged to the device below directly and retrieve.

When the movable lining plate 3 and the fixed lining plate 4 grind and granulate sintered flux, the driving motor 311 drives the rotating shaft 301 to rotate through the belt pulley 312, the rotating shaft 301 drives the installation cover 302 to rotate, the installation cover 302 drives the movable lining 303 to rotate, the rotating movable lining 303 is matched with the stationary fixed lining 401, the grinding processing of sintered flux can be realized, in the process, the movable lining 303 can drive the raw material of sintered flux to move, the raw material of sintered flux rotates on the inner side of the fixed lining 401, and the raw material of sintered flux is guided by the material guiding plate 402 to move downwards in the moving process, so that the raw material can enter between the fixed lining 401 and the movable lining 303.

The raw materials can fall into the supporting component 1 after finishing grinding, at this moment, the raw materials firstly fall on the movable plate 108, at this moment, the rotating shaft 301 drives the installation cover 302 to rotate, the installation cover 302 drives the limiting plate 309 to rotate, the limiting plate 309 drives the protruding block 310 to rotate, the protruding block 310 extrudes the top block 112 in the rotating process, so that the top block 112 drives the extending block 111 and the annular plate 110 to move upwards, when the protruding block 310 is separated from the top block 112, the extending block 111 and the annular plate 110 are reset downwards under the action of the spring 107, the extending block 111 and the annular plate 110 can drive the movable plate 108 to move in the moving process, so that the movable plate 108 reciprocates up and down, the movable plate 108 collides with the sintered raw materials in the moving process, and the sintered flux raw materials extruded and agglomerated by grinding can be smashed.

The crushed sintered flux raw material can fall to the upper part of the screen cloth 104, at this time, the sintered flux with smaller particles can pass through the screen cloth 104 and be discharged to the lower part of the device, and the sintered flux with particles meeting the standard can be discharged out of the device through the blanking pipe 113, so that the grinding granulation of sintering welding can be completed.

Example two

In practical use, the operator found that when the diameters of the sintered flux particles are ground by the fixed liner 401 and the movable liner 303, the powder ground by the sintered flux particles will be adsorbed on the fixed liner 401 and the movable liner 303, resulting in a smaller interval between the fixed liner 401 and the movable liner 303, making the diameter of the sintered flux particles to be ground later smaller than the required diameter, unusable, and since the movable plate 108 is provided with a hollow boss structure and the middle part of the movable plate 108 is higher than the side part, the sintered flux particles after the grinding will be concentrated on the side part of the movable plate 108, which is unfavorable for the blanking of the sintered flux particles, and the powder ground by the sintered flux particles will be discharged from the blanking pipe 113 without conforming to the standard if adsorbed on the holes of the strip grooves 109 and the screen mesh 104, so the apparatus is modified according to the method described in this embodiment to solve the above technical problems.

The push block 5 is arranged on the bump 310, the counting sensor is arranged in the blanking pipe 113 and used for detecting the quantity of sintered flux particles entering the blanking pipe 113, and the control component is arranged on the supporting component 1 and used for electrically controlling all electric elements.

Firstly, when the sintered flux particles need to be ground by the device, the driving motor 311 is controlled by the control assembly to drive the belt pulley 312 to rotate, the belt pulley 312 drives the rotating shaft 301 to rotate, the movable liner 303 on the installation cover 302 connected with the rotating shaft 301 rotates, and the top of the rotating shaft 301 is connected with the positioning cover 306 through the threaded rod 308, the movable liner 303 is limited by the positioning cover 306, so that the movable liner 303 is prevented from shifting in the rotating process, the distance between the movable liner 303 and the fixed liner 401 is changed, and the diameter of grinding particles is influenced, so that the sintered flux particles between the movable liner 303 and the fixed liner 401 are ground under the rotation and extrusion of the movable liner 303, the sintered flux particles are ground into particles with the required diameter, and the later use and processing of the sintered flux are facilitated.

Secondly, when the rotating shaft 301 rotates, the control component controls the push block 5 to shrink, so that the top of the push block 5 and the top of the protruding block 310 are located on the same horizontal plane, the rotating shaft 301 drives the annular plate 110 to rotate, so that the top block 112 on the annular plate 110 and the protruding block 310 on the limiting plate 309 are in contact with each other and press the protruding block 310, in the process, the top block 112 is pressed by the protruding block 310 and drives the annular plate 110 to move upwards, the inserted rod 106 connected with the annular plate 110 drives the movable plate 108 to move upwards, simultaneously, the spring 107 between the annular plate 110 and the limiting plate 309 is stretched under the pressing of the protruding block 310, when the top block 112 moves from the top of the protruding block 310 to one side of the protruding block 310 in the moving process, at this moment, the top block 112 loses the pressing of the protruding block 310, and the spring 107 drives the annular plate 110 to move downwards, and drives the movable plate 108 to move downwards through the inserted rod 106, so that the movable plate 108 is restored to an initial state, and as to enable the top block 112 to move upwards and downwards along with the rotating shaft 301, so that the movable plate 108 moves upwards and downwards, the movable plate 108 is enabled to move downwards, and the movable plate 108 is always upwards and downwards, the spring 107 is enabled to move downwards, and the movable plate 108 is enabled to move downwards, and the dust particles are enabled to move downwards and the sintered particles and particles are enabled to be adsorbed on the side of the moving groove 109 and dust particles are caused by the dust particles and dust particles.

Thirdly, when the sintered flux particles are screened and collected by the device, a counting sensor arranged on the blanking pipe 113 detects the sintered flux particles, and if the counting sensor detects that the number of the sintered flux particles is in a preset interval, the device is judged not to be blocked; if the number of the sintering aid particles is smaller than the preset interval, it is determined that the blockage between the movable liner 303 and the fixed liner 401 at the moment causes the particle diameter actually ground to be smaller than the standard diameter, and all the pushing blocks 5 are controlled to extend upwards by the control assembly. The top of the push block 5 is higher than the height of the protruding block 310, so that the top block 112 rotating along with the rotating shaft 301 contacts and extrudes the push block 5, in the process, because the height of the push block 5 is larger than the height of the protruding block 310, when the top block 112 contacts and extrudes the push block 5, the top block 112 moves upwards to increase the upward movement amount of the movable plate 108, when the top block 112 and the push block 5 are dislocated with each other in the moving process, the movable plate 108 is restored to the initial state, in the second state, the driving motor 311 is controlled by the control component to drive the rotating shaft 301 to move rapidly, so that the movable plate 108 moves rapidly and greatly up and down under the action of the top block 112, in the rapid upward movement process of the movable plate 108, gas between the movable plate 108 and the mounting cover 302 is extruded, part of the gas moves downwards through the bar-shaped groove 109, the dust trapped in the strip groove 109 is cleaned up for the second time, part of the gas moves up between the movable liner 303 and the fixed liner 401 by the movement of the movable plate 108, the dust adsorbed between the movable liner 303 and the fixed liner 401 is blown to separate the dust and the liners from each other, and when the movable plate 108 moves down, the dust between the two liners is guided to fall on the movable plate 108 and is transferred down through the strip groove 109, thereby solving the problems that the powder ground by the sintered flux particles is adsorbed on the fixed liner 401 and the movable liner 303, the interval between the fixed liner 401 and the movable liner 303 becomes smaller, the grinding diameter of the sintered flux particles to be ground later is smaller than the required diameter, and the sintered flux particles accumulated at the edge of the movable plate 108 are dispersed by increasing the amplitude of the movable plate 108, and the blanking of sintered flux particles is facilitated.

It should be noted that the counting sensor is a photoelectric counting sensor, and is composed of a photoelectric emitter and a photoelectric receiver, wherein the photoelectric emitter is used for emitting light, the photoelectric receiver is used for receiving light, and when an object passes through the photoelectric counting sensor, the light is blocked, so that the intensity of the light received by the photoelectric receiver is changed, and the sintered flux particles are counted.

Finally, because the initial particle size of sintered flux particles is inconsistent, the time that a plurality of sintered flux particles fall on the movable plate 108 after being simultaneously ground by two lining plates will also be different, the situation that the sintered flux particles on one side on the movable plate 108 are piled up is caused, the discharging amount is smaller than the preset discharging amount, and because the movable plate 108 is connected with the annular plate 110 through a plurality of inserting rods 106, if the sintered flux on one side on the movable plate 108 is too much, the movable plate 108 is slightly inclined or deformed, at this time, if the movable plate 108 vibrates up and down, the movable plate 108 will be damaged, at this time, a plurality of pushing blocks 5 are controlled by a control component to stretch, so that the pushing blocks 5 are mutually clamped with the side surfaces of the top block 112, in this state, the pushing blocks 5 cannot drive the top block 112 to move up and down, and when the pushing blocks 5 are contacted with the top block 112, the top block 112 are pushed to rotate on the fixed sleeve 102, and the movable plate 108 is synchronously driven to rotate through the setting of the inserting rods 106, thereby the sintered flux particles on one side 108 are prevented from being piled up by the movable plate 108, the sintered flux particles are prevented from being spread down on one side of the movable plate 108, and the sintered flux particles are prevented from being damaged by the sintered particles which are simultaneously.

It should be noted that, according to the invention, the limiting plate 309 is disposed at the bottom of the mounting cover 302, the movable liner 303 is disposed on the mounting cover 302, when the mounting cover 302 is controlled to rotate, the movable liner 303 and the fixed liner 401 are used for effectively grinding sintered flux particles, so that the bump 310 on the limiting plate 309 drives the movable plate 108 to vibrate, dust adsorbed on the sintered flux particles is vibrated off, meanwhile, the sintered flux particles are prevented from being blocked in the bar-shaped groove 109, meanwhile, the vibration effect is further increased by controlling the extension of the push block 5, the blanking amount of the sintered flux particles is increased, and the dust adsorbed between the two lining plates is effectively cleaned by increasing the movement amplitude of the movable plate 108.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The grinding and granulating device for producing the sintered flux is characterized by comprising a supporting component, a feeding component, a movable lining plate and a fixed lining plate, wherein the movable lining plate is arranged in the supporting component, the fixed lining plate is arranged in the feeding component, and the feeding component is arranged at the top end of the supporting component;

the supporting component comprises a fixed cover and a blanking pipe, a fixed sleeve is fixedly arranged in the fixed cover, and a plurality of hydraulic rods are arranged on the outer side wall of the fixed cover in a surrounding mode;

the feeding assembly comprises a connecting seat with an annular structure, a plurality of extending seats are arranged on the outer side of the connecting seat in a surrounding mode, the extending seats are fixedly arranged at the top end of the hydraulic rod, and a feeding cover is arranged at the top end of the connecting seat;

the movable lining plate comprises a rotating shaft and a protruding block, the rotating shaft is arranged in the fixed sleeve in a penetrating mode, a conical mounting cover is fixedly arranged at the top end of the rotating shaft, and a movable lining is fixedly arranged on the outer side of the mounting cover;

the fixed lining plate comprises a fixed lining, and the fixed lining is fixedly arranged on the inner side wall of the feeding cover;

the device comprises a feeding pipe, a discharging pipe, a supporting component, a counting sensor, a control component and a control component, wherein the pushing block is arranged on the protruding block, the counting sensor is arranged in the feeding pipe and used for detecting the quantity of sintered flux particles entering the feeding pipe, and the control component is used for electrically controlling each electric element.

2. A grinding and granulating apparatus for sintered flux production as claimed in claim 1, wherein: the locating plate is characterized in that a locating plate of an annular structure is fixedly arranged at the bottom end of the outer side wall of the installation cover, a locating block of the annular structure is fixedly arranged at the top end of the movable lining, a locating cover is arranged above the locating block, a thread groove is formed in the middle of the top end of the installation cover, a threaded rod is arranged in the thread groove, and the threaded rod is fixedly arranged on the inner wall of the top end of the locating cover.

3. A grinding and granulating apparatus for sintered flux production as claimed in claim 1, wherein: the lateral wall bottom mounting of fixed cover is provided with the screen cloth, and the screen cloth sets up to hollow boss structure, the fixed extension board that is provided with annular structure in middle part of fixed cover, and all run through in a plurality of logical inslot that the extension board upper surface was seted up and be provided with the inserted bar, the outside of inserted bar is encircleed and is provided with the spring, the bottom mounting of inserted bar is provided with the fly leaf, and the fly leaf sets up to hollow boss structure, a plurality of bar grooves have been seted up in the middle part of fly leaf run through.

4. A grinding and granulating apparatus for sintered flux production as claimed in claim 3, wherein: the top end of the inserted link is fixedly provided with an annular plate, a plurality of extension blocks are arranged on the outer side of the annular plate in a surrounding mode, and a top block of a hemispherical structure is fixedly arranged in the middle of the lower surface of the extension block;

the bottom mounting of installing cover is provided with annular structure's limiting plate, and the limiting plate sets up in annular plate's below, the upper surface fixed of limiting plate is provided with the lug of a plurality of hemisphere structures, and the lug is crisscross setting with the kicking block.

5. The grinding and granulating apparatus for sintered flux production as claimed in claim 4, wherein: the bottom end of the outer side wall of the fixed cover is fixedly provided with a driving motor, the output shaft of the driving motor and the bottom end of the rotating shaft are fixedly provided with belt pulleys, and a transmission belt is arranged between the two belt pulleys;

the inside wall of fixed inside lining is fixed to be provided with the stock guide, and the stock guide sets up to spiral structure.

6. A grinding and granulating apparatus for sintered flux production as claimed in claim 3, wherein: the middle parts of two sides of the fixed cover are respectively provided with a blanking pipe in a penetrating mode, and one end of each blanking pipe extends to the upper surface of the screen.

7. A grinding and granulating apparatus for sintered flux production as claimed in claim 1, wherein: the outer side wall of the movable lining is arranged to be of an inclined structure, the inner side wall of the fixed lining is arranged to be of an inclined structure, and the outer side wall of the movable lining and the inner side wall of the fixed lining are arranged in parallel.

8. A grinding and granulating apparatus for sintered flux production as claimed in claim 1, wherein: the connecting seat is fixedly connected with the feeding cover through bolts.

9. A grinding and granulating apparatus for sintered flux production as claimed in claim 1, wherein: the middle part of the top end of the feeding cover is provided with a feeding pipe in a penetrating way.

10. A grinding and granulating apparatus for sintered flux production as claimed in claim 1, wherein: the lateral wall bottom mounting of fixed cover is provided with a plurality of landing legs.