CN211999851U - Sintering machine of high-efficient production - Google Patents

Abstract

The utility model discloses a sintering machine with high-efficiency production, which can avoid the user from manually taking down massive impurities, save labor, improve the practicability, evenly distribute raw materials and avoid the condition that the platform of the sintering machine has less raw materials at the edge and more intermediate raw materials; a baffle plate capable of being turned is arranged above the round roller, so that the feeding speed and the feeding amount can be conveniently adjusted; in addition, a plurality of rows of steam pipes are arranged on the trolley, a plurality of branch gas injection pipes which are arranged in parallel vertically extend downwards from the bottoms of the steam pipes, and the branch gas injection pipes spray steam to the raw materials on the trolley, so that the raw materials are fully sintered, the nitrogen oxides in the final product are reduced, and the quality of the product is improved; by having increased gas cleaning device at the platform truck, pass through the cooling tube with high temperature flue gas in a large amount of heat dissipation to the water in the heating inner bag, the flue gas after the heat dissipation by the cooling tube is discharged by the flue gas outlet pipe at top for the device reaches and avoids the too much filter plate of causing of dust in the smoke and dust to block up, and carries out recycle to gas high temperature heat, has practiced thrift the advantage of resource.

Description

Sintering machine of high-efficient production

Technical Field

The utility model relates to the technical field of metallurgy, specifically be a sintering machine of high-efficient production.

Background

In the sintering production, the sintering raw materials directly influence the yield and the quality of the sintering ore, and the process requires that the sintering raw materials are uniform and flat. In the prior art, a round roller material flattening device or a scraper material flattening device is used for flattening a sintering material surface, raw materials fall from a storage bin to a raw material system, are fully paved on a sintering machine trolley after passing through the raw material system, and are flattened through the round roller material flattening device or the scraper material flattening device.

However, the existing sintering machine only uses a scraper to scrape off redundant mineral aggregate, a standard height is kept, the raw material at the edge of a platform of the sintering machine is less due to uneven blanking, the raw material at the edge cannot be filled in time by the existing material flattening device, and simultaneously, the block-shaped impurity is clamped in front of a material flattening roller or a material flattening plate due to the possibility of containing the block-shaped impurity in the raw material, so that the raw material is scratched and lacks the material after flattening, and at the moment, the block-shaped impurity needs to be manually taken down, so that the sintering machine is inconvenient for a user to use; and the sintered ore particles clamped into the gaps of the grate bars and the sintered ore adhered to the grate bars need to shake the impurities on the grate bars, but most of the existing grate bars are manually cleaned regularly, which wastes time and labor.

The feeding speed and the feeding amount of the conventional circular roller distributor cannot be well controlled, and the feeding speed and the feeding amount need to be controlled by controlling the rotating speed or the feeding amount of the circular roller, but the operation is inconvenient and labor needs to be consumed.

Meanwhile, the raw materials on the conventional trolley are not fully sintered, and the finally generated product contains more nitrogen oxides, so that the quality of the product is influenced.

When the flue gas is purified and filtered, the dust contained in the flue gas is easy to cause the blockage of a filter plate, the normal operation of the filtering work is influenced, and the dust filtering efficiency is reduced; sintering flue gas temperature is higher, and general clarification plant can not carry out recycle to the flue gas heat, leads to calorific loss, causes the wasting of resources.

Disclosure of Invention

The utility model provides a sintering machine of high-efficient production, it levels to possess the edge raw materials, and cubic impurity can filter and take off, effectively solves the sintering machine grid section and blocks up to retrieve the impurity dust, make the sintering material fully burn, conveniently adjust feed rate and feeding volume, avoid the dust in the smoke and dust too much to cause the jam to the filter plate, and carry out recycle to flue gas high temperature heat, practiced thrift advantages such as resource.

For realizing that above-mentioned edge raw materials levels, cubic impurity can filter the purpose of taking off, the utility model provides a following technical scheme:

a sintering machine capable of being efficiently produced comprises a sintering machine trolley, a round roller distributor and flue gas purification devices, wherein the round roller distributor is arranged above a feed inlet of the sintering machine trolley, and a plurality of flue gas purification devices are arranged on the rear side of the sintering machine trolley;

a plurality of material leveling devices and a plurality of rapping devices are arranged on the sintering pallet;

wherein the material leveling device comprises four bases, a supporting plate is fixedly connected between the four bases, a feeding pipe is fixedly connected to the right side of the left base, the bottom of the feeding pipe penetrates through and extends to the bottom of the supporting plate, two connecting rods are fixedly connected to the bottom of the supporting plate, two filter plates are fixedly connected to the bottoms of the left sides of the connecting rods, rectangular holes which are arranged at equal intervals are formed in the bottoms of the filter plates, sliding grooves are formed in the tops of the left sides of the filter plates, screw rods are arranged at the tops of the left sides of the filter plates, two ends of each screw rod penetrate through and extend to the outer sides of the filter plates respectively, sliding blocks which are in threaded connection with the screw rods are sleeved on the screw rods, the sliding blocks are in sliding connection with the sliding grooves, material pushing plates are fixedly connected, the output shaft of the second motor is fixedly connected with a second gear which is meshed with the first gear, the bottom of the supporting plate is fixedly connected with a motor fixing rod, the front of the motor fixing rod is fixedly provided with a first motor, the bottom of the motor fixing rod is fixedly connected with a partition plate, the output shaft of the first motor penetrates through and extends to the inside of the partition plate, the output shaft of the first motor is fixedly connected with a circular plate, the outer side of the circular plate is fixedly connected with evenly distributed scraping plates, the circular plate and the scraping plates are both positioned inside the partition plate, the bottom of the supporting plate is fixedly connected with two electric push rod fixing blocks, the bottoms of the two electric push rod fixing blocks are both fixedly connected with electric push rods, the bottoms of the two electric push rods are both inserted with material leveling plate fixing blocks, and the bottoms of the two leveling plate fixing blocks are both fixedly, the two fixture blocks are respectively positioned inside the two flat material plate fixing blocks, the bottoms of the two flat material plate fixing blocks are fixedly connected with a flat material plate, a sintering machine platform is fixedly connected between the two bases, and the top of the sintering machine platform is fixedly connected with two baffle plates;

the rapping device comprises a device frame, wherein the front side and the back side of the device frame are fixedly connected with motors, output shafts of the two motors penetrate through and extend into the device frame, output shafts of the two motors are fixedly connected with cross-shaped rotating plates, the left side of the inside of the device frame is provided with a slot, the left side of the inside of the slot is fixedly connected with a rotating shaft, the right side of the rotating shaft is hinged with a filter plate, the top of the filter plate is fixedly connected with two rapping bars, the right side of the device frame is provided with a penetrating through groove, the filter plate extends to the right side of the through groove, the right side of the bottom of the filter plate is fixedly connected with two elastic telescopic structures, the two elastic telescopic structures are both positioned inside the through groove, the bottoms of the two elastic telescopic structures are fixedly connected with the inner bottom wall of the through, the collecting box is positioned at the bottom of the through groove, the top of the cross-shaped rotating plate is in contact with the bottom of the filter plate, the top of the device frame is fixedly connected with two clamping blocks, and a grid is arranged between the two clamping blocks;

a plurality of rows of steam pipes are arranged above the grate bar of the sintering machine, a plurality of branch gas injection pipes which are arranged in parallel vertically extend downwards from the bottoms of the steam pipes, and the branch gas injection pipes spray steam to raw materials on the trolley;

the circular roller distributing device at the feed inlet of the sintering machine trolley comprises a machine body, wherein the upper part of the machine body is provided with a feed hopper, the lower part of the machine body is provided with a feed outlet, the feed hopper and the feed outlet are directly provided with circular rollers, the circular rollers can rotate to drive the feed hopper to the feed outlet in a falling manner, the feed hopper, the feed outlet and the circular rollers are all fixed on the machine body, a baffle is arranged above the front side of each circular roller, the bottom of the baffle is emptied, the top of the baffle is hinged with a hinge block arranged on the front side of the feed hopper, and when the baffle is turned over, the gap between the baffle and the circular rollers is increased; when the baffle plate is retracted, the gap between the baffle plate and the round roller is reduced; the top of the front side of the baffle is welded and fixed with a hanging rod, the bottom of the hanging rod is provided with a plurality of bayonets, all the bayonets are consistent in size and are arranged side by side, the hanging rod is obliquely arranged, the welding position of the hanging rod and the baffle is a low position, a fixed rod is arranged at a position close to the top of the hanging rod, the fixed rod is perpendicular to the hanging rod, two ends of the fixed rod are fixed on the machine body, the diameter of the fixed rod is smaller than that of the bayonets, and;

the flue gas purification device at the rear side of the sintering machine trolley comprises a flue gas purification tank, wherein a heating inner container is fixedly arranged inside the flue gas purification tank, a cold water inlet pipe and a hot water outlet pipe are fixedly arranged at the top of the right side of the flue gas purification tank, the left ends of the cold water inlet pipe and the hot water outlet pipe both penetrate through the flue gas purification tank and extend to the inside of the heating inner container, the cold water inlet pipe is positioned right above the hot water outlet pipe, a radiating pipe is fixedly arranged inside the heating inner container, a flue gas inlet pipe is fixedly arranged at the bottom of the heating inner container, the top of the flue gas inlet pipe penetrates through the heating inner container and is communicated with the top of the radiating pipe, a flue gas outlet pipe is fixedly arranged at the top of the heating inner container, the bottom of the flue gas outlet pipe penetrates through the inside of the heating inner container and, the top end of the flue gas outlet pipe penetrates through and extends to the top of the flue gas purification tank, a smoking funnel is fixedly mounted inside the flue gas purification tank, the top of the smoking funnel is fixedly connected and communicated with a flue gas inlet pipe, two adjusting grooves are formed in the bottoms of the left side wall and the right side wall of the flue gas purification tank, supporting springs are fixedly mounted inside four adjusting grooves, a flue gas filtering layer and a dust dredging layer are arranged inside the flue gas purification tank, the left side and the right side of the flue gas filtering layer and the left side of the dust dredging layer extend into the four adjusting grooves respectively, the left side and the right side of the bottom of the flue gas filtering layer and the dust dredging layer are fixedly connected with the four supporting springs respectively, two dust outlets are formed in the left side of the flue gas purification tank, the left sides of the flue gas filtering layer and the dust dredging layer penetrate through the two dust outlets, the back fixed mounting of gas cleaning jar has the motor, the inside rotation of gas cleaning jar is connected with the vibrations roller, the back of vibrations roller run through the gas cleaning jar and with the output shaft fixed connection of motor, the top and the bottom of vibrations roller are dredged the layer with the flue gas filter layer with the dust respectively and are contacted, the right side fixed mounting of gas cleaning jar has the intake pipe that is linked together, the intake pipe is located the flue gas filter layer and the dust is dredged between the layer.

The front and the back of a filter plate of the material leveling device are fixedly connected with bearings, and two ends of the screw rod are rotatably connected with the two bearings respectively.

The bottom fixedly connected with spring of the fixture block of the said material leveling device, the bottom and material leveling plate fixed connection of the said spring, the said spring is located inside material leveling plate fixed block.

The utility model discloses a vibrating device, including filter, rapping device, first fixed block, the bottom fixed connection of filter, the bottom of first fixed block articulates there is the telescopic link, the outside cover of telescopic link is equipped with rather than fixed connection's spring, the bottom of telescopic link articulates there is the second fixed block, the bottom and the device frame fixed connection of second fixed block.

The top of the vibrating rod of the vibrating device is fixedly connected with a vibrating hammer, and the top of the vibrating hammer is fixedly connected with a rubber layer.

The front and the back of the device frame of the rapping device are fixedly connected with sound insulation boards, and the two motors are respectively positioned inside the two sound insulation boards.

Flue gas cleaning device's flue gas filter layer and dust are dredged the layer and are all the slope form, the left side fixed mounting of flue gas cleaning jar has the smoke and dust funnel, the inside that the left side of flue gas filter layer and dust are dredged the layer all extends to the smoke and dust funnel.

The vibrations roller of gas cleaning device includes the dwang, the dwang rotates the inside of connecting in the gas cleaning jar, fixedly connected with evenly distributed's vibrations pole on the dwang, the one end fixed mounting that the gas cleaning jar was kept away from to the vibrations pole has the soft ball of anticollision, the rear end of dwang run through the gas cleaning jar and with the output shaft fixed connection of motor.

Compared with the prior art, the utility model provides a sintering machine of high-efficient production possesses following beneficial effect:

the sintering machine with high-efficiency production can avoid the situation that a user manually takes down blocky impurities, save manpower, improve the practicability, uniformly distribute raw materials and avoid the situations that the raw materials at the edge of a platform of the sintering machine are few and the raw materials in the middle are many; a user adjusts the distance between the material leveling plate and the sintering machine platform through the electric push rod according to actual conditions, so that the thickness of raw materials is adjusted, and the raw materials after material leveling of the material leveling plate are sintered again; large granule dust impurity removes on the filter slowly for debris on the grate bar are clear away, and collect in the collecting box, conveniently recycle debris.

The baffle capable of being turned is arranged above the round roller, when the baffle is turned, the gap between the baffle and the round roller is increased, and the feeding speed and the feeding amount are correspondingly increased; when the baffle is retracted, the gap between the baffle and the round roller is reduced, and the feeding speed and the feeding amount are correspondingly reduced, so that the feeding speed and the feeding amount are conveniently adjusted.

In addition, a plurality of rows of steam pipes are arranged on the trolley, a plurality of branch gas injection pipes which are arranged in parallel vertically extend downwards from the bottoms of the steam pipes, and the branch gas injection pipes spray steam to raw materials on the trolley, so that the raw materials are fully sintered, nitrogen oxides in final products are reduced, and the quality of the products is improved.

By having increased gas cleaning device at the platform truck, pass through the cooling tube with high temperature flue gas in a large amount of heat dissipation to the water in the heating inner bag to heat water, avoid thermal waste, the flue gas by the cooling tube after the heat dissipation is discharged by the flue gas outlet pipe at top, make the device reach and avoid the dust too much to cause the jam to the filter plate in the smoke and dust, and carry out recycle to flue gas high temperature heat, practiced thrift the advantage of resource.

Drawings

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

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

fig. 3 is a top view of the middle leveling device of the present invention;

FIG. 4 is an enlarged view of FIG. 3 at the screw;

FIG. 5 is an enlarged view of portion A of FIG. 2;

FIG. 6 is an enlarged view of portion B of FIG. 2;

FIG. 7 is a front view of the middle rapping device, the steam pipe, and the gas injection branch pipe of the present invention;

FIG. 8 is a right side view of the middle rapping device of the present invention;

FIG. 9 is an enlarged view of the resiliently flexible structure of FIG. 7;

FIG. 10 is a schematic view of the construction of the rapping bar of FIG. 7;

FIG. 11 is an enlarged view of the portion C of FIG. 7;

FIG. 12 is a schematic view of the telescopic rod of FIG. 9;

FIG. 13 is a schematic structural view of the roller distributor of FIG. 1;

FIG. 14 is a schematic view of the flue gas cleaning apparatus of FIG. 1;

FIG. 15 is a sectional view of the connection structure of the fume purifying tank and the vibration roller in FIG. 14.

In the figure: the material leveling device comprises a material leveling device 1, a base 1.1, a supporting plate 1.2, a sintering machine platform 1.3, a feeding pipe 1.4, a connecting rod 1.5, a motor fixing rod 1.6, a first motor 1.7, a partition plate 1.8, a circular plate 1.9, a scraping plate 1.10, a scraping tooth 1.11, an electric push rod fixing block 1.12, a material leveling plate 1.13, a filter plate 1.14, a screw rod 1.15, a sliding chute 1.16, a bearing 1.17, a first gear 1.18, a second gear 1.19, a sliding block 1.20, a scraping plate 1.21, a rectangular hole 1.22, a second motor 1.23, an electric push rod 1.24, a fixture block 1.25, a material leveling plate fixing block 1.26, a spring 1.27, a baffle plate 1.28, a rapping device 2, a frame 2.1, a motor 2.2, a cross rotating plate 2.3, a rotating wheel 2.301, a slot 2.4, a rotating shaft 2.5, a vibrating rapping rod 2.6, a vibrating rapping rod 2.7, a rubber layer 2.701, a filter plate 2.57, a filter plate 2.2, a telescopic rod 4610, a telescopic rod structure 395910, a telescopic rod 4610, a telescopic rod structure, a telescopic rod 4610, a, 2.13 sound insulation boards, 3 steam pipes, 4 air injection branch pipes, 5 round roller distributors, 5.1 feed hoppers, 5.2 feed openings, 5.3 round rollers, 5.4 baffle plates, 5.5 suspension rods, 5.5 bayonets, 5.6 fixing rods, 6 flue gas purification devices, 6.1 flue gas purification tanks, 6.2 heating inner containers, 6.3 cold water inlet pipes, 6.4 hot water outlet pipes, 6.5 radiating pipes, 6.6 flue gas inlet pipes, 6.7 flue gas outlet pipes, 6.8 exhaust fans, 6.9 smoking funnels, 6.10 adjusting grooves, 6.11 supporting springs, 6.12 flue gas filtering layers, 6.13 dust dredging layers, 6.14 dust outlets, 6.15 motors, 6.16 vibrating rollers, 6.1601 rotating rods, 6.1602 vibrating rods, 6.1603 anti-collision soft balls, 6.17 heat insulation blocks, 6.18 supporting blocks, 6.19 smoke funnels and 6.20 gas inlet pipes.

Detailed Description

Referring to fig. 1 to 15, the utility model relates to a sintering machine of high-efficient production, it includes sintering machine platform truck, round roller distributing device 5 and gas cleaning device 6, round roller distributing device 5 sets up in sintering machine platform truck feed inlet top, the rear side of sintering machine platform truck sets up a plurality of gas cleaning device 6.

Wherein, a plurality of material leveling devices 1 are arranged on the sintering pallet, and a plurality of rapping devices 2 are arranged under the sintering pallet.

Wherein the material leveling device 1 comprises four bases 1.1, the four bases 1.1 play a role of fixing and supporting the whole device, a supporting plate 1.2 is fixedly connected between the two bases 1.1, the right side of the base 1.1 on the left side is fixedly connected with a feeding pipe 1.4, the bottom of the feeding pipe 1.4 penetrates through and extends to the bottom of the supporting plate 1.2, the bottom of the supporting plate 1.2 is fixedly connected with two connecting rods 1.5, the bottom of the left side of the two connecting rods 1.5 is fixedly connected with a filter plate 1.14, the bottom of the filter plate 1.14 is provided with rectangular holes 1.22 which are arranged equidistantly, the raw material is filtered through the rectangular holes 1.22, the top of the left side of the filter plate 1.14 is provided with a chute 1.16, the top of the left side of the filter plate 1.14 is provided with a screw rod 1.15, two ends of the screw rod 1.15 respectively penetrate through and extend to the outer side of the filter plate 1.14, a sliding block 1.20 which is connected with a thread is sleeved on the, the front side of the screw 1.15 is fixedly connected with a first gear 1.18, the right side of the filter plate 1.14 is provided with a second motor 1.23, the models of the second motor 1.23 and a first motor 1.7 below are Y160M-4, the output shaft of the second motor 1.23 is fixedly connected with a second gear 1.19, the second gear 1.19 is meshed with the first gear 1.18, so that raw materials enter the sintering machine platform 1.3 from the feeding pipe 1.4, the raw materials move rightwards on the sintering machine platform 1.3, the raw materials are filtered by the filter plate 1.14, the blocky impurities are blocked at the left side of the filter plate 1.14, the situation of flower drawing caused by the blocky impurities being blocked on the flat plate 1.13 is avoided, the second motor 1.23 is started at the same time, the push plate 1.21 is driven to move forwards and backwards along the filter plate 1.14 under the coordination of the first gear 1.18, the second gear 1.19, the screw 1.15 and the slide block 1.20, the blocky impurities accumulated at the left side of the filter plate 1.14 are pushed, the bottom of the supporting plate 1.2 is fixedly connected with a motor fixing rod 1.6, the front of the motor fixing rod 1.6 is fixedly provided with a first motor 1.7, the bottom of the motor fixing rod 1.6 is fixedly connected with a baffle plate 1.8, an output shaft of the first motor 1.7 penetrates through and extends to the inside of the baffle plate 1.8, the output shaft of the first motor 1.7 is fixedly connected with a circular plate 1.9, the outer side of the circular plate 1.9 is fixedly connected with evenly distributed scraping plates 1.10, the circular plate 1.9 and the scraping plates 1.10 are both positioned inside the baffle plate 1.8, raw materials filtered by the filtering plate 1.14 enter the baffle plate 1.8, the first motor 1.7 is started, under the matching of the circular plate 1.9 and the scraping plates 1.10, raw materials at the edge and in the middle of the sintering machine platform 1.3 are stirred, so that the raw materials are evenly distributed, the situation that the raw materials at the edge of the sintering machine platform 1.3 are few and the middle raw materials are many is avoided, and the baffle plate 1.8 and the baffle plate 1., the bottom of the supporting plate 1.2 is fixedly connected with two electric push rod fixing blocks 1.12, the bottoms of the two electric push rod fixing blocks 1.12 are fixedly connected with electric push rods 1.24, the model of the electric push rod 1.24 is LT05, the bottoms of the two electric push rods 1.24 are respectively inserted with a material leveling plate fixing block 1.26, the bottoms of the two material leveling plate fixing blocks 1.26 are respectively fixedly connected with a clamping block 1.25, the two clamping blocks 1.25 are respectively positioned inside the two material leveling plate fixing blocks 1.26, the bottoms of the two material leveling plate fixing blocks 1.26 are fixedly connected with a material leveling plate 1.13, a sintering machine platform 1.3 is fixedly connected between the two bases 1.1, the top of the sintering machine platform 1.3 is fixedly connected with two baffle plates 1.28, filtered and stirred raw materials are conveyed to the left side of the material leveling plate 1.13 through the sintering machine platform 1.3, a user adjusts the distance between the material leveling plate 1.13 and the sintering machine platform 1.3 through the electric push rod 1, the raw materials after being leveled by the leveling plate 1.13 are sintered again.

Furthermore, rectangular hole 1.22 has been seted up to the bottom of scraping wings 1.21, makes the raw materials can pass through rectangular hole 1.22 and cubic impurity can not pass through rectangular hole 1.22, lets between the cubic impurity ability pushed away the sintering machine platform 1.3 the outside, avoids the manual cubic impurity that takes off of user, uses manpower sparingly and improves the practicality.

Furthermore, the shape of the flat material plate 1.13 is a bow shape, and the bow shape is favorable for pushing the raw materials at the edge of the sintering machine platform 1.3 to the middle, so that the condition that the sintering effect is not good due to less raw materials at the edge of the sintering machine platform 1.3 and more raw materials in the middle is avoided.

Furthermore, the front face and the back face of the filter plate 1.14 are fixedly connected with bearings 1.17, and two ends of the screw rod 1.15 are respectively connected with the two bearings 1.17 in a rotating mode, so that the screw rod 1.15 can rotate more smoothly, and the practicability is improved.

Furthermore, the bottom of the fixture block 1.25 is fixedly connected with a spring 1.27, the bottom of the spring 1.27 is fixedly connected with the flat material plate 13, and the spring 1.27 is located inside the flat material plate fixing block 1.26, so that the electric push rod 1.24 can play a certain buffering role when driving the fixture block 1.25 to move downwards.

Furthermore, the bottom fixedly connected with of scraping flitch 1.10 scrapes material tooth 1.11, makes scraping flitch 1.10 scrape the material effect better when rotatory scraping material, can improve the gas permeability of raw materials, the sintering of the raw materials of being convenient for.

The working principle of the material leveling device is as follows: when in use, the four bases are respectively arranged at two sides of the sintering machine platform, the top of the sintering machine platform is fixedly connected with two baffle plates, a supporting plate is fixedly connected between the four bases, the right side of the left base is fixedly connected with a feeding pipe, the bottom of the feeding pipe penetrates through and extends to the bottom of the supporting plate, the bottom of the supporting plate is fixedly connected with two connecting rods, the left bottom of the two connecting rods is fixedly connected with a filtering plate, the bottom of the filtering plate is provided with rectangular holes which are arranged at equal intervals, the left top of the filtering plate is provided with a chute, the left top of the filtering plate is provided with a screw rod, two ends of the screw rod respectively penetrate through and extend to the outer side of the filtering plate, a sliding block in threaded connection with the screw rod is sleeved on the screw rod, the sliding block, the output shaft of the second motor is fixedly connected with a second gear which is meshed with the first gear to allow raw materials to enter the sintering machine platform from the feeding pipe, the raw materials move rightwards on the sintering machine platform, the raw materials are filtered by the filter plate, and massive impurities are blocked at the left side of the filter plate to avoid the situation of flower drawing caused by the fact that the massive impurities block the flat material plate, the second motor is started at the same time, the pushing plate is driven to move forwards and backwards along the filter plate under the coordination of the first gear, the second gear, the screw rod and the sliding block, the massive impurities accumulated at the left side of the filter plate are pushed to the outer side of the sintering machine platform, a user is prevented from manually taking down the massive impurities, manpower is saved, the practicability is improved, the motor fixing rod is fixedly connected with the bottom of the supporting plate through the front of the motor fixing rod, the first motor is fixedly installed, the output shaft of the first motor is fixedly connected with a circular plate, the outer side of the circular plate is fixedly connected with evenly distributed scraping plates, the circular plate and the scraping plates are both positioned inside the partition plate, raw materials filtered by the filter plate enter the partition plate, the first motor is started, under the matching of the circular plate and the scraping plates, the raw materials at the edge and in the middle of the sintering machine platform are stirred, so that the raw materials are evenly distributed, the condition that the raw materials at the edge of the sintering machine platform are few and the raw materials in the middle are many is avoided, meanwhile, the partition plate and the baffle plate can prevent the raw materials from falling into the outer side of the sintering machine platform in the stirring process, two electric push rod fixing blocks are fixedly connected with the bottom of the support plate, electric push rods are fixedly connected with the bottoms of the two electric push rod fixing blocks, the flat material plate fixing blocks are inserted into the bottoms of the two, the bottom of the two material leveling plate fixing blocks is fixedly connected with a material leveling plate, filtered and stirred raw materials are conveyed to the left side of the material leveling plate through a sintering machine platform, a user adjusts the distance between the material leveling plate and the sintering machine platform through an electric push rod according to actual conditions so as to adjust the thickness of the raw materials, the raw materials after material leveling through the material leveling plate are sintered again, meanwhile, bearings are fixedly connected with the front side and the back side of the filter plate respectively, two ends of a screw rod are rotatably connected with the two bearings respectively, the screw rod is more smoothly rotated, the practicability is improved, a spring is fixedly connected with the bottom of a clamping block, the bottom of the spring is fixedly connected with the material leveling plate and is positioned inside the material leveling plate fixing blocks, a certain buffering effect can be achieved when the clamping block is driven by the electric push rod to move downwards, and material scraping teeth are fixedly connected with the bottom of the material scraping plate so that the, can improve the gas permeability of raw materials, the sintering of the raw materials of being convenient for has solved sintering machine platform edge raw materials less, is unfavorable for the sintering, contains cubic impurity in the raw materials, can block the preceding condition that leads to the raw materials to draw the flower of flat flitch.

The rapping device 2 comprises a device frame 2.1, wherein the front side and the back side of the device frame 2.1 are fixedly connected with motors 2.2, output shafts of the two motors 2.2 penetrate through and extend into the device frame 2.1, output shafts of the two motors 2.2 are fixedly connected with a cross-shaped rotating plate 2.3, the left side of the inside of the device frame 2.1 is provided with a slot 2.4, the left side of the inside of the slot 2.4 is fixedly connected with a rotating shaft 2.5, the right side of the rotating shaft 2.5 is hinged with a filter plate 2.6, the top of the filter plate 2.6 is fixedly connected with two rapping bars 2.7, the right side of the device frame 2.1 is provided with a penetrating through groove 2.8, the filter plate 2.6 extends to the right side of the through groove 2.8, the right side of the bottom of the filter plate 2.6 is fixedly connected with two elastic telescopic structures 2.9, the two elastic telescopic structures 2.9 are positioned in the through groove 2.8, the bottoms of the two elastic telescopic structures 2.9 are fixedly connected with the inner bottom, the collecting box 2.10 is positioned at the bottom of the through groove 2.8, the top of the cross rotating plate 2.3 is contacted with the bottom of the filter plate 2.6, the top of the device frame 2.1 is fixedly connected with two clamping blocks 2.11, a grid bar 2.12 is arranged between the two clamping blocks 2.11, the motor 2.2 is turned on, the cross rotating plate 2.3 is driven by the motor 2.2 to rotate, the top of the cross rotating plate 2.3 drives the filter plate 2.6 to do lifting reciprocating motion, the vibrating bar 2.7 at the top of the filter plate 2.6 therefore does lifting reciprocating motion, when the vibrating bar 2.7 rises to the top, the grid bar 2.12 between the two clamping blocks 2.11 is struck once, impurity dust adhered on the grid bar 2.12 is struck down and then falls onto the filter plate 2.6, at the moment, the smaller dust and the impurity cannot be filtered by the filter plate 2.6, the impurity can be continuously utilized and combusted, while the larger dust and the impurity can not be well combusted, and can be filtered by the filter plate 2.6, and the filter plate can be reciprocated, the filter 6 is mostly in the inclined state that descends because of the effect of elastic telescopic structure 2.9, lets large granule dust impurity move on filter 2.6 slowly for debris on the grid section 2.12 are clear away, and collect collection box 2.10 in, conveniently recycle debris.

Further, the elastic telescopic structure 2.9 comprises a first fixing block 2.901, the first fixing block 2.901 is fixedly connected with the bottom of the filter plate 2.6, the bottom of the first fixing block 2.901 is hinged with a telescopic rod 2.902, a spring 2.903 fixedly connected with the telescopic rod 2.902 is sleeved outside the telescopic rod 2.902, the bottom of the telescopic rod 2.902 is hinged with a second fixing block 2.904, the bottom of the second fixing block 2.904 is fixedly connected with the device frame 2.1, the first fixing block 2.901 in the elastic telescopic structure 2.9 is hinged with the filter plate 2.6, so that when the filter plate 2.6 ascends and descends, the connecting position can slightly translate, the first fixing block 2.901 is not perpendicular to the filter plate 2.6, the problem can be well solved by the hinged first fixing block 2.901 and the second fixing block 2.904, when the filter plate 2.6 ascends to the top, the first fixing block 2.901 and the second fixing block 2.904 slightly rotate, so that the telescopic rod 2.902 and the spring 2.903 are in an inclined state, this will not affect the elastic deformation of the spring 2.903, but will also ensure the useful life of the device.

Further, the top all around of cross rotor plate 2.3 all rotates and is connected with and rotates wheel 2.301, through setting up cross rotor plate 2.3 rotation wheel 2.301 all around for cross rotor plate 2.3 hits the in-process that filters 2.6 is hit in the rotation, can not cause the damage of filter 2.6 because of the increase of number of times time, has prolonged the life of filter 2.6.

Furthermore, the top of the rapping rod 2.7 is fixedly connected with a rapping hammer 2.701, the top of the rapping hammer 2.701 is fixedly connected with a rubber layer 2.702, and the rapping hammer 2.701 and the rubber layer 2.702 are arranged, so that the rapping effect is better, the rubber layer 2.702 can generate elastic deformation, and the phenomenon that the rapping rod 2.7 strikes the grid section 2.12 with too large force, so that the grid section 2.12 is damaged is avoided.

Further, the front and the equal fixedly connected with acoustic celotex board 2.13 in the back of device frame 2.1, two motors 2.2 are located two acoustic celotex board 2.13's inside respectively, through setting up acoustic celotex board 2.13 for two motors 2.2 are at the during operation, and a large amount of noises that send are isolated by acoustic celotex board 2.13, make more comfortable when the user uses, can not cause the injury to the human body.

Further, the material of filter 2.6 is heat-resistant steel, and the material through filter 2.6 is heat-resistant steel for when the material burning, probably make the inside temperature of device frame 2.1 rise, can not make filter 2.6 damage, guaranteed the normal operating of device.

The working principle of the rapping device is as follows: the motor is turned on, the motor drives the cross-shaped rotating plate to rotate, the top of the cross-shaped rotating plate drives the filter plate to do lifting reciprocating motion, and the rotating wheels around the cross-shaped rotating plate are arranged, so that the cross-shaped rotating plate can rotate to hit the filter plate without causing damage to the filter plate due to increase of times and time, the service life of the filter plate is prolonged, the vibrating rod at the top of the filter plate can do lifting reciprocating motion, when the vibrating rod rises to the top, the grate bar between two clamping blocks can be hit once, at the moment, the vibrating effect is better by arranging the vibrating hammer and the rubber layer, the rubber layer can generate elastic deformation, the vibrating rod is prevented from hitting the grate bar with too large force, the damage to the grate bar is caused, the vibrating rod hits the impurity dust adhered to the grate bar and then falls onto the filter plate, and at the moment, smaller dust impurities cannot be filtered by the filter plate, the filter plate can be continuously utilized and combusted, the effect of reburning and utilizing larger dust and impurities is poor, and therefore the filter plate can be filtered, in the lifting and reciprocating motion of the filter plate, most of the filter plate can be in a descending inclined state due to the effect of an elastic telescopic structure, large-particle dust and impurities can slowly move on the filter plate, impurities on a grate bar can be removed, the impurities are collected in a collecting box, the impurities can be conveniently recycled, the filter plate is hinged with the first fixed block in the elastic telescopic structure, when the filter plate ascends and descends, the connecting position can slightly translate, the first fixed block and the filter plate are enabled not to be perpendicular, the problem can be well solved by the hinged first fixed block and the hinged second fixed block, when the filter plate ascends to the top, the first fixed block and the second fixed block slightly rotate, and the telescopic rod and the spring are enabled to be in an inclined state, therefore, the elastic deformation of the spring is not influenced, and the service life of the device can be ensured.

The sintering machine is provided with a plurality of rows of steam pipes 3 above the grate bars 2.12, a plurality of parallel air injection branch pipes 4 vertically extend downwards from the bottoms of the steam pipes 3, and the air injection branch pipes 4 spray steam to the raw materials on the trolley, so that the raw materials are fully sintered, the nitrogen oxides in the final products are reduced, and the quality of the products is improved.

The round roller distributing device 5 of sintering machine platform truck pan feeding mouth department includes the fuselage, and the upper portion of fuselage is feeder hopper 5.1, and the lower part is feed opening 5.2, feeder hopper 5.1 and feed opening 5.2 directly are provided with round roller 5.3, round roller 5.3 can rotate, and the rotation that falls down feeder hopper 5.1 is being taken to feed opening 5.2 in, and feeder hopper 5.1, feed opening 5.2, round roller 5.3 are all fixed on the fuselage, and the top of round roller 5.3 front side is provided with a baffle 5.4, and the raw materials falls down from the clearance of baffle 5.4 and round roller 5.3.

The bottom of the baffle 5.4 is empty, the top of the baffle 5.4 is hinged with a hinge block arranged on the front side of the feed hopper 5.1, so that the baffle 5.4 can be turned up and down, when the baffle 5.4 is turned, the gap between the baffle 5.4 and the round roller 5.3 is increased, and the feeding speed and the feeding amount are correspondingly increased; when the baffle 5.4 is turned over, the gap between the baffle 5.4 and the round roller 5.3 is reduced, and the feeding speed and the feeding amount are correspondingly reduced.

The top of the front side of the baffle 5.4 is fixedly welded with a hanger rod 5.5, the bottom of the hanger rod 5.5 is provided with a plurality of bayonets 5.5.1, all the bayonets 5.5.1 are consistent in size and are arranged side by side, the hanger rod 5.5 is obliquely arranged, the welding part of the hanger rod and the baffle 5.4 is a low part, a fixing rod 5.6 is arranged at the position close to the top of the hanger rod 5.5, the fixing rod 5.6 is vertical to the hanger rod 5.5, two ends of the fixing rod 5.6 are fixed on the machine body, the diameter of the fixing rod 5.6 is smaller than the bayonets 5.5.1, and the hanger rod 5.5 can clamp different bayonets 5.5.1 on the fixing rod 5.6 along with the movement of the baffle 5.4, so that the gap between the baffle 5..

The flue gas purification device 6 at the rear side of the sintering machine trolley comprises a flue gas purification tank 6.1, a heating inner container 6.2 is fixedly arranged in the flue gas purification tank 6.1, a cold water inlet pipe 6.3 and a hot water outlet pipe 6.4 are fixedly arranged at the top on the right side of the flue gas purification tank 6.1, the left ends of the cold water inlet pipe 6.3 and the hot water outlet pipe 6.4 penetrate through the flue gas purification tank 6.1 and extend to the inside of the heating inner container 6.2, the cold water inlet pipe 6.3 is positioned right above the hot water outlet pipe 6.4, a radiating pipe 6.5 is fixedly arranged in the heating inner container 6.2, a flue gas inlet pipe 6.6 is fixedly arranged at the bottom of the heating inner container 6.2, the top of the flue gas inlet pipe 6.6 penetrates through the heating inner container 6.2 and is communicated with the top of the radiating pipe 6.5, a flue gas outlet pipe 6.7 is fixedly arranged at the top of the heating inner container 6.2, an exhaust fan is fixedly arranged at the bottom of the flue gas outlet pipe 6.7, the top end of the flue gas outlet pipe 6.7 penetrates through and extends to the top of the flue gas purification tank 6.1, the inside of the flue gas purification tank 6.1 is fixedly provided with a smoking funnel 6.9, the top of the smoking funnel 6.9 is fixedly connected and communicated with the flue gas inlet pipe 6.6, the bottoms of the left side wall and the right side wall of the flue gas purification tank 6.1 are respectively provided with two adjusting grooves 6.10, the insides of the four adjusting grooves 6.10 are respectively and fixedly provided with a supporting spring 6.11, the inside of the flue gas purification tank 6.1 is provided with a flue gas filtering layer 6.12 and a dust guiding layer 6.13, the left side and the right side of the flue gas filtering layer 6.12 and the dust guiding layer 6.13 respectively extend to the insides of the four adjusting grooves 6.10, the left side and the right side of the bottoms of the flue gas filtering layer 6.12 and the dust guiding layer 6.13 are respectively and fixedly connected with the four supporting springs 6.11, the left side of the flue gas purification tank 6.1 is provided with two dust outlets 6.14, and the left side of the flue gas filtering, the back of the flue gas purification tank 6.1 is fixedly provided with a motor 6.15, the interior of the flue gas purification tank 6.1 is rotatably connected with a vibration roller 6.16, the back of the vibration roller 6.16 penetrates through the flue gas purification tank 6.1 and is fixedly connected with an output shaft of the motor 6.15, the top and the bottom of the vibration roller 6.16 are respectively contacted with a flue gas filter layer 6.12 and a dust dredging layer 6.13, the right side of the flue gas purification tank 6.1 is fixedly provided with a communicated air inlet pipe 6.20, the air inlet pipe 6.20 is positioned between the flue gas filter layer 6.12 and the dust dredging layer 6.13, the motor 6.15 is arranged on the back of the flue gas purification tank 6.1, the interior of the flue gas purification tank 6.1 is rotatably connected with the vibration roller 6.16, the rear end of the vibration roller 6.16 is fixedly connected with the output shaft of the motor 6.15, so that the motor 6.15 drives the vibration roller 6.16 to rotate, the regulation grooves 6.10 are arranged on the left and the right sides in the interior of the flue gas purification tank, the top parts of the four supporting springs 6.11 are respectively fixedly connected with a smoke filtering layer 6.12 and a dust dredging layer 6.13, the top part and the bottom part of a vibration roller 6.16 are respectively contacted with the smoke filtering layer 6.12 and the dust dredging layer 6.13, so that the smoke filtering layer 6.12 and the dust dredging layer 6.13 are driven to vibrate by the rotation of the vibration roller 6.16, smoke dust is not easy to remain on the smoke filtering layer 6.12 and the dust dredging layer 6.13, and can be discharged from a dust outlet 6.14, the blockage of the smoke filtering layer 6.12 by smoke dust is avoided, a heating inner container 6.2 is arranged on a smoke purifying tank 6.1, a smoke funnel 6.9 is arranged inside the smoke purifying tank 6.1, and high-temperature smoke after filtering is collected, the top part of the smoke funnel 6.9 is communicated with a radiating pipe 6.5 arranged inside the heating inner container 6.2, a smoke outlet pipe 6.7 is arranged at the top part of the heating inner container 6.2, and the bottom end of the smoke outlet pipe 6.7 is communicated with the radiating pipe, an exhaust fan 6.8 is arranged in the flue gas outlet pipe 6.7, the bottom of the flue gas outlet pipe 6.7 extends to the top of the flue gas purification tank 6.1, so that high-temperature flue gas enters a heat radiation pipe 6.5 from the bottom of a smoke suction funnel 6.9 through a flue gas inlet pipe 6.6 under the action of suction force of the exhaust fan 6.8, a cold water inlet pipe 6.3 and a hot water outlet pipe 6.4 are arranged on the right side of the flue gas purification tank 6.1, cold water is injected into the cold water inlet pipe 6.3 to enter a heating inner container 6.2, then the high-temperature flue gas radiates a large amount of heat into the water in the heating inner container 6.2 through the heat radiation pipe 6.5, so that the water is heated, the waste of heat is avoided, the flue gas radiated by the heat radiation pipe 5 is discharged from the flue gas outlet pipe 6.7 on the top, the device is enabled to avoid the blockage of excessive dust in the flue gas, the filter plate is recycled, and the resource advantage is saved, the model of the exhaust fan 6.8 is KFA-30, and the model of the motor 6.15 is Y160M-4.

Further, the equal fixed mounting in the left and right sides of heating inner bag 6.2 has the heat insulating block 6.17 that the equidistance was arranged, heat insulating block 6.17 keeps away from one side of heating inner bag 6.2 and flue gas purification jar 6.1 inner wall fixed even, through installing heat insulating block 6.17 in the left and right sides of heating inner bag 6.2, play the fixed stay effect to heating inner bag 6.2, and heat insulating block 6.17 can completely cut off the heat of heating inner bag 6.2, thereby reduce the loss of heat in the heating inner bag 6.2, thereby make the device have certain heat preservation ability.

Furthermore, the top end of the flue gas outlet pipe 6.7 is fixedly provided with a flue gas shielding cap which is composed of a heat insulating material, and the flue gas shielding cap is arranged at the top of the flue gas outlet pipe 6.7, so that high-temperature flue gas is scattered after being discharged from the flue gas outlet pipe 6.7, and the hidden danger that workers are possibly scalded by the high-temperature flue gas discharged from the flue gas outlet pipe 6.7 is avoided.

Further, the equal fixed mounting in the left and right sides in the heating inner bag 6.2 has supporting shoe 6.18, and the equal fixed connection in the left and right sides of one side that two supporting shoes 6.18 are relative and cooling tube 6.5 supports cooling tube 6.5 through at inner bag internally mounted supporting shoe 6.18 to make cooling tube 6.5 installation relatively stable, increased the practicality of device.

Further, flue gas filter layer 6.12 and the dust are dredged and are led layer 6.13 and all be the slope form, flue gas purification jar 1's left side fixed mounting has smoke and dust funnel 6.19, flue gas filter layer 6.12 and the left side that the dust dredged layer 6.13 all extend to the inside of smoke and dust funnel 6.19, it all is the slope form to dredge layer 6.13 with the dust through setting up flue gas filter layer 6.12, when making flue gas filter layer 6.12 and dust dredge layer 6.13 shake through vibrations roller 6.16, the dust can directly drop to the outside of flue gas purification jar 6.1 by dust export 6.14, through setting up smoke and dust funnel 6.19, avoided the interior smoke and dust of flue gas purification jar 6.1 directly to be discharged by dust export 6.14, and have certain storage capacity to the dust, the practicality of device has been increased.

Further, the vibration roller 6.16 includes a rotation rod 6.1601, the rotation rod 6.1601 is rotatably connected to the inside of the flue gas purification tank 6.1, the rotation rod 6.1601 is fixedly connected with vibration rods 6.1602 which are uniformly distributed, one end of the vibration rod 6.1602 far away from the flue gas purification tank 6.1 is fixedly provided with anti-collision soft balls 6.1603, the rear end of the rotation rod 6.1601 penetrates through the flue gas purification tank 6.1 and is fixedly connected with the output shaft of the motor 6.15, the vibration rods 6.1602 which are uniformly and uniformly distributed are fixedly arranged on the rotation rod 6.1601, and the anti-collision soft balls 6.1603 at one end of the vibration rod 6.1602 far away from the rotation rod 6.1601, so that when the rotation rod 6.1601 rotates, the anti-collision soft balls 6.1603 vibrate the flue gas filtration layer 6.12 and the dust evacuation layer 6.13 to drive the flue gas filtration layer 6.12 and the dust evacuation layer 6.13, so that the filter plate of the device is not easily blocked by smoke, and the anti-collision soft balls 6.1603 are soft balls 6.1603 to collide the flue gas filtration layer 6.12 and the dust evacuation layer 6.13, thereby increasing the utility of the device.

The working principle of the flue gas purification device 6 is as follows: the motor is arranged on the back of the flue gas purification tank, the interior of the flue gas purification tank is rotatably connected with the vibration roller, the rear end of the vibration roller is fixedly connected with the output shaft of the motor, so that the motor drives the vibration roller to rotate, the adjusting grooves are formed in the left side and the right side of the interior of the flue gas purification tank, the supporting springs are fixedly arranged in the adjusting grooves, the tops of the four supporting springs are respectively and fixedly connected with the flue gas filtering layer and the dust dredging layer, the top and the bottom of the vibration roller are respectively in contact with the flue gas filtering layer and the dust dredging layer, so that the flue gas filtering layer and the dust dredging layer are driven to vibrate through the rotation of the vibration roller, the flue gas dust is not easy to remain on the flue gas filtering layer and the dust dredging layer, and finally can be discharged from a dust outlet, the blockage of the flue gas filtering layer caused by smoke dust is avoided, and thereby collecting the filtered high temperature flue gas, and the top of the smoke suction funnel is communicated with a heat radiation pipe arranged inside the heating inner container, and the top of the heating inner container is provided with a flue gas outlet pipe, the bottom end of the flue gas outlet pipe is communicated with the heat radiation pipe, an exhaust fan is arranged in the flue gas outlet pipe, the bottom of the flue gas outlet pipe extends to the top of the flue gas purification tank, thereby leading the high temperature flue gas to be acted by the suction force of the exhaust fan, the flue gas enters the heat radiation pipe from the flue gas inlet pipe at the bottom of the smoke suction funnel, and the right side of the flue gas purification tank is provided with a cold water inlet pipe and a hot water outlet pipe, the cold water enters the heating inner container by injecting cold water into the cold water inlet pipe, then the high temperature flue gas is radiated into the water in the heating inner container through the heat radiation pipe, the device has the advantages that the filter plate is prevented from being blocked by excessive dust in smoke, the high-temperature heat of the smoke is recycled, and resources are saved.

Claims (8)

1. The sintering machine capable of realizing high-efficiency production is characterized in that: the device comprises a sintering pallet, a round roller distributor and flue gas purification devices, wherein the round roller distributor is arranged above a feed inlet of the sintering pallet, and a plurality of flue gas purification devices are arranged on the rear side of the sintering pallet;

a plurality of material leveling devices and a plurality of rapping devices are arranged on the sintering pallet;

wherein the material leveling device comprises four bases, a supporting plate is fixedly connected between the four bases, a feeding pipe is fixedly connected to the right side of the left base, the bottom of the feeding pipe penetrates through and extends to the bottom of the supporting plate, two connecting rods are fixedly connected to the bottom of the supporting plate, two filter plates are fixedly connected to the bottoms of the left sides of the connecting rods, rectangular holes which are arranged at equal intervals are formed in the bottoms of the filter plates, sliding grooves are formed in the tops of the left sides of the filter plates, screw rods are arranged at the tops of the left sides of the filter plates, two ends of each screw rod penetrate through and extend to the outer sides of the filter plates respectively, sliding blocks which are in threaded connection with the screw rods are sleeved on the screw rods, the sliding blocks are in sliding connection with the sliding grooves, material pushing plates are fixedly connected, the output shaft of the second motor is fixedly connected with a second gear which is meshed with the first gear, the bottom of the supporting plate is fixedly connected with a motor fixing rod, the front of the motor fixing rod is fixedly provided with a first motor, the bottom of the motor fixing rod is fixedly connected with a partition plate, the output shaft of the first motor penetrates through and extends to the inside of the partition plate, the output shaft of the first motor is fixedly connected with a circular plate, the outer side of the circular plate is fixedly connected with evenly distributed scraping plates, the circular plate and the scraping plates are both positioned inside the partition plate, the bottom of the supporting plate is fixedly connected with two electric push rod fixing blocks, the bottoms of the two electric push rod fixing blocks are both fixedly connected with electric push rods, the bottoms of the two electric push rods are both inserted with material leveling plate fixing blocks, and the bottoms of the two leveling plate fixing blocks are both fixedly, the two fixture blocks are respectively positioned inside the two flat material plate fixing blocks, the bottoms of the two flat material plate fixing blocks are fixedly connected with a flat material plate, a sintering machine platform is fixedly connected between the two bases, and the top of the sintering machine platform is fixedly connected with two baffle plates;

the rapping device comprises a device frame, wherein the front side and the back side of the device frame are fixedly connected with motors, output shafts of the two motors penetrate through and extend into the device frame, output shafts of the two motors are fixedly connected with cross-shaped rotating plates, the left side of the inside of the device frame is provided with a slot, the left side of the inside of the slot is fixedly connected with a rotating shaft, the right side of the rotating shaft is hinged with a filter plate, the top of the filter plate is fixedly connected with two rapping bars, the right side of the device frame is provided with a penetrating through groove, the filter plate extends to the right side of the through groove, the right side of the bottom of the filter plate is fixedly connected with two elastic telescopic structures, the two elastic telescopic structures are both positioned inside the through groove, the bottoms of the two elastic telescopic structures are fixedly connected with the inner bottom wall of the through, the collecting box is positioned at the bottom of the through groove, the top of the cross-shaped rotating plate is in contact with the bottom of the filter plate, the top of the device frame is fixedly connected with two clamping blocks, and a grid is arranged between the two clamping blocks;

a plurality of rows of steam pipes are arranged above the grate bar of the sintering machine, a plurality of branch gas injection pipes which are arranged in parallel vertically extend downwards from the bottoms of the steam pipes, and the branch gas injection pipes spray steam to raw materials on the trolley;

the circular roller distributing device at the feed inlet of the sintering machine trolley comprises a machine body, wherein the upper part of the machine body is provided with a feed hopper, the lower part of the machine body is provided with a feed outlet, the feed hopper and the feed outlet are directly provided with circular rollers, the circular rollers can rotate to drive the feed hopper to the feed outlet in a falling manner, the feed hopper, the feed outlet and the circular rollers are all fixed on the machine body, a baffle is arranged above the front side of each circular roller, the bottom of the baffle is emptied, the top of the baffle is hinged with a hinge block arranged on the front side of the feed hopper, and when the baffle is turned over, the gap between the baffle and the circular rollers is increased; when the baffle plate is retracted, the gap between the baffle plate and the round roller is reduced; the top of the front side of the baffle is welded and fixed with a hanging rod, the bottom of the hanging rod is provided with a plurality of bayonets, all the bayonets are consistent in size and are arranged side by side, the hanging rod is obliquely arranged, the welding position of the hanging rod and the baffle is a low position, a fixed rod is arranged at a position close to the top of the hanging rod, the fixed rod is perpendicular to the hanging rod, two ends of the fixed rod are fixed on the machine body, the diameter of the fixed rod is smaller than that of the bayonets, and;

the flue gas purification device at the rear side of the sintering machine trolley comprises a flue gas purification tank, wherein a heating inner container is fixedly arranged inside the flue gas purification tank, a cold water inlet pipe and a hot water outlet pipe are fixedly arranged at the top of the right side of the flue gas purification tank, the left ends of the cold water inlet pipe and the hot water outlet pipe both penetrate through the flue gas purification tank and extend to the inside of the heating inner container, the cold water inlet pipe is positioned right above the hot water outlet pipe, a radiating pipe is fixedly arranged inside the heating inner container, a flue gas inlet pipe is fixedly arranged at the bottom of the heating inner container, the top of the flue gas inlet pipe penetrates through the heating inner container and is communicated with the top of the radiating pipe, a flue gas outlet pipe is fixedly arranged at the top of the heating inner container, the bottom of the flue gas outlet pipe penetrates through the inside of the heating inner container and, the top end of the flue gas outlet pipe penetrates through and extends to the top of the flue gas purification tank, a smoking funnel is fixedly mounted inside the flue gas purification tank, the top of the smoking funnel is fixedly connected and communicated with a flue gas inlet pipe, two adjusting grooves are formed in the bottoms of the left side wall and the right side wall of the flue gas purification tank, supporting springs are fixedly mounted inside four adjusting grooves, a flue gas filtering layer and a dust dredging layer are arranged inside the flue gas purification tank, the left side and the right side of the flue gas filtering layer and the left side of the dust dredging layer extend into the four adjusting grooves respectively, the left side and the right side of the bottom of the flue gas filtering layer and the dust dredging layer are fixedly connected with the four supporting springs respectively, two dust outlets are formed in the left side of the flue gas purification tank, the left sides of the flue gas filtering layer and the dust dredging layer penetrate through the two dust outlets, the back fixed mounting of gas cleaning jar has the motor, the inside rotation of gas cleaning jar is connected with the vibrations roller, the back of vibrations roller run through the gas cleaning jar and with the output shaft fixed connection of motor, the top and the bottom of vibrations roller are dredged the layer with the flue gas filter layer with the dust respectively and are contacted, the right side fixed mounting of gas cleaning jar has the intake pipe that is linked together, the intake pipe is located the flue gas filter layer and the dust is dredged between the layer.

2. The sintering machine capable of high-efficiency production according to claim 1, characterized in that: the front and the back of a filter plate of the material leveling device are fixedly connected with bearings, and two ends of the screw rod are rotatably connected with the two bearings respectively.

3. The sintering machine capable of high-efficiency production according to claim 1, characterized in that: the bottom fixedly connected with spring of the fixture block of the said material leveling device, the bottom and material leveling plate fixed connection of the said spring, the said spring is located inside material leveling plate fixed block.

4. The sintering machine capable of high-efficiency production according to claim 1, characterized in that: the utility model discloses a vibrating device, including filter, rapping device, first fixed block, the bottom fixed connection of filter, the bottom of first fixed block articulates there is the telescopic link, the outside cover of telescopic link is equipped with rather than fixed connection's spring, the bottom of telescopic link articulates there is the second fixed block, the bottom and the device frame fixed connection of second fixed block.

5. The sintering machine capable of high-efficiency production according to claim 1, characterized in that: the top of the vibrating rod of the vibrating device is fixedly connected with a vibrating hammer, and the top of the vibrating hammer is fixedly connected with a rubber layer.

6. The sintering machine capable of high-efficiency production according to claim 1, characterized in that: the front and the back of the device frame of the rapping device are fixedly connected with sound insulation boards, and the two motors are respectively positioned inside the two sound insulation boards.

7. The sintering machine capable of high-efficiency production according to claim 1, characterized in that: flue gas cleaning device's flue gas filter layer and dust are dredged the layer and are all the slope form, the left side fixed mounting of flue gas cleaning jar has the smoke and dust funnel, the inside that the left side of flue gas filter layer and dust are dredged the layer all extends to the smoke and dust funnel.

8. The sintering machine capable of high-efficiency production according to claim 1, characterized in that: the vibrations roller of gas cleaning device includes the dwang, the dwang rotates the inside of connecting in the gas cleaning jar, fixedly connected with evenly distributed's vibrations pole on the dwang, the one end fixed mounting that the gas cleaning jar was kept away from to the vibrations pole has the soft ball of anticollision, the rear end of dwang run through the gas cleaning jar and with the output shaft fixed connection of motor.

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