CN116351364A - Metering system for multi-source solid waste synergistic functional cementing material - Google Patents

Abstract

The invention discloses a metering system of a multi-source solid-waste synergistic functional cementing material, which comprises a stirring reaction assembly, a metering blanking assembly and a gradual blanking assembly, wherein one side of each lantern ring is fixedly connected with a connecting piece.

Description

Metering system for multi-source solid waste synergistic functional cementing material

Technical Field

The invention belongs to the technical field of cementing material metering, and particularly relates to a metering system of a multi-source solid waste synergistic functional cementing material.

Background

Cementing materials, also known as cements. Under the physical and chemical actions, the slurry can be changed into a firm stone-like body, and other materials can be glued to prepare a compound solid substance with certain mechanical strength. In civil engineering materials, any material that can bond bulk or bulk materials into a whole through a series of physical and chemical changes is called a cementing material, and the disclosure is: CN218191681U discloses a system for preparing cementing material by combining typical waste residues of multiple industries of steel chemical engineering, which comprises a steel slag processing subsystem, a feeding metering subsystem and a mixed grinding subsystem; the steel slag treatment subsystem comprises a steel slag receiving hopper, a double-roller crusher, a steel slag ball mill, a powder selecting machine and a plurality of belt conveyors, and raw materials treated by the powder selecting machine are conveyed to the feeding metering subsystem; the feeding metering subsystem comprises a steel slag powder storage bin and a plurality of waste slag storage bins, and each of the steel slag powder storage bin and each waste slag storage bin is respectively provided with a metering device; the metering device is connected to the mixed grinding subsystem; the mixing grinding subsystem comprises a mixing ball mill, a ball milling discharge screw conveyor, a third bucket elevator and a cementing material powder bin which are connected in sequence. The system links material flow, energy flow and the like in the production and preparation process of the cementing material, optimizes the process flow, improves the production efficiency of the cementing material, reduces the comprehensive energy consumption and realizes the recycling of industrial solid wastes such as steel slag and the like.

The problems of the prior art are: the existing gel material processing production process is to mix the processing production of the gel material through the stirring device, but the gel material is required to be transported after being measured and weighed after the production process is finished, and when a limiting mechanism is not arranged in the measuring and weighing process, the gel material in the process of instant discharging is caused to be scattered and cannot be packaged and uniformly measured and weighed, so that the problem of use value is reduced.

Disclosure of Invention

The invention aims to provide a metering system of a multi-source solid waste synergistic functional cementing material, which aims to solve the problems in the background art.

The invention discloses a metering system of a multi-source solid-waste synergistic functional cementing material, which comprises a stirring reaction assembly, a metering blanking assembly and a gradual blanking assembly, wherein the stirring reaction assembly comprises an annular mounting plate which is fixedly connected below the inner wall of a reaction tank, a first chute and a second chute are arranged above and below the inner side of the annular mounting plate, a slip ring is movably arranged in the first chute, and an annular toothed plate is movably arranged in the second chute; the metering and blanking assembly comprises a lifting plate, two sides of the lower surface of the lifting plate are fixedly connected with second fixed metal plates, the lower ends of the second fixed metal plates are rotatably provided with electric push rod output shafts, the lower ends of the electric push rods are fixedly connected to the upper surface of a mounting base, the mounting base is rotatably arranged in grooves, and the grooves are arranged at four corners of the upper surface of the fixed plate; the step-by-step unloading subassembly is including spacing panel beating, spacing panel beating fixed connection is in the four corners department of the shrinkage pool inner wall of solid fixed ring, both sides fixed surface is connected with fixed stop on the spacing panel beating, both sides fixedly connected with rotary rod between the same end of spacing panel beating, the fixed cover in rotary rod both ends is equipped with the lantern ring, both sides lantern ring one side fixedly connected with connecting piece, both sides connecting piece one end fixedly connected with extends shell one side.

As the preferable mode of the invention, the upper end of the reaction tank is provided with a feed inlet, a sealing cover is arranged above the feed inlet, a metering tank and a storage tank are sequentially connected below the reaction tank, the lower surface of the storage tank is provided with a discharge outlet, the surfaces of the outer sides of the reaction tank, the metering tank and the storage tank are supported on the ground through a support bracket, the same sides of the reaction tank, the metering tank and the storage tank are connected with a centralized pipe, one side of the centralized pipe is connected with a treatment pipe, the treatment pipe is connected with an exhaust gas treatment device, the exhaust gas treatment device is supported on the ground through a fixed bracket, a stirring reaction component is arranged in the reaction tank, a fixed ring is arranged at the joint of the reaction tank, the metering tank and the storage tank, a step-by-step blanking component is arranged in each fixed ring, a fixed plate is fixedly connected above the inner wall of the metering tank, and the fixed plate is provided with a metering blanking component.

As the preferable mode of the invention, a plurality of evenly distributed connecting rods are fixedly connected between the slip ring and the inner wall of the annular toothed plate, the inner side of each connecting rod is fixedly connected with an agitating plate, and a plurality of evenly distributed extension rods are fixedly connected on the upper surface of the slip ring.

As preferable in the invention, the upper end of each extension rod is fixedly connected with a poking plate, the inner side of the annular toothed plate is connected with a gear through latch meshing, the gear is fixedly connected with the output shaft of a first motor, and the first motor is fixedly connected with one side of the inner wall of the reaction tank.

As the preferable mode of the invention, the upper end of the ejector rod is rotatably provided with the second installation metal plate, the second installation metal plates on two sides are fixedly connected with two sides of the middle part of the lower surface of the lifting plate, the lower end of the ejector rod on two sides is rotatably provided with the second sliding block, the second sliding block on two sides is arranged in the third sliding rail, and the third sliding rail is fixedly connected with two sides of the upper surface of the funnel.

As preferable, the two hoppers are uniformly arranged, two mounting rods are fixedly connected to two sides of each hopper, the two mounting rods are rotatably arranged on the rotating shaft, limiting plates are fixedly connected to two ends of the rotating shaft, and the limiting plates are fixedly connected to two sides of the lower surface of the fixing plate.

As the preferred mode of the invention, an extension baffle is arranged in the extension shell, two sides of the inner wall of the extension shell are fixedly connected with a second limiting rod, two sides of the second limiting rod are movably provided with a first mounting rod, two sides of the first mounting rod are fixedly connected with one side of the extension baffle, four first fixing metal plates are arranged between the extension baffle and the inner side of the extension shell, wherein the three first fixing metal plates are respectively and fixedly connected with the surfaces of the inner sides of the extension shell and the extension baffle, one of the first fixing metal plates is arranged in a second sliding rail, and the second sliding rail is fixedly connected with one side of the inner wall of the extension shell.

As the preferred mode of the invention, a first supporting rod and a second supporting rod are rotatably arranged between the four first fixed metal plates, the first supporting rod and the second supporting rod are arranged in a crossed mode and are rotatably arranged at the joint, one side of one first fixed metal plate is fixedly connected with a threaded matching rod, the threaded matching rod is connected with a second screw rod through threaded engagement, one end of the second screw rod is fixedly connected with a second motor, and one side of the second motor is fixedly connected with one side of the inner wall of the extension shell.

As the invention is preferable, the two sides of the upper surface of the extension shell are fixedly connected with the first slide rail, the first slide blocks are arranged in the first slide rails on the two sides, the lower ends of the movable plates are rotatably arranged on the first slide blocks on the two sides, the movable plates on the two sides are movably arranged in the mounting groove, the mounting groove is arranged in the two sides of the fixed ring, the movable plates on the two sides are arranged in the first limiting rod, the first limiting rod is fixedly connected between the inner walls of the mounting groove, the first thread rings are arranged in the middle of the movable plate on the two sides, the first thread rings are connected with the first screw rod through thread engagement, the first screw rod on the two sides is fixedly connected with the output shaft of the double-shaft motor, and the double-shaft motor on the two sides is fixedly connected with the inner walls of the mounting groove.

1. According to the invention, the first screw rods on two sides are driven to rotate by the double-shaft motor, the first screw rods are connected to the movable plate through threaded engagement, the movable plate is movably arranged on the first limiting rod, the movable plate can be limited, the movable plate on two sides moves outwards along the first limiting rod by taking the double-shaft motor as the center, the other end of the movable plate is arranged in the first sliding rail through the first sliding block, the two extending shells can be driven to open towards two sides by taking the rotating rod as the center, so that gelled materials are conveyed, the second screw rods are driven to rotate by the second motor, as the second screw rods are connected with threaded matching rods through threaded engagement on the surface, the threaded matching rods are fixedly connected to one side of the first fixed metal plate, the first fixed metal plate is arranged in the second sliding rail, the fixed metal plate on one side is driven to move towards one side along the second sliding rail, the first supporting rod and the second supporting rod are arranged between the second fixed metal plate, the first supporting rod and the second supporting rod are arranged in a crossed mode, and the connecting parts are rotatably arranged together, the extending baffle is driven to move out of the extending shell, so that gelled materials are conveyed and inversely when the extending baffle is extended into the extending shell.

2. According to the invention, the cementing material in the reaction tank can be mixed and stirred through the stirring reaction component arranged in the reaction tank, the mixing rate of the cementing material is improved, the production efficiency of the cementing material is improved, then the cementing material can be controlled to be conveyed into the reaction tank, the metering tank and the storage tank through the progressive blanking component, and the cementing material can be quantitatively and uniformly conveyed through the metering blanking component when the cementing material is conveyed into the metering tank, so that the situation of blockage and the like caused by excessive blanking of the cementing material is prevented, and in addition, waste gases which do not meet the exhaust standard exist in the process of producing the cementing material, and the waste gases can be collected and filtered in a concentrated manner through the waste gas treatment device.

3. According to the invention, the first motor drives the gear to rotate, the gear is meshed with the annular toothed plate through the clamping teeth, the annular toothed plate is arranged on the second sliding groove, the annular toothed plate can be driven to rotate in the second sliding rail, and then the annular toothed plate is fixedly connected with the sliding ring through the connecting rod, so that the sliding ring and the annular toothed plate can be driven to rotate in the first sliding groove and the second sliding groove, and the stirring plate on the connecting rod and the sliding ring are driven to stir and mix gelled raw materials in the reaction tank.

Drawings

FIG. 1 is a schematic perspective view of the overall structure provided by an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a partial cross-sectional structure provided by an embodiment of the present invention;

FIG. 3 is a schematic perspective view of a stirring reaction assembly according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view of a structure of a metering and blanking assembly according to an embodiment of the present invention;

FIG. 5 is a schematic perspective view of a structure of a progressive blanking assembly provided by an embodiment of the present invention;

FIG. 6 is a schematic perspective view of a partial structure of a progressive blanking assembly provided by an embodiment of the present invention;

fig. 7 is a schematic perspective view of a structure between an extension case and an extension baffle provided by an embodiment of the present invention.

In the figure: 1. a fixed bracket; 2. an exhaust gas treatment device; 3. a treatment tube; 4. a concentration tube; 5. a reaction tank; 6. a metering tank; 7. a storage tank; 8. a discharge port; 9. a support bracket; 10. a feed inlet; 11. sealing cover; 12. stirring the reaction assembly; 13. a fixing ring; 14. metering and blanking components; 15. a fixing plate; 16. gradually blanking components; 201. an annular mounting plate; 202. a first chute; 203. a slip ring; 204. a second chute; 205. an annular toothed plate; 206. a connecting rod; 207. an agitating plate; 208. an extension rod; 209. a poking plate; 210. a gear; 211. a motor I; 301. a mounting groove; 302. a biaxial motor; 303. a first screw rod; 304. a first thread ring; 305. a movable plate; 306. a first limit rod; 307. a first sliding block; 308. a first slide rail; 309. limiting metal plates; 310. an extension housing; 311. a fixed baffle; 312. an extension baffle; 313. a collar; 314. a connecting piece; 315. a first fixed metal plate; 316. a first support rod; 317. a second support rod; 318. a motor II; 319. a second screw rod; 320. a threaded mating rod; 321. a second slide rail; 322. a second limit rod; 323. a first mounting bar; 324. a rotating rod; 401. a groove; 402. a mounting base; 403. an electric push rod; 404. a second fixed metal plate; 405. a lifting plate; 406. a second mounting sheet metal; 407. a push rod; 408. a second slide block; 409. a third slide rail; 410. a funnel; 411. a second mounting rod; 412. a rotating shaft; 413. and a limiting plate.

Detailed Description

For a further understanding of the invention, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

The structure of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 7, the metering system for the multi-source solid waste synergistic functional cementing material provided by the embodiment of the invention comprises a stirring reaction assembly 12, a metering blanking assembly 14 and a gradual blanking assembly 16, wherein the stirring reaction assembly 12 comprises an annular mounting plate 201, the annular mounting plate 201 is fixedly connected below the inner wall of a reaction tank 5, a first chute 202 and a second chute 204 are arranged above and below the inner side of the annular mounting plate 201, a slip ring 203 is movably arranged in the first chute 202, and an annular toothed plate 205 is movably arranged in the second chute 204; the metering and blanking assembly 14 comprises a lifting plate 405, two sides of the lower surface of the lifting plate 405 are fixedly connected with second fixed metal plates 404, the lower ends of the second fixed metal plates 404 on two sides are rotatably provided with output shafts of electric push rods 403, the lower ends of the electric push rods 403 are fixedly connected to the upper surface of a mounting base 402, the mounting base 402 is rotatably mounted in a groove 401, and the groove 401 is arranged at four corners of the upper surface of the fixed plate 15; the step-by-step blanking assembly 16 comprises a limit metal plate 309, the limit metal plate 309 is fixedly connected to four corners of the concave hole inner wall of the fixed ring 13, the two sides are fixedly connected with fixed baffles 311 on the upper surface of the limit metal plate 309, the two sides are fixedly connected with rotating rods 324 between the same ends of the limit metal plate 309, collar 313 are fixedly sleeved at two ends of the rotating rods 324, connecting pieces 314 are fixedly connected to one side of the collar 313, and one end of each connecting piece 314 is fixedly connected to one side of the extending shell 310.

The upper end of the reaction tank 5 is provided with a feed inlet 10, a sealing cover 11 is arranged above the feed inlet 10, a metering tank 6 and a storage tank 7 are sequentially connected below the reaction tank 5, the lower surface of the storage tank 7 is provided with a discharge outlet 8, the outer side surfaces of the reaction tank 5, the metering tank 6 and the storage tank 7 are supported on the ground through a support bracket 9, the same sides of the metering tank 6 and the storage tank 7 are connected with a collecting pipe 4, one side of the collecting pipe 4 is connected with a treatment pipe 3, the treatment pipe 3 is connected with an exhaust gas treatment device 2, the exhaust gas treatment device 2 is supported on the ground through a fixed bracket 1, a stirring reaction assembly 12 is arranged in the reaction tank 5, a fixed ring 13 is arranged at the joint of the reaction tank 5, the metering tank 6 and the storage tank 7, a step-by-step blanking assembly 16 is arranged in each fixed ring 13, a fixed plate 15 is fixedly connected above the inner wall of the metering tank 6, and a metering blanking assembly 14 is arranged on the fixed plate 15;

the stirring reaction component 12 is arranged in the reaction tank 5 to mix and stir the cementing material in the reaction tank 5, the production efficiency of the cementing material is improved by improving the mixing rate of the cementing material, then the cementing material can be controlled to be conveyed into the reaction tank 5, the metering tank 6 and the storage tank 7 through the progressive blanking component 16, and the cementing material can be quantitatively and uniformly conveyed through the metering blanking component 14 when the cementing material is conveyed into the metering tank 6, so that the conditions of excessive blockage and the like caused by the blanking of the cementing material are prevented, and in addition, waste gases which do not meet the exhaust standard exist in the process of producing the cementing material, and the waste gases can be collected and filtered in a concentrated manner through the waste gas treatment device 2.

A plurality of evenly distributed connecting rods 206 are fixedly connected between the slip ring 203 and the inner wall of the annular toothed plate 205, an agitating plate 207 is fixedly connected to the inner side of each connecting rod 206, a plurality of evenly distributed extension rods 208 are fixedly connected to the upper surface of the slip ring 203, a poking plate 209 is fixedly connected to the upper end of each extension rod 208, a gear 210 is connected to the inner side of the annular toothed plate 205 through latch meshing, the gear 210 is fixedly connected to the output shaft of a first motor 211, and the first motor 211 is fixedly connected to one side of the inner wall of the reaction tank 5;

the gear 210 is driven to rotate by the first motor 211, the gear 210 is connected to the annular toothed plate 205 through latch meshing, the annular toothed plate 205 is installed in the second sliding groove 204, the annular toothed plate 205 can be driven to rotate in the second sliding rail 204, and then the annular toothed plate 205 can drive the sliding ring 203 and the annular toothed plate 205 to rotate in the first sliding groove 202 and the second sliding groove 204 through the connecting rod 206 fixedly connected to the sliding ring 203, so that the stirring plate 207 and the stirring plate 209 on the connecting rod 206 and the sliding ring 203 are driven to stir and mix gelled raw materials in the reaction tank 5.

The upper end of the push rod 407 is rotatably provided with a second installation metal plate 406, the second installation metal plate 406 on two sides is fixedly connected with two sides of the middle part of the lower surface of the lifting plate 405, the lower end of the push rod 407 on two sides is rotatably provided with a second sliding block 408, the second sliding block 408 on two sides is arranged in a third sliding rail 409, the third sliding rail 409 is fixedly connected with two sides of the upper surface of the funnel 410, the funnel 410 is uniformly provided with two, two sides are fixedly connected with a second installation rod 411 on two sides of the funnel 410, the second installation rod 411 on two sides is rotatably installed on a rotating shaft 412, two sides are fixedly connected with limiting plates 413 on two ends of the rotating shaft 412, and the limiting plates 413 on two sides are fixedly connected with two sides of the lower surface of the fixed plate 15;

because the lower extreme of electric putter 403 is installed in recess 401 through mounting base 402 rotation to electric putter 403's output shaft passes through No. two fixed panel beating 404 fixed connection in lifter plate 405 lower surface, just can drive lifter plate 405 and vertically go up and down's effect, and then the ejector pin 407 is installed through No. two installation panel beating 406 rotations in the middle part of the lower surface of rethread lifter plate 405, and the ejector pin 407 lower extreme is installed on No. two slider 408 in rotation, no. two slider 408 is installed on No. three slide rail 409, no. three slide rail 409 fixed connection is in funnel 410 upper surface, just can play the driven effect through ejector pin 407, withstands both sides funnel 410 and rotate with pivot 412 as the center, make the cementing material in the funnel 410 of both sides carry out, thereby reach the effect of measurement uniform velocity transport.

The extension shell 310 is internally provided with an extension baffle 312, two sides of the inner wall of the extension shell 310 are fixedly connected with a second limit rod 322, two sides of the second limit rod 322 are internally and movably provided with a first mounting rod 323, two sides of the first mounting rod 323 are fixedly connected with one side of the extension baffle 312, four first fixing metal plates 315 are arranged between the extension baffle 312 and the inner side of the extension shell 310, three first fixing metal plates 315 are respectively and fixedly connected with the inner side surfaces of the extension shell 310 and the extension baffle 312, one of the first fixing metal plates 315 is arranged in a second sliding rail 321, the second sliding rail 321 is fixedly connected with one side of the inner wall of the extension shell 310, a first supporting rod 316 and a second supporting rod 317 are rotatably arranged between the four first fixing metal plates 315, the first supporting rod 316 and the second supporting rod 317 are arranged in a crossing manner, the joint is rotatably arranged together, one side of the first fixing metal plates 315 is fixedly connected with a threaded matching rod 320, the threaded matching rod 320 is connected with a second screw 319 through threaded engagement, one end of the second screw 319 is fixedly connected with a second motor 318, and one side of the second screw 319 is fixedly connected with one side of the inner wall of the extension shell 310;

the second screw rod 319 is driven to rotate through the second motor 318, as the second screw rod 319 is connected with the threaded matching rod 320 through the threaded engagement of the surface, the threaded matching rod 320 is fixedly connected to one side of the first fixed metal plate 315, the first fixed metal plate 315 is installed in the second slide rail 321, the first fixed metal plate 315 can be driven to move to one side along the second slide rail 321, the first support rod 316 and the second support rod 317 are installed between each fixed metal plate 315, the first support rod 316 and the second support rod 317 are arranged in a crossed mode, the joints are rotatably installed together, the extension baffle 312 can be driven to move out of the outer side of the extension shell 310, and the gelled material is isolated, otherwise, the transportation of the gelled material can be completed when the extension baffle 312 is retracted into the extension shell 310.

The first sliding rails 308 are fixedly connected to the two sides of the upper surface of the extension housing 310, the first sliding blocks 307 are installed in the first sliding rails 308 on the two sides, the lower ends of the movable plates 305 are rotatably installed on the first sliding blocks 307 on the two sides, the movable plates 305 on the two sides are movably installed in the mounting grooves 301, the mounting grooves 301 are arranged in the two sides of the fixed ring 13, the movable plates 305 on the two sides are installed in the first limiting rods 306, the first limiting rods 306 are fixedly connected between the inner walls of the mounting grooves 301, the first threaded rings 304 are arranged in the middle of the movable plates 305 on the two sides, the first threaded rings 304 are connected with first screw rods 303 through threaded engagement, the first screw rods 303 on the two sides are fixedly connected with output shafts of the double-shaft motors 302, and the double-shaft motors 302 on the two sides are fixedly connected with the inner walls of the mounting grooves 301;

the double-shaft motor 302 drives the screw rods 303 on two sides to rotate, the screw rods 303 are connected to the movable plate 305 through threaded engagement, the movable plate 305 is movably mounted on the first limiting rod 306 to limit the movable plate 305, the movable plate 305 on two sides moves outwards along the first limiting rod 306 by taking the double-shaft motor 302 as the center, the other end of the movable plate 305 is mounted in the first sliding rail 308 through the first sliding block 307, and the two-side extension housing 310 can be driven to be opened to two sides by taking the rotary rod 324 as the center, so that gelled materials are conveyed.

When in use, the double-shaft motor 302 drives the first screw rods 303 on two sides to rotate, the first screw rods 303 are connected to the movable plate 305 through threaded engagement, then the movable plate 305 is movably arranged on the first limiting rod 306 to limit the movable plate 305, so that the two movable plates 305 on two sides move outwards along the first limiting rod 306 by taking the double-shaft motor 302 as the center, the other ends of the movable plates 305 are arranged in the first sliding rail 308 through the first sliding block 307, the two side extension shells 310 are driven to open towards two sides by taking the rotating rod 324 as the center, thereby conveying gelled materials, the second screw rods 319 are driven to rotate through the second motor 318, as the second screw rods 319 are connected with the threaded matching rods 320 through the threaded engagement on the surfaces, the threaded matching rods 320 are fixedly connected to one side of the first fixed metal plates 315, the first fixed metal plates 315 are arranged in the second sliding rail 321, the fixed metal plate 315 on one side can be driven to move to one side along the second slide rail 321, a first supporting rod 316 and a second supporting rod 317 are installed between each fixed metal plate 315, the first supporting rod 316 and the second supporting rod 317 are arranged in a crossed way and are rotationally installed at the joint, the extension baffle 312 can be driven to move out of the outer side of the extension shell 310, the gelled material is isolated, on the contrary, when the extension baffle 312 is retracted into the extension shell 310, the transportation of the gelled material can be completed, as the lower end of the electric push rod 403 is rotationally installed in the groove 401 through the installation base 402, the output shaft of the electric push rod 403 is fixedly connected to the lower surface of the lifting plate 405 through the second fixed metal plate 404, the lifting plate 405 can be driven to vertically lift, then the push rod 407 is rotationally installed through the second installation metal plate 406 in the middle of the lower surface of the lifting plate 405, and the lower extreme rotation of ejector pin 407 is installed on No. two sliders 408, no. two sliders 408 are installed on No. three slide rails 409, no. three slide rails 409 fixed connection is in funnel 410 upper surface, just can play the driven effect through ejector pin 407, prop up both sides funnel 410 and use pivot 412 to rotate as the center, make the cementing material in the both sides funnel 410 carry out, thereby reach the effect that the measurement was carried at uniform velocity, drive gear 210 rotation through motor 211, and gear 210 is connected in annular pinion rack 205 through the latch meshing, and annular pinion rack 205 installs in No. two spout 204, just can drive annular pinion rack 205 and be located No. two slide rails 204 rotation, again because annular pinion rack 205 just can drive slide ring 203 and annular pinion rack 205 and be located No. one spout 202 and No. two spout 204 rotation through connecting rod 206 fixed connection, thereby drive stirring plate 207 and the stirring plate 209 on connecting rod 206 and the slide ring 203 and stir the raw and mix the cementing material in the retort 5.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a multisource solid waste synergistic functional cementing material's measurement system, includes stirring reaction subassembly (12), measurement unloading subassembly (14) and progressively unloading subassembly (16), its characterized in that:

the stirring reaction assembly (12) comprises an annular mounting plate (201), the annular mounting plate (201) is fixedly connected to the lower part of the inner wall of the reaction tank (5), a first sliding groove (202) and a second sliding groove (204) are formed in the upper part and the lower part of the inner side of the annular mounting plate (201), a sliding ring (203) is movably arranged in the first sliding groove (202), and an annular toothed plate (205) is movably arranged in the second sliding groove (204);

the metering blanking assembly (14) comprises a lifting plate (405), two sides of the lower surface of the lifting plate (405) are fixedly connected with second fixed metal plates (404), the lower ends of the second fixed metal plates (404) on two sides are rotatably provided with output shafts of electric push rods (403), the lower ends of the electric push rods (403) are fixedly connected to the upper surface of a mounting base (402), the mounting base (402) is rotatably mounted in a groove (401), and the groove (401) is arranged at four corners of the upper surface of a fixed plate (15);

the progressive blanking assembly (16) comprises a limiting metal plate (309), the limiting metal plate (309) is fixedly connected to four corners of the concave hole inner wall of the fixed ring (13), the two sides are fixedly connected with fixed baffles (311) on the upper surface of the limiting metal plate (309), two sides are fixedly connected with rotating rods (324) between the same ends of the limiting metal plate (309), lantern rings (313) are fixedly sleeved at two ends of the rotating rods (324), connecting pieces (314) are fixedly connected to one side of the lantern rings (313), and one end of each connecting piece (314) is fixedly connected to one side of an extension shell (310).

2. The metering system for multi-source solid waste synergistic functional cementing materials of claim 1, wherein: the reactor comprises a reaction tank (5), wherein a feeding port (10) is formed in the upper end of the reaction tank (5), a sealing cover (11) is arranged above the feeding port (10), a metering tank (6) and a storage tank (7) are sequentially connected below the reaction tank (5), a discharging port (8) is formed in the lower surface of the storage tank (7), the reaction tank (5), the metering tank (6) and the storage tank (7) are supported on the ground through supporting brackets (9) and are connected with a centralized pipe (4) on the same side of the three, a treatment pipe (3) is connected to one side of the centralized pipe (4), the treatment pipe (3) is connected to an exhaust gas treatment device (2), the exhaust gas treatment device (2) is supported on the ground through a fixing bracket (1), a stirring reaction component (12) is arranged in the reaction tank (5), a fixing ring (13) is arranged at the joint of the metering tank (6) and the storage tank (7), a progressive discharging component (16) is arranged in each fixing ring (13), a fixed connection plate (15) on the upper side of the metering tank (6), and a fixed plate (15) is fixedly connected to the upper surface of the reaction tank (7).

3. The metering system for multi-source solid waste synergistic functional cementing materials of claim 1, wherein: a plurality of evenly distributed connecting rods (206) are fixedly connected between the slip ring (203) and the inner wall of the annular toothed plate (205), stirring plates (207) are fixedly connected to the inner sides of the connecting rods (206), and a plurality of evenly distributed extension rods (208) are fixedly connected to the upper surface of the slip ring (203).

4. A metering system for a multi-source solid waste synergistic functional cementitious material as claimed in claim 3, wherein: every extension rod (208) upper end fixedly connected with dials board (209), annular pinion rack (205) inboard is connected with gear (210) through the latch meshing, gear (210) fixed connection is in motor (211) output shaft No. one, motor (211) fixed connection is in retort (5) inner wall one side.

5. The metering system for multi-source solid waste synergistic functional cementing materials of claim 1, wherein: the ejector rod (407) upper end is rotated and is installed No. two installation panel beating (406), both sides No. two installation panel beating (406) fixed connection are in the both sides at lifter plate (405) lower surface middle part, both sides No. two slider (408) are installed in ejector rod (407) lower extreme rotation, both sides No. two slider (408) are installed in No. three slide rail (409), no. three slide rail (409) fixed connection is in the both sides of funnel (410) upper surface.

6. The metering system for multi-source solid waste synergistic functional cementing materials of claim 5, wherein: the funnel (410) evenly is provided with two, both sides funnel (410) both sides fixedly connected with No. two installation pole (411), both sides No. two installation pole (411) rotate and install on pivot (412), both sides pivot (412) both ends fixedly connected with limiting plate (413), both sides limiting plate (413) fixedly connected with in the both sides of fixed plate (15) lower surface.

7. The metering system for multi-source solid waste synergistic functional cementing materials of claim 1, wherein: install in extension shell (310) and extend baffle (312), extension shell (310) inner wall both sides fixedly connected with No. two gag lever posts (322), both sides movable mounting has a installation pole (323) in No. two gag lever posts (322), both sides No. one installation pole (323) fixed connection is in extension baffle (312) one side, be provided with a fixed panel beating (315) everywhere between extension baffle (312) and extension shell (310) inboard, wherein three No. one fixed panel beating (315) respectively fixed connection in extension shell (310) and extension baffle (312) inboard surface, one of them No. one fixed panel beating (315) is installed in No. two slide rails (321), no. two slide rails (321) fixed connection are in extension shell (310) inner wall one side.

8. The metering system for multi-source solid waste synergistic functional cementing materials of claim 7, wherein: the four fixed panel beating (315) are rotated and are installed a bracing piece (316) and No. two bracing pieces (317), cross setting is in the same place and junction rotation is installed together between No. one bracing piece (316) and No. two bracing pieces (317), one of them fixed panel beating (315) one side fixedly connected with screw thread fit pole (320), screw thread fit pole (320) are connected with No. two lead screws (319) through screw thread engagement, no. two lead screws (319) one end fixedly connected with No. two motors (318), no. two motors (318) one side fixedly connected with extend shell (310) inner wall one side.

9. The metering system for multi-source solid waste synergistic functional cementing materials of claim 8, wherein: the two sides the sliding rail (308) is fixedly connected with on the two sides of the upper surface of the extension shell (310), the two sides the sliding block (307) is arranged in the sliding rail (308), the two sides the movable plate (305) is rotatably arranged on the sliding block (307), the two sides the movable plate (305) is movably arranged in the mounting groove (301), the mounting groove (301) is arranged inside the two sides of the fixed ring (13), the movable plate (305) is arranged in the first limiting rod (306), the first limiting rod (306) is fixedly connected between the inner walls of the mounting groove (301), the middle part of the movable plate (305) is provided with a first thread ring (304), the first thread ring (304) is connected with a first screw (303) through thread engagement, the two sides of the first screw (303) is fixedly connected with the output shaft of the double-shaft motor (302), and the two sides of the double-shaft motor (302) is fixedly connected with the inner walls of the mounting groove (301).

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