CN115430683A

CN115430683A - Municipal concrete solid waste recycling device

Info

Publication number: CN115430683A
Application number: CN202211134091.9A
Authority: CN
Inventors: 段传强; 马凓伟; 杨静; 孟凡朋; 林茵; 房淑群; 朱虔实; 张钧泽; 白俊胜
Original assignee: Linyi Municipal Group Co Ltd
Current assignee: Linyi Municipal Group Co Ltd
Priority date: 2022-09-18
Filing date: 2022-09-18
Publication date: 2022-12-06
Anticipated expiration: 2042-09-18
Also published as: CN115430683B

Abstract

The invention discloses a municipal concrete solid waste recycling device which comprises a rack, a front transmission mechanism, a jaw crusher, a separating disc, a dust cover I, a dust collecting mechanism, a conveying belt I, a dust cover II, a vibrating screen, a conveying belt II, a dust storage box, a movable cover and a guide plate. According to the invention, the separation disc which rotates ceaselessly is arranged, so that falling materials are prevented from being accumulated, metal products are better recovered, and dust collection mechanisms are additionally arranged at a plurality of positions with raised dust to treat the raised dust, so that the pollution of the raised dust to the surrounding environment is avoided.

Description

Municipal concrete solid waste recycling device

Technical Field

The invention belongs to the technical field of building solid waste recovery, and particularly relates to a municipal concrete solid waste recovery and treatment device.

Background

In municipal construction process, often can produce more concrete solid waste, if directly abandon, not only influence the environment and still can cause the waste of resource, so need carry out recovery processing to building solid waste to reach the purpose of recycling, following problem appears in the use in current recovery processing device: 1) After the crushed solid waste is put down, materials are easy to accumulate, the crushing treatment process is continuous, and metal products are buried and cannot be normally recovered, so that the metal products cannot be well recovered; 2) Because need carry out broken transportation to building solid waste, inevitable meeting produces the raise dust, adopts the atomizing water to spray the dust fall at present mostly, but the atomizing water hardens easily after combining with the dust, very easily glues and glues in each mechanism to can influence the screening effect, the treatment effect is not good.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a municipal concrete solid waste recycling device, which prevents falling materials from being accumulated and better recycles metal products by arranging a separation disc which rotates ceaselessly, and is additionally provided with a dust collection mechanism at a plurality of positions where raised dust is generated to treat the raised dust so as to avoid the pollution of the raised dust to the surrounding environment.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a municipal administration is with concrete solid waste recovery processing apparatus, includes frame, preceding mechanism, jaw breaker, separation disc, dust cover I, collection dirt mechanism, conveyer belt I, dust cover II, shale shaker, conveyer belt II, dust storage box, movable cover, deflector, frame one end top fixed mounting has preceding mechanism, and preceding mechanism one side is equipped with jaw breaker, and jaw breaker below is equipped with the separation disc, and separation disc top cover is equipped with dust cover I, and I one side of dust cover is equipped with movable cover, and one side is equipped with the deflector, and I top of dust cover is equipped with dust collecting mechanism, and separation disc below is equipped with conveyer belt I, is equipped with dust cover II on the conveyer belt I, and I other end fixed mounting of conveyer belt is in the shale shaker top, and shale shaker top fixed mounting has dust collection mechanism, and shale shaker one side is equipped with conveyer belt II, and the opposite side is equipped with dust storage box.

The separating disc comprises a motor III, a fixing plate, a movable disc, a blanking hole, a stop plate, an upper supporting strip, a lower supporting strip, a shifting block, a spring, a connecting plate I and a motor IV, the fixing plate is fixedly arranged on the frame, the motor III is arranged below the fixing plate, the output end of the motor III penetrates through a central through hole of the fixing plate and is fixedly connected with the movable disc, three groups of blanking holes are formed in the movable disc, three groups of stop plates are arranged inside the movable disc, teeth are arranged on the outer side of each stop plate, the upper supporting strip and the lower supporting strip are arranged on the outer side of the movable disc, the connecting plate I is fixedly arranged on the frame between the movable disc and the conveying belt I, the spring is arranged on the connecting plate I, the other end of the spring is fixedly connected with the shifting block, the shifting block is movably arranged on the frame, the motor IV is arranged on one side of the movable disc, and a gear arranged at the output end of the motor IV can be meshed with the teeth on the outer side of the stop plate;

the separation disc top is equipped with the adjustable shelf, and adjustable shelf movable mounting has the strong magnet in the frame, and strong magnet one side is connected with the telescopic link, and telescopic link other end fixed mounting is in the frame.

The front-end transmission mechanism comprises a motor I, a conveyor belt, a motor II, a leveling rod and a fixing box, wherein a plurality of carrier rollers are arranged inside the fixing box, the conveyor belt is paved on the carrier rollers, a belt pulley arranged on one side of the carrier roller far away from the jaw crusher is meshed with a belt pulley arranged at the output end of the motor I through a belt, the motor I is fixedly arranged on the rack, the motor II is fixedly arranged above the fixing box, and a plurality of leveling rods distributed in a staggered mode are arranged at the output end of the motor II.

Dust collecting mechanism includes motor V, rotor blade, gas passage, connecting pipe I, the mount, movable vane, the limiting plate, connecting rod I, spacing bolt, the inside two sets of rotor blade that is equipped with of dust collecting mechanism, rotor blade one side is equipped with gear intermeshing, wherein a set of rotor blade one side fixed connection motor V output, the rotor blade top is equipped with gas passage, fixed intercommunication connecting pipe I on the gas passage lateral wall, connecting pipe I passes through pipe connection dust storage box, the rotor blade below is equipped with the mount, movable vane has a plurality of movable vane on the mount, movable vane one end active link connecting rod I, I one end of connecting rod is equipped with spacing bolt, spacing bolt movable mounting is fixed through nut locking in the limiting plate.

The shale shaker is including screening case, the maintenance hole, the bottom discharge mouth, the top discharge mouth, supporting spring, vibrating motor, a supporting plate, go up the movable rod, movable connecting rod I, connecting rod II, electric telescopic handle I, connecting plate II, the guide bar, the bottom movable rod, movable connecting rod II, connecting rod III, electric telescopic handle II, the dead lever, screening incasement portion is equipped with two dead levers, movable mounting has bottom movable rod on the dead lever, movable connecting rod both ends movable mounting has movable connecting rod II down, II end-to-end connections of movable connecting rod, II one end swing joint of movable connecting rod are on screening incasement wall, other end movable mounting has connecting rod III, II one end of connecting rod III fixed connection electric telescopic handle, II other end fixed mounting of electric telescopic handle are on screening case, movable mounting has last movable rod above the bottom movable rod, go up movable rod both ends movable mounting has movable connecting rod I, I end-to-end connection of movable connecting rod, I one end swing joint of movable connecting rod II is on the screening case, connecting rod II one end of movable connecting rod through II fixed mounting on electric telescopic handle on the connecting plate, II movable mounting on one side of movable connecting rod on the guide bar, guide bar fixed mounting on the screening case, the other side of the supporting plate, the supporting plate is equipped with the screen case one side of the dead lever, the screen case, the maintenance hole is equipped with the dead lever.

The dust storage box comprises a connecting pipe II, a solenoid valve, an air inlet pipe, a motor VI, a stirring frame I, stirring vanes, a stirring frame II, an inner barrel, a water outlet pipe, an air outlet pipe, an outer barrel, a fixed connecting pipe II communicated with the outer barrel, a connecting pipe II connected with a dust collecting mechanism through a pipeline, a solenoid valve arranged on the connecting pipe II, an inner barrel arranged inside the outer barrel, an air inlet pipe arranged between the outer barrel and the inner barrel, an air inlet pipe communicated with the bottom of the inner barrel, a motor VI arranged above the inner barrel, a stirring frame I and a stirring frame II fixedly arranged at the output end of the motor VI, two groups of stirring frames I installed in a staggered mode, stirring vanes movably arranged on the stirring frame I, a communicated air outlet pipe fixed to the top of the inner barrel, and a communicated water outlet pipe fixed to the bottom of the inner barrel.

Preferably, the rotating speed of the motor IV is 3-5 times of that of the motor III, so that smooth resetting of the blocking plate is guaranteed.

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

1) By arranging the separation disc, the separation disc is driven by the motor III to rotate, so that falling materials are prevented from being accumulated, metal products are effectively prevented from being buried, the exposed metal products can be adsorbed and separated by strong magnets, and the other separated materials can fall into the conveying belt I through the opened blanking holes under the action of the guide plate and enter the vibrating screen;

2) To broken back, set up collection dirt mechanism in the more position of two places raise dusts in the screening, through rotor blade's rotation, make dirt waste gas pass through the pipeline and get into and store up in the dirt case and collect the processing, the V rotational speed of motor is adjusted to the accessible simultaneously, rotor blade's waste gas flow is adjusted to accessible adjustment limit bolt drives connecting rod I, accomplishes opening or closing of movable vane, and the regulation of the amount of wind of being convenient for can close when maintaining simultaneously and prevent that too much dust is excessive.

Drawings

FIG. 1 is a schematic structural view of a municipal concrete solid waste recycling device according to the present invention;

FIG. 2 is a schematic side view of a municipal concrete solid waste recycling device according to the present invention;

FIG. 3 is a schematic view of a split disk configuration;

FIG. 4 is a schematic diagram of a strong magnet structure;

FIG. 5 is a schematic view of a movable disk structure;

FIG. 6 is a schematic view of a barrier plate structure;

FIG. 7 is a schematic view of the dust collecting mechanism;

FIG. 8 is a schematic view of the internal structure of the dust collecting mechanism;

FIG. 9 is a schematic view of a movable vane structure;

FIG. 10 is a schematic view of a vibrating screen construction;

FIG. 11 is a schematic view of the internal structure of the vibrating screen;

FIG. 12 is a schematic view of the lower activating bar;

FIG. 13 is a schematic view of the dust storage box;

FIG. 14 is a schematic view of the internal structure of the dust bin;

FIG. 15 is an enlarged fragmentary view taken at A in FIG. 5;

in the figure: 10. a frame; 11. a forward transmission mechanism; 12. a jaw crusher; 13. separating the disc; 14. a dust cover I; 15. a dust collecting mechanism; 16. a conveying belt I; 17. a dust cover II; 18. vibrating screen; 19. a conveying belt II; 20. a dust storage box; 111. a motor I; 112. a conveyor belt; 113. a motor II; 114. a leveling rod; 115. a fixed box; 131. a motor III; 132. a fixing plate; 133. a movable disc; 1331. a blanking hole; 1332. a blocking plate; 1333. an upper supporting bar; 1334. a lower supporting strip; 134. shifting blocks; 1341. a spring; 1342. a connecting plate I; 135. a motor IV; 136. a telescopic rod; 137. a movable frame; 1371. strong magnets; 141. a movable cover; 142. a guide plate; 151. a motor V; 152. a rotor blade; 153. a gas channel; 154. a connecting pipe I; 155. a fixed mount; 156. a movable blade; 157. a limiting plate; 158. a connecting rod I; 159. a limit bolt; 181. screening the box; 1811. a repair hole; 1812. a discharging hole; 1813. a feeding hole and a discharging hole; 182. a support spring; 183. a vibration motor; 184. a support plate; 185. an upper movable rod; 1851. a movable connecting rod I; 1852. a connecting rod II; 186. an electric telescopic rod I; 1861. a connecting plate II; 1862. a guide bar; 187. a movable rod is lowered; 1871. a movable connecting rod II; 1872. a connecting rod III; 1873. an electric telescopic rod II; 188. fixing the rod; 201. a connecting pipe II; 202. an electromagnetic valve; 203. an air inlet pipe; 204. a motor VI; 2041. a stirring frame I; 2042. a stirring blade; 2043. a stirring frame II; 205. an inner barrel; 206. a water outlet pipe; 207. an air outlet pipe; 208. and an outer cylinder.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further described in detail with reference to fig. 1 to 15.

The utility model provides a municipal administration is with concrete solid waste recovery processing apparatus, includes frame 10, preceding mechanism 11, jaw breaker 12, separation disc 13, dust cover I14, dust collection mechanism 15, conveyer belt I16, dust cover II 17, shale shaker 18, conveyer belt II 19, dust storage box 20, movable cover 141, deflector 142, frame 10 one end top fixed mounting has preceding mechanism 11, and preceding mechanism 11 one side is equipped with jaw breaker 12, and jaw breaker 12 below is equipped with separation disc 13, and separation disc 13 top cover is equipped with dust cover I14, and dust cover I14 one side is equipped with movable cover 141, and one side is equipped with deflector 142, and dust cover I14 top is equipped with dust collection mechanism 15, and separation disc 13 below is equipped with conveyer belt I16, is equipped with dust cover II 17 on the conveyer belt I16, and conveyer belt I16 other end fixed mounting is in 18 top, and shale shaker 18 top fixed mounting has dust collection mechanism 15, and shale shaker 18 one side is equipped with conveyer belt II, and the opposite side is equipped with dust storage box 20.

The separating disc 13 comprises a motor III 131, a fixing plate 132, a movable disc 133, a blanking hole 1331, a stop plate 1332, an upper support bar 1333, a lower support bar 1334, a shifting block 134, a spring 1341, a connecting plate I1342 and a motor IV 135, wherein the fixing plate 132 is fixedly arranged on the rack 10, the motor III 131 is arranged below the fixing plate 132, the output end of the motor III 131 penetrates through the central through hole of the fixing plate 132 to be fixedly connected with the movable disc 133, three groups of blanking holes 1331 are arranged on the movable disc 133, three groups of stop plates 1332 are arranged inside the movable disc 133, teeth are arranged on the outer side of the stop plates 1332, the upper support bar 1333 and the lower support bar 1334 are arranged on the outer side of the movable disc 133, the connecting plate I1342 is fixedly arranged on the rack 10 between the movable disc 133 and the conveying belt I16, the spring 1341 is arranged on the connecting plate I1342, the shifting block 134 is fixedly connected with the other end of the spring 1341, the shifting block 134 is movably arranged on the rack 10, one side of the movable disc 133 is provided with the motor IV 135, and a gear arranged on the output end of the motor IV 135 can be meshed with the teeth on the outer side of the stop plate 1332;

separating disc 13 top is equipped with adjustable shelf 137, and adjustable shelf 137 movable mounting has strong magnet 1371 on the adjustable shelf 137 on the frame 10, and strong magnet 1371 one side is connected with telescopic link 136, and telescopic link 136 other end fixed mounting is on frame 10.

The forward transmission mechanism 11 comprises a motor I111, a conveyor belt 112, a motor II 113, leveling rods 114 and a fixing box 115, wherein a plurality of carrier rollers are arranged inside the fixing box 115, the conveyor belt 112 is paved on the carrier rollers, a belt pulley arranged on one side of the carrier rollers far away from the jaw crusher 12 is meshed and connected with a belt pulley arranged at the output end of the motor I111 through a belt, the motor I111 is fixedly arranged on the rack 10, the motor II 113 is fixedly arranged above the fixing box 115, and the output end of the motor II 113 is provided with the leveling rods 114 which are distributed in a staggered mode.

The dust collection mechanism 15 comprises a motor V151, rotating blades 152, a gas channel 153, a connecting pipe I154, a fixing frame 155, movable blades 156, a limiting plate 157, a connecting rod I158 and a limiting bolt 159, two groups of rotating blades 152 are arranged inside the dust collection mechanism 15, gears are arranged on one side of each rotating blade 152 and are meshed with each other, the output end of the motor V151 is fixedly connected to one side of one group of rotating blades 152, the gas channel 153 is arranged above each rotating blade 152, the connecting pipe I154 is fixedly communicated with the side wall of the gas channel 153, the connecting pipe I154 is connected with the dust storage box 20 through a pipeline, the fixing frame 155 is arranged below each rotating blade 152, a plurality of movable blades 156 are movably mounted on the fixing frame 155, one end of each movable blade 156 is movably connected with the connecting rod I158, one end of the connecting rod I158 is provided with the limiting bolt 159, and the limiting bolt 159 is movably mounted in the limiting plate 157 and is locked and fixed through nuts.

The vibrating screen 18 comprises a screening box 181, a maintenance hole 1811, a lower discharge port 1812, an upper discharge port 1813, a support spring 182, a vibrating motor 183, a support plate 184, an upper movable rod 185, a movable connecting rod I1851, a connecting rod II 1852, an electric telescopic rod I186, a connecting plate II 1861, a guide rod 1862, a lower movable rod 187, a movable connecting rod II 1871, a connecting rod III 1872, an electric telescopic rod II 1873 and a fixed rod 188, the outer side of the screening box 181 is mounted on the frame 10 through a supporting spring 182, the bottom of the screening box 181 is provided with a vibrating motor 183, two fixed rods 188 are arranged inside the screening box 181, a lower movable rod 187 is movably mounted on the fixed rods 188, two ends of the lower movable rod 187 are movably mounted with movable connecting rods II 1871, the movable connecting rods II 1871 are connected end to end, one end of each movable connecting rod II 1871 is movably connected to the inner wall of the screening box 181, the other end of each movable connecting rod II 1872 is movably mounted with a connecting rod III 1872, the connecting rod III 1872 is fixedly connected with one end of an electric telescopic rod II 1873, the other end of the electric telescopic rod II 1873 is fixedly mounted on the screening box 181, an upper movable rod 185 is movably mounted above the lower movable rod 187, and movable connecting rods I1851 are movably mounted at two ends of the upper movable rod 185, movable connecting rod I1851 is end to end, movable connecting rod I1851 one end swing joint is on screening case 181, other end swing joint connecting rod II 1852, connecting rod II 1852 passes through connecting plate II 1861 fixed mounting in electric telescopic handle I186 one end, connecting plate II 1861 movable mounting is on guide bar 1862, guide bar 1862 fixed mounting is on screening case 181, electric telescopic handle I186 other end fixed mounting is on screening case 181, it is equipped with backup pad 184 to go up the movable rod 185 top, backup pad 184 fixed mounting is on screening case 181 inner wall, dead lever 188 top screening case 181 one side is equipped with the top discharge mouth 1813, dead lever 188 below screening case 181 one side is equipped with bottom discharge mouth 1812, screening case 181 one side is equipped with maintenance hole 1811.

The dust storage box 20 comprises a connecting pipe II 201, an electromagnetic valve 202, an air inlet pipe 203, a motor VI 204, a stirring frame I2041, stirring blades 2042, a stirring frame II 2043, an inner cylinder 205, an air outlet pipe 206, an air outlet pipe 207 and an outer cylinder 208, the connecting pipe II 201 is fixedly communicated with the outer cylinder 208, the connecting pipe II 201 is connected with the dust collection mechanism 15 through a pipeline, the electromagnetic valve 202 is arranged on the connecting pipe II 201, the inner cylinder 205 is arranged inside the outer cylinder 208, the air inlet pipe 203 is arranged between the outer cylinder 208 and the inner cylinder 205, the air inlet pipe 203 is communicated with the bottom of the inner cylinder 205, the motor VI 204 is arranged above the inner cylinder 205, the stirring frame I2041 and the stirring frame II 2043 are fixedly arranged at the output end of the motor VI 204, the two groups of stirring frames I2041 are installed in a staggered mode, the stirring blades 2042 are movably arranged on the stirring frame I2041, the air outlet pipe 207 is fixedly communicated with the upper portion of the inner cylinder 205, and the bottom of the inner cylinder 205 is fixedly communicated with the water outlet pipe 206.

The rotating speed of the motor IV 135 is 3-5 times of that of the motor III 131, and smooth resetting of the blocking plate 1332 is guaranteed.

A municipal concrete solid waste recycling device comprises the following working processes: solid waste to be treated is placed on a forward transmission mechanism 11 through engineering machinery such as a forklift and the like, the forward transmission mechanism 11 transmits the solid waste into a jaw crusher 12, in the transmission process, a motor II 113 drives a leveling rod 114 to rotate, so that the whole stack of materials are leveled, the phenomenon that the solid materials enter the jaw crusher 12 too much at one time to cause the jaw crusher 12 to be jammed is avoided, the materials enter a lower separation disc 13 after being crushed by the jaw crusher 12, a dust collection mechanism 15 is started to absorb raised dust, the dust fall is pumped into a dust storage box 20 to be treated, the separation disc 13 rotates under the action of a motor III 131, when a barrier 1332 rotates to the position of a shifting block 134, the shifting block 134 blocks the barrier 1332 to rotate, a blanking hole 1331 is opened, and when the upper support strip 1333 rotates to the position of a lower support strip 1334, the shifting block 134 is lifted up, the separating disc 13 normally rotates to enable materials to enter the conveying belt I16 through the discharging hole 1331, the separating disc 13 continuously rotates, after teeth on the outer side of the blocking plate 1332 are meshed with gears arranged at the output end of the motor IV 135, the blocking plate 1332 can be quickly closed under the driving of the motor IV 135 because the rotating speed of the motor IV 135 is 3-5 times of that of the motor III 131, metal products can be attracted to the lower portion of the movable frame 137 by the strong magnet 1371 under the rotation of the separating disc 13, after the attraction lasts for a period of time, a worker opens the movable cover 141 to pull out the movable frame 137, the telescopic rod 136 can be extended in the pulling process, after the telescopic rod 136 reaches a specified length, the movable frame 137 can be continuously moved to pull the strong magnet 1371 away from the movable frame to reduce the attraction on the metal products, the metal products fall to a specified position, the crushed materials fall onto the conveying belt I16 under the matching of the separating disc 13 and the guide plate 142 to be conveyed, the materials enter the vibrating screen 18, the positions of the upper movable rod 185 and the lower movable rod 187 are adjusted by adjusting the electric telescopic rod I186 and the electric telescopic rod II 1873 and driving the movable connecting rod I1851 and the movable connecting rod II 1871, the sizes of screen holes are adjusted, various screening requirements are met, qualified materials fall below and flow out through the lower discharge port 1812, unqualified materials are blocked by the screen mesh and flow into the conveying belt II 19 through the upper discharge port 1813 to be crushed again; the dust-containing gas is collected by the dust collecting mechanism 15 and then enters the dust storage box 20, water is injected into the inner cylinder 205 through the air outlet pipe 207 in the dust storage box 20, the water surface is lower than the air inlet pipe 203 and is higher than the uppermost stirring blade 2042, the dust-containing gas enters the space between the inner cylinder 205 and the outer cylinder 208 through the connecting pipe II 201, then the dust is removed from the inner cylinder 205 through the air inlet pipe 203, the motor VI 204 drives the stirring frame I2041 and the stirring frame II 2043 to rotate, particles are prevented from being attached to the side wall, the stirring blade 2042 can stir under the action of water flow in the rotating process, bubbles are smashed, the purification of the dust-containing gas is accelerated, after one end time of treatment, the connecting pipe II 201 is closed through the electromagnetic valve 202, turbid water is discharged from the water outlet pipe 206, and clean water is added into the air outlet pipe 207 after emptying to continuously treat the dust-containing gas.

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

Claims

1. The utility model provides a municipal administration is with concrete solid waste recovery processing apparatus, includes frame, preceding mechanism, jaw breaker, separation disc, dust cover I, collection dirt mechanism, conveyer belt I, dust cover II, shale shaker, conveyer belt II, dust storage box, movable cover, deflector, its characterized in that frame one end top fixed mounting has preceding mechanism, and preceding mechanism one side is equipped with jaw breaker, and jaw breaker below is equipped with the separation disc, and separation disc top cover is equipped with dust cover I, and I one side of dust cover is equipped with movable cover, and one side is equipped with the deflector, and I top of dust cover is equipped with dust collection mechanism, and separation disc below is equipped with conveyer belt I, is equipped with dust cover II on the conveyer belt I, and I other end fixed mounting in the shale shaker top of conveyer belt, and shale shaker top fixed mounting has collection dirt mechanism, and shale shaker one side is equipped with conveyer belt II, and the opposite side is equipped with dust storage box.

2. The municipal concrete solid waste recycling device according to claim 1, wherein the separating disc comprises a motor III, a fixed plate, a movable disc, a blanking hole, a barrier plate, an upper supporting bar, a lower supporting bar, a shifting block, a spring, a connecting plate I and a motor IV, the fixed plate is fixedly arranged on the frame, the motor III is arranged below the fixed plate, the output end of the motor III penetrates through the central through hole of the fixed plate and is fixedly connected with the movable disc, three groups of blanking holes are arranged on the movable disc, three groups of barrier plates are arranged inside the movable disc, teeth are arranged on the outer sides of the barrier plates, the upper supporting bar and the lower supporting bar are arranged on the outer sides of the movable disc, the connecting plate I is fixedly arranged on the frame between the movable disc and the conveying belt I, the spring is arranged on the connecting plate I, the shifting block is fixedly connected with the other end of the spring, the shifting block is movably arranged on the frame, the motor IV is arranged on one side of the movable disc, and a gear arranged at the output end of the motor IV can be meshed with the teeth on the outer side of the barrier plate;

the separating disc is characterized in that a movable frame is arranged above the separating disc, the movable frame is movably mounted on the rack, a strong magnet is movably mounted on the movable frame, a telescopic rod is connected to one side of the strong magnet, and the other end of the telescopic rod is fixedly mounted on the rack.

3. The municipal concrete solid waste recycling device according to claim 1, wherein the forward-conveying mechanism comprises a motor I, a conveyor belt, a motor II, leveling rods and a fixing box, wherein a plurality of carrier rollers are arranged in the fixing box, the conveyor belt is laid on the carrier rollers, a belt pulley arranged on one side of each carrier roller far away from the jaw crusher is meshed with a belt pulley arranged at the output end of the motor I through a belt, the motor I is fixedly arranged on the rack, the motor II is fixedly arranged above the fixing box, and a plurality of leveling rods distributed in a staggered manner are arranged at the output end of the motor II.

4. The municipal concrete solid waste recycling device according to claim 1, wherein the dust collecting mechanism comprises a motor V, rotating blades, a gas passage, a connecting pipe I, a fixing frame, movable blades, a limiting plate, a connecting rod I and a limiting bolt, two sets of rotating blades are arranged inside the dust collecting mechanism, gears are arranged on one side of each rotating blade and are meshed with each other, one side of each set of rotating blades is fixedly connected with the output end of the motor V, the gas passage is arranged above each rotating blade, the connecting pipe I is fixedly communicated with the side wall of the gas passage and is connected with a dust storage box through a pipeline, the fixing frame is arranged below each rotating blade, a plurality of movable blades are movably mounted on the fixing frame, one ends of the movable blades are movably connected with the connecting rod I, the limiting bolt is arranged at one end of the connecting rod I, and the limiting bolt is movably mounted in the limiting plate and is locked and fixed through a nut.

5. The municipal concrete solid waste recycling device according to claim 1, wherein the vibrating screen comprises a screening box, a maintenance hole, a lower discharge hole, an upper discharge hole, a support spring, a vibrating motor, a support plate, an upper movable rod, a movable connecting rod I, a connecting rod II, an electric telescopic rod I, a connecting plate II, a guide rod, a lower movable rod, a movable connecting rod II, a connecting rod III, an electric telescopic rod II and a fixed rod, two fixed rods are arranged in the screening box, the lower movable rod is movably arranged on the fixed rod, the movable connecting rod II is movably arranged at two ends of the lower movable rod, the movable connecting rods II are connected end to end, one end of each movable connecting rod II is movably connected to the inner wall of the screening box, the connecting rod III is movably arranged at the other end, the connecting rod III is fixedly connected with one end of the electric telescopic rod II, II other end fixed mounting of electric telescopic handle are on the screening case, lower activity pole top movable mounting has the movable rod, go up movable rod both ends movable mounting has movable connecting rod I, I end to end of movable connecting rod, I one end swing joint of movable connecting rod is on the screening case, other end swing joint connecting rod II, connecting rod II passes through II fixed mounting of connecting plate in I one end of electric telescopic handle, II movable mounting of connecting plate are on the guide bar, guide bar fixed mounting is on the screening case, I other end fixed mounting of electric telescopic handle is on the screening case, it is equipped with the backup pad to go up the movable rod top, backup pad fixed mounting is on screening incasement wall, screening case one side is equipped with the top discharge mouth on the dead lever, screening case one side is equipped with the bottom discharge mouth below the dead lever, screening case one side is equipped with the maintenance hole.

6. The municipal concrete solid waste recycling device according to claim 1, characterized in that the dust storage tank comprises a connecting pipe II, a solenoid valve, an air inlet pipe, a motor VI, a stirring frame I, stirring blades, a stirring frame II, an inner cylinder, an outlet pipe and an outer cylinder, the connecting pipe II is fixedly communicated with the outer cylinder, the connecting pipe II is connected with a dust collecting mechanism through a pipeline, the solenoid valve is arranged on the connecting pipe II, the inner cylinder is arranged inside the outer cylinder, the air inlet pipe is arranged between the outer cylinder and the inner cylinder and communicated with the bottom of the inner cylinder, the motor VI is arranged above the inner cylinder, the stirring frame I and the stirring frame II are fixedly arranged at the output end of the motor VI, the two groups of stirring frames I are installed in a staggered mode, the stirring blades are movably arranged on the stirring frame I, the outlet pipe is fixedly communicated with the upper portion of the inner cylinder, and the outlet pipe is fixedly communicated with the bottom of the inner cylinder.

7. The municipal concrete solid waste recycling device according to claim 1, wherein the rotation speed of the motor IV is 3-5 times that of the motor III.