CN219766349U - Full-automatic crushed aggregates charging all-in-one machine for concrete waste - Google Patents

Abstract

The utility model discloses a full-automatic crushed aggregates and charging all-in-one machine for concrete waste, which comprises a box body, wherein a mounting hole is formed in the bottom surface of the box body, a clamping ring mechanism which is convenient for bagging the waste, a clamping plate mechanism for discharging, a driving mechanism for driving the clamping plate mechanism and a crushing mechanism for crushing the concrete waste are arranged on the box body, the clamping plate mechanism comprises a supporting opening assembly for supporting a bag opening and a clamping plate arranged in the mounting hole, the supporting opening assembly comprises a connecting column arranged on the clamping plate and a supporting opening plate arranged on the connecting column, the clamping ring mechanism comprises a connecting rod arranged on the box body and a clamping ring I arranged on the connecting rod, the clamping ring I is positioned below the clamping plate, the supporting opening plate is positioned above the clamping ring I, a lug is arranged on the clamping ring I, a charging bag is arranged on the lug, and the charging bag is sleeved in the clamping ring I. The utility model has the effect of being convenient for bagging and recycling the waste.

Description

Full-automatic crushed aggregates charging all-in-one machine for concrete waste

Technical Field

The utility model relates to the technical field of concrete crushing, in particular to a full-automatic crushed aggregates and charging integrated machine for concrete waste.

Background

Concrete, abbreviated as concrete, refers to a general term of engineering composite materials in which aggregate is cemented into a whole by a cementing material, also called ordinary concrete, is widely used in civil engineering, and in daily life, concrete waste is generally crushed and then reused.

The utility model discloses a recycled concrete waste recycling device, which is disclosed in China patent with publication number of CN208894347U, and structurally comprises a carrier plate, a fixed block, an engine, a machine body, a feeding box, a fixed screw, side blocks, supporting feet, a discharging hopper and a collecting box, wherein the side blocks are arranged on the machine body, the supporting feet are welded with the lower end face of the machine body, the discharging hopper is embedded and arranged on the machine body, the feeding box comprises an inlet, a shell, a fixed shaft, a rotating wheel, a four-shaft rotating block, a rotating shaft, an axle center, a toothed belt, a crushing rod, balls, a sliding block, a buffer spring and a screen, the inlet and the shell are of an integrated structure, the fixed shaft is arranged in the shell, the four-shaft rotating block and the axle center are of an integrated structure, the rotating wheel is arranged in the shell, the toothed belt is attached to the inner ring and the outer ring of the crushing rod, the crushing rod is embedded and arranged in the shell in a clearance fit manner, the balls are arranged on the crushing rod in a surrounding way and are connected with points, the sliding block is embedded and arranged on the shell, the buffer spring is welded with the upper end face of the screen, and the lower end face of the shell is welded with the upper end face of the machine body.

To above-mentioned correlation technique, the side piece is located on the organism, and the supporting legs welds with the lower terminal surface of organism mutually, and the embedding of ejection of compact fill is installed on the organism, and at the in-process that concrete waste smashed and retrieve, the waste material after smashing is discharged by ejection of compact fill, and the waste material after smashing is piled up in ejection of compact fill department, generally needs the manual work to carry out bagging-off processing with the waste material, and bagging-off inefficiency is inconvenient for carrying out bagging-off to the waste material and retrieve.

Disclosure of Invention

In order to facilitate bagging and recycling of waste materials, the utility model provides a full-automatic crushed aggregates and charging integrated machine for concrete waste materials.

The utility model provides a full-automatic crushed aggregates charging all-in-one machine for concrete waste, which adopts the following technical scheme:

a full-automatic crushed aggregates all-in-one that charges for concrete waste, comprises a box body, the mounting hole has been seted up on the bottom surface of box, install on the box be convenient for with waste bagging-off snap ring mechanism, be used for unloading the cardboard mechanism, be used for the drive the actuating mechanism of cardboard mechanism and be used for stirring the crushing mechanism of crushing concrete waste, cardboard mechanism including be used for prop open the pocket prop the mouth subassembly with set up in the joint plate in the mounting hole, prop a mouthful subassembly including set up in spliced pole on the joint plate with set up in prop a mouthful board on the spliced pole, snap ring mechanism including set up in connecting rod on the box with set up in snap ring one on the connecting rod, snap ring one is located the below of joint plate, prop a mouthful board and be located the top of snap ring one, be provided with the lug on the snap ring one.

Through adopting above-mentioned technical scheme, the joint board sets up in the mounting hole, snap ring one is located the below of joint board, the spliced pole sets up on the joint board, prop the mouth board and set up on the spliced pole, prop the mouth board and be located the top of snap ring one, be provided with the lug on the snap ring one, when needs carry out the bagging-off with the waste material, place the bagging-off in snap ring one, will fill the top joint of bagging-off bag on two lugs for two prop the mouth board and be in the bagging-off in, actuating mechanism drive joint board rotates, the joint board drives and props the mouth board and rotate, prop the mouth board and prop the bagging-off the bag mouth of filling, be convenient for carry out the bagging-off to the waste material and retrieve.

Preferably, the mounting hole is provided with a groove on the inner side wall, the mounting hole is far away from the inner side wall of the groove and is provided with a perforation, the driving mechanism comprises a first motor and a rotating rod, the first motor and one end of the rotating rod are arranged on the box body in a sliding mode, the rotating rod is fixed with an output shaft of the first motor, the rotating rod is arranged in the perforation in a sliding mode, and the rotating rod is fixed with the clamping plate.

Through adopting above-mentioned technical scheme, the dwang slides and sets up in the recess, and the dwang slides and sets up in the perforation, and the dwang is fixed mutually with the joint board, and the dwang is fixed mutually with the output shaft of motor one, when needs with waste material bagging-off, and motor one drive dwang rotates, and the dwang drives the joint board and rotates, is convenient for rotate the joint board to be convenient for retrieve the waste material.

Preferably, the stirring mechanism comprises a second motor arranged on the box body, a rotating shaft fixed on an output shaft of the second motor and stirring blades arranged on the rotating shaft, a fixing seat is arranged in the box body, a containing groove is formed in the side face of the fixing seat, and one end, far away from the second motor, of the rotating shaft is slidably arranged in the containing groove.

Through adopting above-mentioned technical scheme, be provided with the fixing base in the box, seted up the holding tank on the side of fixing base, stir garrulous blade and set up in the axis of rotation, the axis of rotation slides and sets up in the holding tank, has strengthened the stability of axis of rotation in-process.

Preferably, the holding groove has been seted up on the side of axis of rotation, set up on the inside wall of holding groove and keep off the groove, the holding groove is kept away from set up on the inside wall of keeping off the groove and slide the groove, stir to be fixed with the fixture block on the garrulous blade, the fixture block is kept away from set up the draw-in groove on the side of keeping off the groove, the fixture block be close to keep off the one end slip in of groove set up in keep off in the groove, the mechanism of stirring still including set up in the joint subassembly in the holding groove, the joint subassembly include one end can insert locate the draw-in lever in the draw-in groove, the draw-in lever slip set up in slide in the groove.

Through adopting above-mentioned technical scheme, the fixture block is close to the one end slip that keeps off the groove and sets up in keeping off the inslot, and the kelly slides and set up in the inslot that slides, when needs will stir garrulous blade and install in the axis of rotation, slides the kelly to the direction that is close to the draw-in groove, when the kelly slides into the draw-in groove, realizes with kelly and stir garrulous blade looks joint to realize will stir garrulous blade and axis of rotation looks joint.

Preferably, the clamping assembly further comprises a first spring, the first spring is arranged in the sliding groove, one end of the first spring is abutted against the side wall of the sliding groove away from the clamping groove, and the other end of the first spring is abutted against the side surface of the clamping rod away from the clamping groove.

Through adopting above-mentioned technical scheme, the one end of spring one is inconsistent with the lateral wall that the draw-in groove was kept away from to the draw-in groove that slides, and the other end of spring one is inconsistent with the side that the draw-in groove was kept away from to the draw-in groove, and spring one gives the thrust that the draw-in groove was close to all the time to the draw-in groove to reinforcing draw-in bar and stirring garrulous blade joint's stability, and then further reinforcing stirs garrulous blade and pivot joint's stability.

Preferably, the side of connecting rod has seted up the sliding tray, the sliding hole has been seted up on the lateral wall of sliding tray, be provided with the sliding block on the snap ring one, the sliding block slide set up in the sliding hole, a plurality of joint grooves have been seted up on the side of sliding block, be provided with one end in the sliding hole and insert and locate the bayonet lock in the joint groove.

Through adopting above-mentioned technical scheme, offered the hole that slides on the lateral wall of sliding tray, offered a plurality of joint grooves on the side of sliding block, a slip sets up in the sliding tray, and the bayonet lock sets up in the downthehole that slides, when needs with sliding block and connecting rod looks joint, slides the bayonet lock to the direction that is close to the joint groove, when the bayonet lock slides into the joint groove, realizes with sliding block and connecting rod looks joint to realize with snap ring one with the connecting rod looks joint.

Preferably, a limit groove is formed in the side wall of the sliding hole, a limit block is fixed on the clamping pin, and the limit block is slidably arranged in the limit groove.

Through adopting above-mentioned technical scheme, the stopper slides and sets up in the spacing inslot, and the stopper obstructs the bayonet lock and breaks away from the hole of sliding, reinforcing bayonet lock and connecting rod joint's stability.

Preferably, a second spring is arranged in the limiting groove, one end of the second spring is abutted against the side wall of the limiting groove away from the clamping groove, and the other end of the second spring is abutted against the side surface of the limiting block away from the clamping groove.

Through adopting above-mentioned technical scheme, the lateral wall that the joint groove was kept away from with the spacing groove to the one end of spring two is inconsistent, and the other end of spring two is inconsistent with the side that the joint groove was kept away from with the stopper, and the spring two gives the thrust that the stopper was close to the joint groove all the time to reinforcing bayonet lock and slider joint's stability, and then the stability of reinforcing slider and connecting rod joint.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the clamping plate is arranged in the mounting hole, the clamping ring I is arranged below the clamping plate, the connecting column is arranged on the clamping plate, the opening supporting plate is arranged on the connecting column, the opening supporting plate is arranged above the clamping ring I, the clamping ring I is provided with a convex block, a charging bag is placed on the convex block, the charging bag is sleeved in the clamping ring I, when waste is required to be packaged, the driving mechanism drives the clamping plate to rotate, the clamping plate drives the opening supporting plate to rotate, and the opening supporting plate supports the opening of the charging bag, so that the waste is conveniently packaged and recovered;

2. the rotating rod is arranged in the groove in a sliding manner, the rotating rod is arranged in the through hole in a sliding manner, the rotating rod is fixed with the clamping plate, the rotating rod is fixed with the output shaft of the motor I, when waste materials need to be bagged, the motor I drives the rotating rod to rotate, the clamping plate is driven to rotate by the rotating rod, and the clamping plate is convenient to rotate, so that the waste materials are convenient to recycle;

3. the fixture block slides and sets up in keeping off the inslot, and the kelly slides and sets up in the inslot that slides, when needs will stir garrulous blade and install in the axis of rotation, slides the kelly to the direction that is close to the draw-in groove, when the kelly slides into the draw-in groove, realizes with the kelly with stir garrulous blade looks joint to realize will stir garrulous blade and axis of rotation looks joint.

Drawings

Fig. 1 is a schematic overall structure of a full-automatic crushed aggregates charging integrated machine according to an embodiment of the utility model.

Fig. 2 is a cross-sectional view of a tank and a shredding mechanism in an embodiment of the utility model.

Fig. 3 is a partial enlarged view at a in fig. 2.

Fig. 4 is a cross-sectional view of a case in an embodiment of the present utility model.

FIG. 5 is a schematic view of a mechanism for retaining ring in accordance with an embodiment of the present utility model.

Fig. 6 is a schematic structural view of a connecting rod according to an embodiment of the present utility model.

Reference numerals illustrate:

1. a case; 11. a top cover; 111. a feed hole; 12. a feed hopper; 13. a connection part; 131. connecting long plates; 132. connecting short plates; 14. a stirring tank; 141. a connection hole; 142. a mounting hole; 1421. a groove; 1422. perforating; 143. a shaft hole; 144. a fixing seat; 1441. a receiving groove; 15. a support column; 151. a pulley; 2. a clasp mechanism; 21. a connecting rod; 211. a sliding groove; 2111. a slip hole; 2112. a limit groove; 2113. a second spring; 212. a bayonet lock; 2121. a handle; 2122. a limiting block; 22. a clamping ring I; 221. a fixed rod; 222. a sliding block; 2221. a clamping groove; 223. a bump; 23. a second clamping ring; 231. a connecting strip; 3. a clamping plate mechanism; 31. a port bracing assembly; 311. a connecting column; 312. a mouth supporting plate; 32. a clamping plate; 4. a driving mechanism; 41. a first motor; 42. a rotating lever; 5. a mincing mechanism; 51. a second motor; 52. a rotating shaft; 521. a receiving groove; 5211. a blocking groove; 5212. a slip groove; 53. crushing the leaves; 531. a clamping block; 5311. a clamping groove; 54. a clamping assembly; 541. a clamping rod; 542. a first spring; 543. and (5) a shifting block.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-6.

The embodiment of the utility model discloses a full-automatic crushed aggregates charging integrated machine for concrete waste, which is shown by referring to fig. 1 and 2, and comprises a box body 1, a clamp ring mechanism 2, a clamp plate mechanism 3, a driving mechanism 4 and a stirring mechanism 5, wherein the box body 1 comprises a top cover 11, a feed hopper 12, a connecting part 13, a stirring box 14 and a supporting column 15, the stirring box 14 is cylindrical, and the axial lead of the stirring box 14 is flush with the ground.

Referring to fig. 1 and 2, the stirring tank 14 is provided with a connecting hole 141, the connecting hole 141 is located at the topmost end of the stirring tank 14, the connecting hole 141 is rectangular, the length direction of the connecting hole 141 is identical to the length direction of the stirring tank 14, the connecting portion 13 comprises two connecting long plates 131 and two connecting short plates 132, the two connecting long plates 131 and the two connecting short plates 132 are respectively welded and fixed on the inner side walls of the connecting hole 141 in two length directions, and the two connecting short plates 132 are respectively welded and fixed on the inner side walls of the connecting hole 141 in two width directions.

Referring to fig. 1 and 2, the two connection long plates 131 have the same length as the connection hole 141, the two connection short plates 132 have the same length as the connection hole 141, the top surface of the connection long plate 131 is flush with the top surface of the connection short plate 132, and the bottom surface of the connection long plate 131 is flush with the bottom surface of the connection short plate 132.

Referring to fig. 1 and 2, the top cover 11 is fixed on the top surfaces of the connection long plate 131 and the connection short plate 132 by bolts, the top cover 11 is horizontally arranged on the top surfaces of the connection long plate 131 and the connection short plate 132, the top surface of the top cover 11 is provided with a feeding hole 111, the bottom surface of the feeding hopper 12 is welded and fixed on the top surface of the top cover 11, and the feeding inlet of the feeding hopper 12 is communicated with the feeding hole 111.

Referring to fig. 1 and 2, the stirring tank 14 is provided with a mounting hole 142, the mounting hole 142 is located at the bottommost end of the stirring tank 14, four support columns 15 are welded and fixed on the outer side surface of the stirring tank 14, the four support columns 15 are respectively close to four corners of the mounting hole 142, the four support columns 15 are perpendicular to the stirring tank 14, the length direction of the four support columns 15 is perpendicular to the length direction of the stirring tank 14, and pulleys 151 are arranged on the bottom surfaces of the four support columns 15.

Referring to fig. 1 and 2, the shredder mechanism 5 includes a second motor 51, a rotation shaft 52, shredding blades 53 and a clamping assembly 54, the second motor 51 is fixed on the side surface of the stirring tank 14, a shaft hole 143 is formed on the side surface of the stirring tank 14, the rotation shaft 52 is horizontally slidably disposed in the shaft hole 143, the rotation shaft 52 is rotatably disposed in the shaft hole 143, the rotation shaft 52 is welded and fixed on an output shaft of the second motor 51, and the rotation shaft 52 is horizontally disposed in the stirring tank 14.

Referring to fig. 1 and 2, a fixing seat 144 is welded and fixed on an inner side wall of the stirring tank 14 far away from the second motor 51, a containing groove 1441 is formed in a side surface of the fixing seat 144 near the second motor 51, a rotating shaft 52 is horizontally inserted into the containing groove 1441, and the rotating shaft 52 is rotatably inserted into the containing groove 1441.

Referring to fig. 2 and 3, a plurality of accommodating grooves 521 are formed on a side surface of the rotating shaft 52, the plurality of accommodating grooves 521 are equidistantly distributed on the rotating shaft, a blocking groove 5211 is formed on an inner side wall of the accommodating groove 521, a sliding groove 5212 is formed on an inner side wall of the accommodating groove 521 far away from the blocking groove 5211, a plurality of stirring blades 53 are arranged, clamping blocks 531 are fixedly welded on bottom surfaces of the plurality of stirring blades 53, one ends of the clamping blocks 531 close to the blocking groove 5211 are slidably arranged in the blocking groove 5211, one ends of the clamping blocks 531 close to the blocking groove 5211 are horizontally arranged in the blocking groove 5211, and clamping grooves 5311 are formed on side surfaces of the clamping blocks 531 far away from the blocking groove 5211.

Referring to fig. 2 and 3, the clamping assembly 54 has a plurality of groups, the plurality of groups of clamping assemblies 54 are respectively disposed in the plurality of accommodating grooves 521, the clamping assembly 54 includes a clamping rod 541, a first spring 542 and a shifting block 543, the clamping rod 541 is slidably disposed in the sliding groove 5212, the clamping rod 541 is horizontally disposed in the sliding groove 5212, the clamping rod 541 is slidably disposed in the accommodating groove 521, and the clamping rod 541 is horizontally disposed in the accommodating groove 521.

Referring to fig. 2 and 3, the shifting block 543 is welded and fixed on the top surface of the clamping rod 541, the length direction of the shifting block 543 is perpendicular to the length direction of the clamping rod 541, the shifting block 543 is slidably disposed in the accommodating groove 521, the first spring 542 is disposed in the sliding groove 5212, one end of the first spring 542 abuts against a side wall of the sliding groove 5212 away from the clamping groove 5311, and the other end of the first spring 542 abuts against a side surface of the clamping rod 541 away from the clamping groove 5311.

Referring to fig. 2 and 3, when the shredding blade 53 is required to be mounted on the rotating shaft 52, the pulling block 543 is slid in a direction approaching the clamping groove 5311, the pulling block 543 drives the clamping rod 541 to slide in a direction approaching the clamping groove 5311, and when the clamping rod 541 slides into the clamping groove 5311, the clamping rod 541 and the shredding blade 53 are clamped, so that the shredding blade 53 and the rotating shaft 52 are clamped.

Referring to fig. 2 and 3, when the shredding blade 53 needs to be replaced, the pulling block 543 is slid in a direction away from the clamping groove 5311, the pulling block 543 drives the clamping rod 541 to slide in a direction away from the clamping groove 5311, when the clamping rod 541 is separated from the clamping groove 5311, the clamping block 531 is slid in a direction away from the blocking groove 5211, and when the clamping block 531 is separated from the blocking groove 5211, the shredding blade 53 is separated from the stirring shaft, so that the shredding blade 53 is convenient to replace.

Referring to fig. 2 and 4, grooves 1421 are formed in the inner side wall of the mounting hole 142, two grooves 1421 are symmetrical about the center line of the mounting hole 142 in the length direction, two through holes 1422 are formed in the inner side wall of the mounting hole 142 away from the groove 1421, two through holes 1422 are symmetrical about the center line of the mounting hole 142 in the length direction, and the through holes 1422 are symmetrical about the center line of the groove 1421 in the width direction of the mounting hole 142.

Referring to fig. 1 and 2, the card board mechanism 3 includes a supporting opening assembly 31 and two card boards 32, two card boards 32 are horizontally arranged in the mounting hole 142, cambered surfaces are respectively arranged on end surfaces of the two card boards 32, which are close to each other, and the two card boards 32 are symmetrical with respect to a central line of the length direction of the mounting hole 142.

Referring to fig. 1 and 2, two sets of opening supporting assemblies 31 are provided, the two sets of opening supporting assemblies 31 are respectively arranged on the two clamping plates 32, the opening supporting assemblies 31 comprise connecting columns 311 and opening supporting plates 312, the connecting columns 311 are welded and fixed on the bottom surfaces of the clamping plates 32, the length direction of the connecting columns 311 is perpendicular to the length direction of the clamping plates 32, the opening supporting plates 312 are welded and fixed on the bottom surfaces of the connecting columns 311, the length direction of the opening supporting plates 312 is perpendicular to the length direction of the connecting columns 311, and the length direction of the opening supporting plates 312 is perpendicular to the length direction of the clamping plates 32.

Referring to fig. 1 and 4, the driving mechanism 4 includes two motors 41 and two rotating rods 42, the motors 41 are fixed on the outer side surface of the stirring tank 14, the motors 41 are respectively close to the two through holes 1422, the rotating rods 42 are respectively rotatably arranged in the two through holes 1422, the axial lead of the rotating rods 42 coincides with the axial lead of the through holes 1422, and the rotating rods 42 are respectively fixed on the output shafts of the two motors.

Referring to fig. 4, two rotating rods 42 are slidably disposed in two grooves 1421, two rotating rods 42 are horizontally disposed in two grooves 1421, and a side surface of the clamping plate 32, which is close to the rotating rods 42, is welded to the rotating rods 42.

Referring to fig. 5 and 6, the clip mechanism 2 includes a connecting rod 21, a first clip 22 and a second clip 23, the connecting rod 21 is welded and fixed on the outer side surface of the stirring tank 14, the connecting rod 21 is located on the symmetry line of the two grooves 1421, the length direction of the connecting rod 21 is the same as the length direction of the support column 15, the side surface of the connecting rod 21, which is close to the opening supporting plate 312, is provided with sliding grooves 211, two opposite side walls of the sliding grooves 211 are provided with sliding holes 2111, the sliding holes 2111 are two, and the two sliding holes 2111 are symmetrical with respect to the center line of the sliding grooves 211 in the length direction.

Referring to fig. 1 and 5, the first snap ring 22 is located below the opening supporting plate 312, the axial lead of the first snap ring 22 coincides with the axial lead of the feeding hole 111, a fixing rod 221 is welded and fixed on the side surface of the first snap ring 22, which is close to the connecting rod 21, the length direction of the fixing rod 221 is perpendicular to the length direction of the connecting rod 21, a sliding block 222 is welded and fixed on the side surface of the fixing rod 221, which is close to the connecting rod 21, and the length direction of the sliding block 222 is flush with the axial lead direction of the first snap ring 22.

Referring to fig. 6, the sliding block 222 is slidably disposed in the sliding groove 211, the length direction of the sliding block 222 is the same as the length direction of the connecting rod 21, a plurality of clamping grooves 2221 are formed on two sides of the sliding block 222, which are close to the sliding hole 2111, the plurality of clamping grooves 2221 are equidistantly distributed on two sides of the sliding block 222, and the plurality of clamping grooves 2221 on two sides of the sliding block 222 are symmetrical with respect to a central line in the length direction of the sliding block 222.

Referring to fig. 6, a latch 212 is disposed in the sliding hole 2111, a handle 2121 is welded and fixed to a side surface of the latch 212 away from the clamping groove 2221, the latch 212 is horizontally disposed in the sliding hole 2111, the latch 212 is slidably disposed in the sliding hole 2111, when the sliding block 222 needs to be fixed to the connecting rod 21, the latch 212 is slid in a direction approaching the clamping groove 2221, and when the latch 212 is inserted into the clamping groove 2221, the sliding block 222 and the connecting rod 21 can be clamped, thereby clamping the first snap ring 22 and the connecting rod 21.

Referring to fig. 6, a limiting groove 2112 is formed in the top wall of the sliding hole 2111, a limiting block 2122 is welded and fixed on the bayonet 212, the limiting block 2122 is slidably arranged in the limiting groove 2112, a second spring 2113 is arranged in the limiting groove 2112, one end of the second spring 2113 is abutted against the side wall, away from the clamping groove 2221, of the limiting groove 2112, and the other end of the second spring 2113 is abutted against the side surface, away from the clamping groove 2221, of the limiting block 2122.

Referring to fig. 5, a second snap ring 23 is located below the first snap ring 22, a connecting bar 231 is welded and fixed on a side surface of the second snap ring 23, which is close to the connecting rod 21, the length direction of the connecting bar 231 is the same as the length direction of the fixing rod 221, the connecting bar 231 is welded and fixed on a side surface of the connecting rod 21, which is close to the opening supporting plate 312, the connecting bar 231 and the fixing rod 221 are located on the same side surface of the connecting rod 21, the top surface of the connecting bar 231 is flush with the bottom wall of the sliding groove 211, and the axial lead of the second snap ring 23 coincides with the axial lead of the first snap ring 22.

Referring to fig. 1, 2 and 5, the first snap ring 22 is located below the opening supporting plate 312, two protruding blocks 223 are welded and fixed on the first snap ring 22, the two protruding blocks 223 are symmetrical with respect to the central line of the length direction of the stirring tank 14, when waste materials are required to be bagged, the charging bag is placed in the first snap ring 22 and the second snap ring 23, the top ends of the charging bag are clamped on the two protruding blocks 223, the two opening supporting plates 312 are located in the charging bag, when the first motor 41 drives the rotating rod 42 to rotate, the rotating rod 42 drives the opening supporting plates 312 to rotate in the directions away from each other, and accordingly the charging bag opening is opened, and waste materials are conveniently bagged.

The embodiment of the utility model relates to a full-automatic crushed aggregates charging integrated machine for concrete waste, which is implemented by the following principle:

when waste materials are required to be bagged, the charging bag is placed in the first clamping ring 22 and the second clamping ring 23, the top ends of the charging bags are clamped on the two convex blocks 223, the two opening supporting plates 312 are positioned in the charging bag, when the first motor 41 drives the rotating rod 42 to rotate, the rotating rod 42 drives the opening supporting plates 312 to rotate in the directions away from each other, and accordingly the opening of the charging bag is opened, and waste materials are conveniently bagged.

When the shredding blade 53 needs to be mounted on the rotating shaft 52, the shifting block 543 is slid in a direction approaching the clamping groove 5311, the shifting block 543 drives the clamping rod 541 to slide in a direction approaching the clamping groove 5311, and when the clamping rod 541 slides into the clamping groove 5311, the clamping rod 541 is clamped with the shredding blade 53, so that the shredding blade 53 is clamped with the rotating shaft 52.

When the shredding blade 53 needs to be replaced, the poking block 543 slides in a direction away from the clamping groove 5311, the poking block 543 drives the clamping rod 541 to slide in a direction away from the clamping groove 5311, when the clamping rod 541 is separated from the clamping groove 5311, the clamping block 531 slides in a direction away from the blocking groove 5211, and when the clamping block 531 is separated from the blocking groove 5211, the shredding blade 53 is separated from the stirring shaft, so that the shredding blade 53 is convenient to replace.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. A full-automatic crushed aggregates all-in-one that charges for concrete waste material, includes box (1), its characterized in that: the utility model provides a mounting hole (142) has been seted up on the bottom surface of box (1), install on box (1) be convenient for with waste bagging-off snap ring mechanism (2), be used for discharging snap plate mechanism (3), be used for the drive mechanism (4) of snap plate mechanism (3) and be used for stirring the mechanism (5) of stirring of concrete waste, snap plate mechanism (3) including be used for propping open pocket opening prop up mouthful subassembly (31) and set up in joint plate (32) in mounting hole (142), prop mouthful subassembly (31) including set up in spliced pole (311) on joint plate (32) with set up in prop mouthful board (312) on spliced pole (311), snap ring mechanism (2) including set up in connecting rod (21) on box (1) with set up in one (22) on connecting rod (21), snap ring one (22) are located prop mouthful board (312) be located one top of snap ring (22) have bump (223).

2. A full-automatic scrap loading machine for concrete waste as in claim 1, wherein: the novel anti-theft box is characterized in that a groove (1421) is formed in the inner side wall of the mounting hole (142), the mounting hole (142) is far away from the inner side wall of the groove (1421), a through hole (1422) is formed in the inner side wall of the groove (1421), the driving mechanism (4) comprises a first motor (41) arranged on the box body (1) and a rotating rod (42) with one end arranged in the groove (1421) in a sliding mode, the rotating rod (42) is fixed with an output shaft of the first motor (41), the rotating rod (42) is arranged in the through hole (1422) in a sliding mode, and the rotating rod (42) is fixed with the clamping plate (32).

3. A full-automatic scrap loading machine for concrete waste as in claim 1, wherein: the stirring mechanism (5) comprises a motor II (51) arranged on the box body (1), a rotating shaft (52) fixed on an output shaft of the motor II (51) and stirring blades (53) arranged on the rotating shaft (52), a fixing seat (144) is arranged in the box body (1), a containing groove (1441) is formed in the side face of the fixing seat (144), and one end, far away from the motor II (51), of the rotating shaft (52) is slidably arranged in the containing groove (1441).

4. A full-automatic scrap loading machine for concrete waste as in claim 3, wherein: the utility model discloses a stirring mechanism, including rotary shaft (52) and clamping rod (541) including clamping groove (5212), including rotary shaft (52) and clamping rod (541), holding groove (521) has been seted up on the side of axis of rotation (52), holding groove (521) has been seted up on the side of holding groove (521), holding groove (521) has been seted up on the inside wall of keeping away from holding groove (521), holding groove (521) has been kept away from on the inside wall of keeping away from groove (5211) has been seted up clamping groove (5311), clamping groove (531) are close to one end sliding arrangement of keeping away from groove (5211) in keeping away from groove (5211), stirring mechanism (5) still including set up in joint subassembly (54) in holding groove (521), joint subassembly (54) including one end can be inserted and locate clamping rod (541) in clamping groove (5311), clamping rod (541) sliding arrangement in sliding groove (5212).

5. A full-automatic scrap loading machine for concrete waste as in claim 4, wherein: the clamping assembly (54) further comprises a first spring (542), the first spring (542) is arranged in the sliding groove (5212), one end of the first spring (542) is abutted against the side wall of the sliding groove (5212) away from the clamping groove (5311), and the other end of the first spring (542) is abutted against the side surface of the clamping rod (541) away from the clamping groove (5311).

6. A full-automatic scrap loading machine for concrete waste as in claim 1, wherein: the connecting rod is characterized in that a sliding groove (211) is formed in the side face of the connecting rod (21), a sliding hole (2111) is formed in the side wall of the sliding groove (211), a sliding block (222) is arranged on the first clamping ring (22), the sliding block (222) is arranged in the sliding hole (2111) in a sliding mode, a plurality of clamping grooves (2221) are formed in the side face of the sliding block (222), and a clamping pin (212) with one end capable of being inserted into the clamping groove (2221) is arranged in the sliding hole (2111).

7. A full-automatic scrap loading machine for concrete waste as in claim 6, wherein: a limiting groove (2112) is formed in the side wall of the sliding hole (2111), a limiting block (2122) is fixed on the clamping pin (212), and the limiting block (2122) is slidably arranged in the limiting groove (2112).

8. A full-automatic scrap loading machine for concrete waste as in claim 7, wherein: be provided with spring two (2113) in spacing groove (2112), the one end of spring two (2113) with spacing groove (2112) is kept away from the lateral wall of joint groove (2221) is inconsistent, the other end of spring two (2113) with stopper (2122) is kept away from the side of joint groove (2221) is inconsistent.