CN215429519U - Crushing device convenient to classify construction waste - Google Patents

Abstract

The utility model discloses a crushing device convenient for classifying construction wastes, wherein a feed inlet is formed in one side of a supporting barrel I, a hammering device is arranged on the upper part of the supporting barrel I, a fixed disk is arranged on the upper part of the supporting barrel I, a rotating shaft I is arranged on one side of the fixed disk, a plurality of limiting blocks are arranged on the upper part of the fixed disk, and a guide plate is connected to the fixed disk; the lower part of the limiting block is provided with a crushing column, and one side of the crushing column is provided with a spring I; the supporting plate is connected with the guide plate; a conical plate is arranged on one side of the rotating shaft I and connected to the rotating shaft I through a connecting rod; the lower part of the support barrel I is provided with a support ring, the lower part of the support ring is provided with a support barrel II, and the lower part of the support barrel II is provided with a plurality of stand columns; one side of the support ring is provided with a support shell, an arc plate is arranged in the support shell, and two ends of the arc plate are movably connected to the support shell through pin shafts. The utility model realizes the classification of different types of garbage in the construction garbage.

Description

Crushing device convenient to classify construction waste

Technical Field

The utility model belongs to the technical field of construction waste treatment equipment, and particularly relates to a crushing device convenient for classifying construction waste.

Background

Along with the gradual development of urban construction, more and more building wastes are generated by people, and the treatment of the building wastes becomes a problem which is urgently needed to be solved at present;

chinese patent No. CN201520907695.1 discloses a construction waste crusher, which comprises a casing, a feeding port is arranged at the top of the casing, and a discharging port is arranged at the bottom of the casing. The bottom of the feed inlet is detachably provided with a screen, a primary crushing mechanism and a secondary crushing mechanism are sequentially arranged in the shell from top to bottom, the primary crushing mechanism comprises a crushing roller and a crushing hammer, the center of the crushing roller is fixedly connected with a central shaft, the central shaft is connected with a shell bearing, and the crushing hammer is fixedly connected to the side wall of the crushing roller; the secondary crushing mechanism comprises a crushing disc, a driving shaft and a fine sieve disc, the crushing disc is fixedly installed at the upper end of the driving shaft and provided with sieve holes, a plurality of crushing knives are installed on the crushing disc, the fine sieve disc is located below the crushing disc and fixedly connected to the side wall of the machine shell, and the fine sieve disc is rotatably connected with the lower end of the driving shaft. Building rubbish passes through the breakage of secondary crushing mechanism after first crushing mechanism is broken, and finally discharge through the broken rubbish by the discharge gate.

The device only carries out broken handle to building rubbish, can't carry out classification to building rubbish, leads to the staff to carry out secondary classification again to building rubbish, increases staff's work load, reduces work efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides a crushing device convenient for classifying construction waste, so that different types of waste in the construction waste can be classified.

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

a crushing device convenient for classifying construction wastes comprises a supporting plate, a hammering device, a supporting barrel I and a supporting barrel II, wherein a feeding hole is formed in one side of the supporting barrel I, the hammering device is arranged on the upper portion of the supporting barrel I, the hammering device comprises a motor I, a rotating shaft I, a crushing column and a fixed disk, the fixed disk is arranged on the upper portion of the supporting barrel I, the rotating shaft I is arranged on one side of the fixed disk, the rotating shaft I is movably connected onto the fixed disk through a bearing, a plurality of limiting blocks are arranged on the upper portion of the fixed disk, guide plates are symmetrically arranged on two sides of each limiting block and connected onto the fixed disk, and the limiting blocks slide in the guide plates; the lower part of the limiting block is provided with a crushing column, one side of the crushing column is provided with a spring I, and the spring I pushes the crushing column to enable the limiting block to slide in the guide plate; a gear II is arranged on one side of the rotating shaft I, a gear I is arranged on one side of the gear II, the gear II is meshed with the gear I, a motor I is arranged on one side of the gear I, the motor I is connected to a supporting disk, and the supporting disk is connected to the guide plate; a conical plate is arranged on one side of the rotating shaft I and connected to the rotating shaft I through a connecting rod; the motor I rotates to drive the conical plate to rotate through the rotating shaft I, the conical plate pushes the limiting block to rise in the guide plate, and the spring I pushes the crushing column to move downwards after the conical plate is separated from the limiting block so as to realize hammering of construction waste, so that the concrete block is separated from the stone block, and the separation of the concrete and the stone block is realized;

a support ring is arranged at the lower part of the support barrel I, a support barrel II is arranged at the lower part of the support ring, a discharge port I is arranged at one side of the support barrel II, and a plurality of stand columns are arranged at the lower part of the support barrel II; a supporting shell is arranged on one side of the supporting ring, an arc-shaped plate is arranged in the supporting shell, and two ends of the arc-shaped plate are movably connected to the supporting shell through pin shafts; the crushed concrete enters the supporting shell, enters the supporting barrel II along the arc-shaped plate and is discharged through the discharge port II; when the concrete is broken, the concrete is continuously beaten to separate the stone blocks from the reinforcing steel bars, and the arc-shaped plate is rotated to discharge the reinforcing steel bars stone blocks entering the supporting shell from the other side.

Preferably, a separating device is arranged on one side of the supporting shell and comprises a fixing frame, a rotary drum, a rotary shaft III and electromagnetic rods, the fixing frame is arranged on one side of the supporting shell, the rotary drum is arranged on one side of the fixing frame and movably connected to the fixing frame through a rotary shaft IV, a gear ring II is arranged on one side of the rotary shaft IV, a rotary shaft II is arranged on one side of the gear ring II and meshed with the gear ring III, the rotary shaft II is eccentrically arranged in the rotary drum and movably connected to the fixing frame, a plurality of electromagnetic rods are arranged outside the rotary shaft II and movably connected to the fixing frame through pin shafts, and the fixing ring is connected to the rotary shaft II; make electromagnetic rod and building rubbish intensive mixing stirring through rotating pivot II, make metal contact and absorption in electromagnetic rod and the building rubbish, the electromagnetic rod contracts to the rotary drum in when pivot II continues to rotate the back, and metal and electromagnetic rod separation and drop realize the separation to metal in the building rubbish.

Preferably, a crushing device is arranged on one side of the separation device and comprises a rotating shaft III, a crushing box, crushing shafts and a motor II, the crushing box is arranged on one side of the fixing frame, a discharge port II is arranged on one side of the crushing box, the crushing shafts are symmetrically arranged in the crushing box and movably connected to the crushing box through the rotating shaft III, a gear III is arranged on one side of the rotating shaft III and mutually meshed with the gear III, the motor II is arranged on one side of the gear III and connected to the rotating shaft III through a coupling; the other side of the rotating shaft III is provided with a bevel gear II, one side of the bevel gear II is provided with a bevel gear I, the bevel gear I is connected with the bevel gear II, one side of the bevel gear I is provided with a chain wheel II, the chain wheel II and the bevel gear I are movably connected on the fixed frame through a pin shaft, one side of the chain wheel II is provided with a chain wheel I, the chain wheel I is connected with the chain wheel II through a chain, and the chain wheel I is connected on the rotating shaft II; the motor II rotates to drive the crushing shaft to rotate so as to realize further crushing of the stone, so that the crushing is more thorough; the rotating shaft III rotates to drive the chain wheel II to rotate through the bevel gear II and the bevel gear I, and the chain wheel II drives the chain wheel I to rotate through the chain to realize driving separation rotation.

Preferably, the support ring comprises an outer support ring, an inner support ring, a support rod I, a support rod II, a spring II and a balancing weight, the outer support ring is arranged at the lower part of the support barrel I, the inner support ring is arranged in the outer support ring, the support rod II is arranged at the lower part of the inner support ring, the support rod II is movably connected to the inner support ring through a pin shaft, the support rod I is arranged at one side of the support rod II, the support rod I is movably connected to the outer support ring through a pin shaft, the support rod I is movably connected with the support rod II through a pin shaft, the balancing weight is arranged at the lower part of the support rod I, the spring II is arranged at the upper part of the support rod I, and the spring II is connected to the support rod I and the support rod II; when the device of beating was beaten, through broken concrete piece drop in interior support circle, beat the in-process and drive the balancing weight vibrations, the balancing weight realizes with spring II cooperation that drive bracing piece I rocks with bracing piece II, makes interior support circle be reciprocating motion in outer support circle, realizes transporting the concrete piece to in supporting the shell.

Preferably, a baffle is arranged inside the supporting shell and movably connected to the supporting shell through a pin shaft, a fan-shaped tooth I is arranged on one side of the baffle, a fan-shaped tooth II is arranged on one side of the fan-shaped tooth I, the fan-shaped tooth I is meshed with the fan-shaped tooth II, and the fan-shaped tooth II is connected to the arc-shaped plate; when dropping to the support ring through the breakage to the concrete, the baffle avoids in the stone entering support shell of great volume, and fan-shaped tooth I drives fan-shaped tooth II and makes the baffle rotate when rotating the arc, makes the stone get into in the support shell.

Preferably, connecting rod one side is equipped with the polygon post, and the conical plate passes through the screw connection on the polygon post, realizes adjusting the angle between conical plate and the polygon post through rotating the screw, realizes the regulation to stopper rise, realizes beating the regulation of dynamics to building rubbish.

Preferably, the lower part of the conical plate is provided with a stirring rod which is connected to the rotating shaft I, and the stirring rod is used for stirring the construction waste in the supporting barrel I, so that the hammering device is more uniform and thorough in the crushing process of the construction waste.

Compared with the prior art, the utility model has the beneficial effects that:

1) the building garbage is beaten by the beating device to crush the concrete in the building garbage, and the concrete enters the supporting barrel II along the arc-shaped plate to separate the concrete;

2) the rotation of a rotating shaft II in the separation device drives the electromagnetic rod to adsorb the metal in the construction waste to realize the separation of the metal;

3) the stone is further crushed by the crushing device, so that the crushing is more thorough;

4) the adjustment of the beating force in the beating device is realized by adjusting the angle between the conical plate and the connecting rod.

Drawings

FIG. 1 is a schematic structural view of a crushing device for facilitating the classification of construction waste in accordance with the present invention;

FIG. 2 is a schematic structural view of a supporting barrel I in the crushing device for conveniently classifying construction wastes according to the present invention;

FIG. 3 is a schematic view of a support shell structure of a crushing apparatus for facilitating the classification of construction waste according to the present invention;

FIG. 4 is a schematic structural view of a hammering device in a crushing device for conveniently classifying construction wastes according to the present invention;

FIG. 5 is a schematic structural view of a rotating shaft I of the crushing device for conveniently classifying construction wastes;

FIG. 6 is a schematic view of a cone plate structure in a crushing device for facilitating the classification of construction waste according to the present invention;

FIG. 7 is a schematic view of a separating device of a crushing device for facilitating the classification of construction waste according to the present invention;

FIG. 8 is a schematic view of a drum structure of a crushing apparatus for facilitating the classification of construction waste in accordance with the present invention;

FIG. 9 is a schematic structural view of a rotating shaft IV of the crushing device for conveniently classifying construction wastes according to the present invention;

FIG. 10 is a schematic view of a supporting ring structure of a crushing device for classifying construction waste according to the present invention;

in the figure: 1-supporting plate, 2-beating device, 21-motor I, 22-gear I, 23-rotating shaft I, 24-gear II, 25-guide plate, 26-limiting block, 27-spring I, 28-crushing column, 29-fixing plate, 210-stirring rod, 211-conical plate, 212-connecting rod, 3-supporting barrel I, 31-feeding hole, 4-supporting shell, 41-sector tooth I, 42-baffle, 43-arc plate, 44-sector tooth II, 5-supporting ring, 51-outer supporting ring, 52-inner supporting ring, 53-supporting rod I, 54-supporting rod II, 55-spring II, 56-balancing weight, 6-supporting barrel II, 61-discharging hole I, 9-upright column.

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 10.

A crushing device convenient for classifying construction wastes comprises a supporting plate 1, a beating device 2, a supporting barrel I3 and a supporting barrel II 6, wherein a feeding hole 31 is formed in one side of the supporting barrel I3, the beating device 2 is arranged on the upper portion of the supporting barrel I3, the beating device 2 comprises a motor I21, a rotating shaft I23, a crushing column 28 and a fixed disk 29, the fixed disk 29 is arranged on the upper portion of the supporting barrel I3, the rotating shaft I23 is arranged on one side of the fixed disk 29, the rotating shaft I23 is movably connected onto the fixed disk 29 through a bearing, a plurality of limiting blocks 26 are arranged on the upper portion of the fixed disk 29, guide plates 25 are symmetrically arranged on two sides of each limiting block 26, the guide plates 25 are connected onto the fixed disk 29, and the limiting blocks 26 slide in the guide plates 25; a crushing column 28 is arranged at the lower part of the limiting block 26, a spring I27 is arranged at one side of the crushing column 28, and the spring I27 pushes the crushing column 28 to enable the limiting block 26 to slide in the guide plate 25; a gear II 24 is arranged on one side of the rotating shaft I23, a gear I22 is arranged on one side of the gear II 24, the gear II 24 is meshed with the gear I22, a motor I21 is arranged on one side of the gear I22, the motor I21 is connected to a supporting plate 1, and the supporting plate 1 is connected to a guide plate 25; one side of the rotating shaft I23 is provided with a conical plate 211, and the conical plate 211 is connected to the rotating shaft I23 through a connecting rod 212; the motor I21 rotates to drive the conical plate 211 to rotate through the rotating shaft I23, the conical plate 211 pushes the limiting block 26 to ascend in the guide plate 25, and after the conical plate 211 is separated from the limiting block 26, the spring I27 pushes the crushing column 28 to move downwards to beat the construction waste, so that the concrete blocks are separated from the stones, and the concrete and the stones are separated;

a support ring 5 is arranged at the lower part of the support barrel I3, a support barrel II 6 is arranged at the lower part of the support ring 5, a discharge port I61 is arranged at one side of the support barrel II 6, and a plurality of upright posts 9 are arranged at the lower part of the support barrel II 6; a supporting shell 4 is arranged on one side of the supporting ring 5, an arc-shaped plate 43 is arranged inside the supporting shell 4, and two ends of the arc-shaped plate 43 are movably connected to the supporting shell 4 through pin shafts; the crushed concrete enters the supporting shell 4, enters the supporting barrel II 6 along the arc-shaped plate 43 and is discharged through the discharge port II; when the concrete is crushed, the concrete is continuously beaten to separate the stone blocks from the reinforcing steel bars, and the arc-shaped plate 43 is rotated to discharge the reinforcing steel bars stone blocks entering the supporting shell 4 from the other side.

The separation device is arranged on one side of the supporting shell 4 and comprises a fixing frame, a rotary drum, a rotary shaft III and electromagnetic rods, the fixing frame is arranged on one side of the supporting shell 4, the rotary drum is arranged on one side of the fixing frame and is movably connected to the fixing frame through a rotary shaft IV, a gear ring II is arranged on one side of the rotary shaft IV, a rotary shaft II is arranged on one side of the gear ring II and is meshed with the gear ring III, the rotary shaft II is eccentrically arranged in the rotary drum and is movably connected to the fixing frame, a plurality of electromagnetic rods are arranged outside the rotary shaft II, the electromagnetic rods are movably connected to the fixing frame through pin shafts, and the fixing ring is connected to the rotary shaft II; make electromagnetic rod and building rubbish intensive mixing stirring through rotating pivot II, make metal contact and absorption in electromagnetic rod and the building rubbish, the electromagnetic rod contracts to the rotary drum in when pivot II continues to rotate the back, and metal and electromagnetic rod separation and drop realize the separation to metal in the building rubbish.

A crushing device is arranged on one side of the separation device and comprises a rotating shaft III, a crushing box, crushing shafts and a motor II, the crushing box is arranged on one side of a fixing frame, a discharge port II is arranged on one side of the crushing box, the crushing shafts are symmetrically arranged in the crushing box and movably connected to the crushing box through the rotating shaft III, a gear III is arranged on one side of the rotating shaft III and mutually meshed with the gear III, the motor II is arranged on one side of the gear III and connected to the rotating shaft III through a coupling; the other side of the rotating shaft III is provided with a bevel gear II, one side of the bevel gear II is provided with a bevel gear I, the bevel gear I is connected with the bevel gear II, one side of the bevel gear I is provided with a chain wheel II, the chain wheel II and the bevel gear I are movably connected on the fixed frame through a pin shaft, one side of the chain wheel II is provided with a chain wheel I, the chain wheel I is connected with the chain wheel II through a chain, and the chain wheel I is connected on the rotating shaft II; the motor II rotates to drive the crushing shaft to rotate so as to realize further crushing of the stone, so that the crushing is more thorough; the rotating shaft III rotates to drive the chain wheel II to rotate through the bevel gear II and the bevel gear I, and the chain wheel II drives the chain wheel I to rotate through the chain to realize driving separation rotation.

The support ring 5 comprises an outer support ring 51, an inner support ring 52, a support rod I53, a support rod II 54, a spring II 55 and a balancing weight 56, the outer support ring 51 is arranged at the lower part of the support barrel I3, the inner support ring 52 is arranged in the outer support ring 51, the support rod II 54 is arranged at the lower part of the inner support ring 52, the support rod II 54 is movably connected to the inner support ring 52 through a pin shaft, the support rod I53 is arranged at one side of the support rod II 54, the support rod I53 is movably connected to the outer support ring 51 through a pin shaft, the support rod I53 is movably connected with the support rod II 54 through a pin shaft, the balancing weight 56 is arranged at the lower part of the support rod I53, the spring II 55 is arranged at the upper part of the support rod I53, and the spring II 55 is connected to the support rod I53 and the support rod II 54; when the hammering device 2 hammers, broken concrete blocks fall on the inner support ring 52, the counterweight block 56 is driven to vibrate in the hammering process, the counterweight block 56 is matched with the spring II 55 to drive the support rod I53 and the support rod II 54 to shake, so that the inner support ring 52 reciprocates in the outer support ring 51, and the concrete blocks are conveyed into the support shell 4.

A baffle 42 is arranged in the supporting shell 4, the baffle 42 is movably connected to the supporting shell 4 through a pin shaft, a fan-shaped tooth I41 is arranged on one side of the baffle 42, a fan-shaped tooth II 44 is arranged on one side of the fan-shaped tooth I41, the fan-shaped tooth I41 is meshed with the fan-shaped tooth II 44, and the fan-shaped tooth II 44 is connected to an arc-shaped plate 43; when dropping concrete to the support ring 5 through the breakage on, baffle 42 avoids in the stone of great volume gets into support shell 4, and fan-shaped tooth I41 drives fan-shaped tooth II 44 and makes baffle 42 rotate when rotating arc 43, makes the stone get into support shell 4 in.

The connecting rod 212 is provided with a polygonal column on one side, the conical plate 211 is connected to the polygonal column through a screw, the angle between the conical plate 211 and the polygonal column is adjusted by rotating the screw, the ascending height of the limiting block 26 is adjusted, and the building waste hammering strength is adjusted.

The lower part of the conical plate 211 is provided with a stirring rod 210, the stirring rod 210 is connected to the rotating shaft I23, and the stirring rod 210 is used for stirring the construction waste in the supporting barrel I3, so that the hammering device 2 is used for more uniformly and thoroughly crushing the construction waste.

The utility model provides a breaker convenient to building rubbish is categorised, the working process as follows: building waste is placed into the supporting barrel I3 through the feeding hole 31, the hammering device 2 is started to realize hammering of the building waste, and when concrete is crushed, the concrete enters the supporting shell 4 and enters the supporting barrel II 6 along the arc-shaped plate 43 to realize separation of the concrete; after the concrete separation is finished, the arc-shaped plate 43 is rotated, the angle between the conical plate 211 and the connecting rod 212 is adjusted, the crushing degree of the construction waste is increased, and the crushed stone blocks and metal enter the supporting shell 4 and enter the separation device through the arc-shaped plate 43; the separation device rotates to enable the electromagnetic rod to be fully contacted with and adsorbed by metal, so that the metal is separated, and the residual stone enters the crushing device; the motor II drives the crushing device to rotate, so that the crushing shaft can further crush the stone, and the crushing is more thorough.

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 utility model as defined in the accompanying claims.

Claims (4)

1. The utility model provides a breaker convenient to building rubbish is categorised, includes the supporting disk, beats the device, supports bucket I, supports bucket II, its characterized in that: the device comprises a support barrel I, a beating device and a crushing device, wherein a feed inlet is formed in one side of the support barrel I, the beating device is arranged on the upper portion of the support barrel I and comprises a motor I, a rotating shaft I, a crushing column and a fixed disk, the fixed disk is arranged on the upper portion of the support barrel I, the rotating shaft I is arranged on one side of the fixed disk and movably connected onto the fixed disk through a bearing, a plurality of limiting blocks are arranged on the upper portion of the fixed disk, guide plates are symmetrically arranged on two sides of each limiting block and connected onto the fixed disk; the lower part of the limiting block is provided with a crushing column, and one side of the crushing column is provided with a spring I; a gear II is arranged on one side of the rotating shaft I, a gear I is arranged on one side of the gear II, the gear II is meshed with the gear I, a motor I is arranged on one side of the gear I, the motor I is connected to a supporting disk, and the supporting disk is connected to the guide plate; a conical plate is arranged on one side of the rotating shaft I and connected to the rotating shaft I through a connecting rod;

a support ring is arranged at the lower part of the support barrel I, a support barrel II is arranged at the lower part of the support ring, a discharge port I is arranged at one side of the support barrel II, and a plurality of stand columns are arranged at the lower part of the support barrel II; one side of the support ring is provided with a support shell, an arc plate is arranged in the support shell, and two ends of the arc plate are movably connected to the support shell through pin shafts.

2. A crushing device for facilitating the classification of construction waste according to claim 1, wherein: the support ring comprises an outer support ring, an inner support ring, a support rod I, a support rod II, a spring II and a balancing weight, the lower part of the support barrel I is provided with the outer support ring, the inner support ring is arranged inside the outer support ring, the lower part of the inner support ring is provided with the support rod II, the support rod II is movably connected to the inner support ring through a pin shaft, one side of the support rod II is provided with the support rod I, the support rod I is movably connected to the outer support ring through a pin shaft, the support rod I is movably connected to the support rod II through a pin shaft, the lower part of the support rod I is provided with the balancing weight, the upper part of the support rod I is provided with the spring II, and the spring II is connected to the support rod I and the support rod II.

3. A crushing device for facilitating the classification of construction waste according to claim 1, wherein: the utility model discloses a fan-shaped tooth, including support shell, baffle, fan-shaped tooth I, fan-shaped tooth II, fan-shaped tooth I and fan-shaped tooth II meshing, fan-shaped tooth II connects on the arc.

4. A crushing device for facilitating the classification of construction waste according to claim 1, wherein: the lower part of the conical plate is provided with a stirring rod, and the stirring rod is connected to the rotating shaft I.

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