CN114888052A - Environment-friendly civil construction engineering construction waste material treatment facility - Google Patents

Abstract

The invention is suitable for the relevant technical field of buildings, and provides environment-friendly civil and architectural engineering construction waste treatment equipment, which comprises an installation frame, a crushing box body, a crushing assembly and a crushing motor; the device also comprises a reciprocating extrusion assembly for extruding the waste material; and the reciprocating grinding and collecting assembly is used for grinding and collecting the crushed waste. Thereby realize carrying out extrusion processing through a power supply control in the waste disposal shredding process, grinding, elastic shredding and dynamic crushing collection are in order to avoid the waste material to concentrate accumulational problem, resources are saved consumes and the simplification circuit is laid when effectively improving crushing effect, the shredding process of having solved current waste material is in the process, only carry out single shredding through the crushing unit of static setting, still need extra power device to carry out the garbage collection after smashing in addition, then there is the not good problem that consumes the resource simultaneously of shredding function single shredding effect.

Description

Environment-friendly civil construction engineering construction waste material treatment facility

Technical Field

The invention belongs to the technical field of building correlation, and particularly relates to environment-friendly civil and architectural engineering construction waste treatment equipment.

Background

The construction waste of the building engineering refers to the muck and waste concrete generated in the production activities of people in the building industries of demolition, construction, decoration, repair and the like, and is classified according to the generation source, and the construction waste can be divided into engineering muck, decoration waste, demolition waste, engineering slurry and the like; the construction waste can be classified into slag, concrete blocks, broken stone blocks, broken bricks and tiles, waste mortar, slurry, asphalt blocks, waste plastics, waste metals, waste bamboo and wood and the like according to the composition. The crushing process is adopted in the treatment process of construction waste to carry out crushing treatment on the waste firstly, so that the waste is environment-friendly and recycled or is convenient for subsequent treatment.

Among the shredding process of current waste material, shredding function is single, only carries out single shredding through the crushing unit of static setting, still needs extra power device to carry out the garbage collection after smashing in addition, then has the shredding function single not good consume the resource when smashing the effect. Based on this, we propose an environment-friendly civil engineering and construction work waste treatment apparatus for solving the above problems.

Disclosure of Invention

The embodiment of the invention aims to provide environment-friendly civil and architectural engineering construction waste treatment equipment, and aims to solve the problems that in the conventional waste crushing treatment process, only single crushing treatment is carried out through a statically arranged crushing assembly, and in addition, an additional power device is required for collecting crushed waste, so that the single crushing function is realized, the crushing effect is not good, and resources are consumed.

The embodiment of the invention is realized in such a way that the device comprises an installation frame, a crushing box body, a crushing assembly and a crushing motor, wherein the crushing box body, the crushing assembly and the crushing motor are arranged in the installation frame through a support; the device further comprises:

the reciprocating extrusion assembly is arranged in the crushing box body, is driven by a crushing motor and is used for extruding the waste;

the reciprocating grinding and collecting assembly is movably communicated with the crushing box body, is attached to the bottom of the crushing box body in a sliding manner, is connected to the reciprocating extrusion assembly through a first L-shaped connecting rod and is used for grinding and collecting crushed waste;

when the waste material is smashed, the smashing motor drives the smashing assembly to rotate elastically and smash and simultaneously drives the reciprocating extrusion assembly to extrude in a reciprocating mode, the smashing box is movably communicated with the smashing box, the smashing box is attached to the smashing box and slidably arranged under the action of the reciprocating grinding and collecting assembly at the bottom of the smashing box, and the smashing waste material is ground and collected through the first L-shaped connecting rod in a connecting transmission mode when the reciprocating extrusion assembly is driven to extrude in a reciprocating mode.

Preferably, the pivot is smashed to the crushing motor output fixed mounting of smashing box one side towards, smash the pivot and rotate and set up on smashing the box, crushing unit includes a plurality of telescopic crushing units of laying along smashing pivot circumference, telescopic crushing unit sets up the developments crushing pole in fixed crushing pole, a plurality of even elastic reciprocating crushing mechanism of laying on fixed crushing pole and the developments crushing pole and the expanding spring who is used for connecting developments crushing pole and fixed crushing pole inner wall including fixed crushing pole, the elastic sliding that set up in smashing the epaxial fixed crushing pole, the elastic sliding of rotating.

Preferably, the elastic reciprocating crushing mechanism comprises a swinging crushing rod rotatably arranged on the fixed crushing rod and the dynamic crushing rod and supporting springs arranged at two sides of the swinging crushing rod;

wherein, supporting spring is used for swinging crushing pole elastic connection on fixed crushing pole and dynamic crushing pole.

Preferably, the reciprocating extrusion assembly comprises a rotary table fixedly arranged at the output end of the crushing motor far away from one side of the crushing box body, an eccentric rotating shaft fixedly arranged on the rotary table, second L-shaped connecting rods hermetically and slidably arranged at two sides of the crushing box body, an extrusion block slidably arranged in the crushing box body and a reciprocating driving rod used for connecting the second L-shaped connecting rods and the eccentric rotating shaft;

the extrusion blocks correspond to the second L-shaped connecting rods one by one and are fixedly arranged at the end parts of the second L-shaped connecting rods in the crushing box body, and two ends of the reciprocating driving rod are respectively and rotatably arranged on the second L-shaped connecting rods and the eccentric rotating shaft;

when the extrusion block on one side is in a state of extruding the dynamic crushing rod, the telescopic spring is in a compressed state, and the extrusion block on the other side is in a state of being separated from the dynamic crushing rod.

Preferably, the bottom of the crushing box body is provided with a plurality of material through holes which are uniformly distributed, and the reciprocating grinding and collecting assembly comprises a collecting box body and a plurality of grinding blocks which are uniformly distributed on the upper surface of the collecting box body;

a feed inlet is formed in the top of the collecting box body between the adjacent grinding blocks, the grinding blocks are movably attached to the bottom of the crushing box body, and the collecting box body is fixedly arranged on the second L-shaped connecting rod through the first L-shaped connecting rod;

when the second L-shaped connecting rods positioned on the two sides of the crushing box body move transversely in a reciprocating manner, the collecting box body is driven to drive the grinding block to movably attach to the bottom of the crushing box body so as to grind the crushed waste materials for the second time.

Preferably, the device also comprises an anti-blocking assembly for avoiding the blockage of the material through hole, wherein the anti-blocking assembly comprises an anti-blocking fixed seat fixedly arranged at the bottom of the crushing rotating shaft and anti-blocking bristles for dredging the material inlet;

the anti-blocking brushing cloth is arranged at the bottom of the anti-blocking fixed seat.

Preferably, the device also comprises a plurality of supporting components for providing stable supporting force for the collecting box body, wherein each supporting component comprises a supporting bracket arranged on the inner wall of the bottom of the mounting frame and a plurality of supporting rollers rotatably arranged on the supporting bracket;

the supporting rollers are movably attached to the bottom of the collecting box body.

The environment-friendly civil and architectural engineering construction waste treatment equipment provided by the embodiment of the invention is provided with the reciprocating extrusion component and the reciprocating grinding and collecting component, under the action of the power source provided by the grinding motor, when waste is required to be ground, the grinding motor drives the grinding component to elastically rotate and grind and simultaneously drives the reciprocating extrusion component to perform reciprocating extrusion, and under the action of the reciprocating grinding and collecting component which is movably communicated with the grinding box body and is attached to the bottom of the grinding box body in a sliding manner, the reciprocating extrusion component is driven to perform reciprocating extrusion and simultaneously is connected and driven by the first L-shaped connecting rod to grind and collect the ground waste, so that the problems of concentrated accumulation of the waste in the process of waste treatment and grinding are avoided by controlling one power source, the grinding treatment, the elastic grinding treatment and the dynamic grinding and collecting are realized, the grinding effect is effectively improved, the resource consumption is saved, and the circuit layout is simplified, the problem of in the shredding process of current waste material, only carry out single shredding through the crushing unit of static setting, still need extra power device to carry out the garbage collection after smashing in addition, have then that shredding function single smashes the not good resource that consumes simultaneously of effect is solved.

Drawings

FIG. 1 is a schematic view showing the overall configuration of an environment-friendly civil engineering and construction work waste treatment apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of the interior of fig. 1 according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a point a in fig. 2 according to an embodiment of the present invention.

Fig. 4 is a schematic three-dimensional structure diagram of a combination of the collection box, the grinding block and the feed inlet in fig. 2 according to an embodiment of the present invention.

In the drawings: 1-installing a frame; 2-crushing the box body; 3-a crushing component; 4-a crushing motor; 5-reciprocating extrusion assembly; 6-reciprocating grinding and collecting assembly; 7-a first L-shaped connecting rod; 8-a crushing rotating shaft; 9-fixing the crushing rod; 10-dynamic crushing rods; 11-an elastic reciprocating crushing mechanism; 12-a telescopic spring; 13-swinging the crushing rod; 14-a support spring; 15-a turntable; 16-an eccentric rotating shaft; 17-a second L-shaped connecting rod; 18-an extrusion block; 19-a reciprocating drive rod; 20-a feed through hole; 21-a collection box body; 22-grinding block; 23-a feed inlet; 24-anti-clogging permanent seat; 25-anti-clogging bristles; 26-a support bracket; 27-support rollers; 28-bracket.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

Referring to fig. 1 to 4, a block diagram of an environment-friendly civil engineering and construction work waste treatment facility according to an embodiment of the present invention includes:

the crushing device comprises a mounting frame 1, a crushing box body 2, a crushing assembly 3 and a crushing motor 4, wherein the crushing box body 2, the crushing assembly 3 and the crushing motor 4 are arranged in the mounting frame 1 through a support 28, the crushing motor 4 is arranged on the mounting frame 1 through a motor support, the crushing motor 4 is a double-shaft driving motor, and the crushing assembly 3 is elastic crushing; the device further comprises:

the reciprocating extrusion assembly 5 is arranged in the crushing box body 2, is driven by the crushing motor 4 and is used for extruding the waste;

the reciprocating grinding and collecting assembly 6 is movably communicated with the crushing box body 2, is attached to the bottom of the crushing box body 2 in a sliding manner, is connected to the reciprocating extrusion assembly 5 through a first L-shaped connecting rod 7 and is used for grinding and collecting crushed waste;

when the waste material is smashed, the smashing motor 4 drives the smashing component 3 to elastically rotate, smash and simultaneously drive the reciprocating extrusion component 5 to perform reciprocating extrusion, and under the action of the reciprocating grinding and collecting component 6 which is movably communicated with the smashing box body 2 and is arranged at the bottom of the smashing box body 2 in a sliding mode in a fitting mode, the reciprocating extrusion component 5 is driven to perform reciprocating extrusion and simultaneously grind and collect smashed waste materials through the first L-shaped connecting rod 7 in a transmission mode.

In the practical application process of the embodiment, by arranging the reciprocating extrusion component 5 and the reciprocating grinding and collecting component 6, under the action of the power source provided by the grinding motor 4, when waste is needed to be ground, the grinding motor 4 drives the grinding component 3 to elastically rotate and grind and simultaneously drive the reciprocating extrusion component 5 to perform reciprocating extrusion, and under the action of the reciprocating grinding and collecting component 6 which is movably communicated with the grinding box body 2 and is arranged at the bottom of the grinding box body 2 in a fitting and sliding manner, the reciprocating extrusion component 5 is driven to perform reciprocating extrusion and simultaneously is connected and driven by the first L-shaped connecting rod 7 to grind and collect the ground waste, so that the problems of concentrated accumulation of the waste are avoided by controlling the power source in the waste treatment and grinding process, the elastic grinding process and the dynamic grinding and collecting process, the grinding effect is effectively improved, the resource consumption is saved, and the circuit layout is simplified, the problem of in the process of the crushing recycling of current waste material, only carry out single shredding through the crushing unit 3 of static setting, still need extra power device to carry out the garbage collection after smashing in addition, have then that shredding function single smashes the not good problem that consumes the resource simultaneously of effect is again.

As a preferred embodiment of the present invention, the output end of the pulverizing motor 4 facing one side of the pulverizing casing 2 is fixedly provided with a pulverizing rotating shaft 8, the pulverizing rotating shaft 8 is rotatably arranged on the pulverizing casing 2, the pulverizing assembly 3 comprises a plurality of telescopic pulverizing units arranged along the circumference of the pulverizing rotating shaft 8, and each telescopic pulverizing unit comprises a fixed pulverizing rod 9 fixedly arranged on the pulverizing rotating shaft 8, a dynamic pulverizing rod 10 elastically arranged in the fixed pulverizing rod 9 in a sliding manner, a plurality of elastic reciprocating pulverizing mechanisms 11 uniformly arranged on the fixed pulverizing rod 9 and the dynamic pulverizing rod 10, and a telescopic spring 12 for connecting the inner walls of the dynamic pulverizing rod 10 and the fixed pulverizing rod 9.

In one case of the present embodiment, the elastic reciprocating crushing mechanism 11 includes a swing crushing rod 13 rotatably provided on the fixed crushing rod 9 and the dynamic crushing rod 10 and support springs 14 provided on both sides of the swing crushing rod 13;

wherein, the supporting spring 14 is used for swinging the crushing rod 13 to be elastically connected to the fixed crushing rod 9 and the dynamic crushing rod 10.

This embodiment is in the practical application in-process, through fixed crushing pole 9, elastic sliding set up in the dynamic crushing pole 10 of fixed crushing pole 9 and be used for connecting dynamic crushing pole 10 and the fixed telescopic spring 12's of crushing pole 9 inner wall under the cooperative action jointly, realize not interfering each other with the work of reciprocal extrusion subassembly 5 when smashing and can adjusting the crushing scope to the developments of waste material.

As a preferred embodiment of the present invention, the reciprocating extrusion assembly 5 comprises a rotary table 15 fixedly arranged at the output end of the crushing motor 4 at one side far away from the crushing box body 2, an eccentric rotating shaft 16 fixedly arranged on the rotary table 15, second L-shaped connecting rods 17 hermetically and slidably arranged at two sides of the crushing box body 2, an extrusion block 18 slidably arranged in the crushing box body 2, and a reciprocating driving rod 19 for connecting the second L-shaped connecting rods 17 and the eccentric rotating shaft 16;

the extrusion blocks 18 correspond to the second L-shaped connecting rods 17 one by one and are fixedly arranged at the end parts of the second L-shaped connecting rods 17 in the crushing box body 2, and two ends of the reciprocating driving rod 19 are respectively and rotatably arranged on the second L-shaped connecting rods 17 and the eccentric rotating shaft 16;

when the pressing block 18 of one side is in a state of pressing the dynamic crushing rod 10, the extension spring 12 is in a compressed state, and the pressing block 18 of the other side is in a state of being separated from the dynamic crushing rod 10.

This embodiment is at the practical application in-process, through setting up the carousel 15, be located under the eccentric pivot 16 and the reciprocating drive pole 19's on the carousel 15 linkage effect, the rotation of smashing motor 4 drives carousel 15 and rotates, it sets up to rotate and drives the reciprocal transverse movement of second L type connecting rod 17 along smashing box 2 both sides respectively to set up reciprocating drive pole 19 on eccentric pivot 16, thereby it extrudees in order to improve crushing effect to the waste material in smashing to drive the both sides extrusion piece 18 in smashing box 2, when the extrusion piece 18 of one side is in the state of extrusion developments crushing pole 10, expanding spring 12 is in the compression state, the extrusion piece 18 of opposite side is in the state of separating with developments crushing pole 10, realize the multiposition mixed crushing of waste material.

As a preferred embodiment of the present invention, the bottom of the pulverizing box 2 is provided with a plurality of uniformly distributed through holes 20, and the reciprocating grinding and collecting assembly 6 comprises a collecting box 21 and a plurality of grinding blocks 22 uniformly distributed on the upper surface of the collecting box 21;

a feed inlet 23 is formed in the top of the collection box body 21 between the adjacent grinding blocks 22, the grinding blocks 22 are movably attached to the bottom of the crushing box body 2, and the collection box body 21 is fixedly arranged on the second L-shaped connecting rod 17 through the first L-shaped connecting rod 7;

when the second L-shaped connecting rods 17 on the two sides of the crushing box body 2 move transversely in a reciprocating manner, the collecting box body 21 is driven to drive the grinding blocks 22 to movably fit the bottom of the crushing box body 2 to grind the crushed waste materials for the second time.

This embodiment is in the practical application in-process, under the linkage effect of grinding piece 22 and first L type connecting rod 7 through setting up and smashing the bottom activity laminating of box 2, the branch material after smashing falls through material through hole 20, when lieing in the reciprocal lateral shifting of second L type connecting rod 17 of smashing box 2 both sides, can drive the bottom that collects box 21 drive grinding piece 22 activity laminating and smash box 2 and carry out the crushing back waste material to the whereabouts and carry out the secondary grinding, the waste material after the grinding is collected in collecting box 21 through feed inlet 23, meanwhile the collection box 21 under the motion state can avoid the crushing waste material of collection to concentrate accumulational problem.

As a preferred embodiment of the present invention, the device further comprises an anti-clogging assembly for preventing the material through hole 20 from clogging, wherein the anti-clogging assembly comprises an anti-clogging fixed seat 24 fixedly arranged at the bottom of the crushing rotating shaft 8 and anti-clogging bristles 25 for dredging the material through hole 23;

the anti-blocking bristles 25 are arranged at the bottom of the anti-blocking fixed seat 24.

In the practical application process of the present embodiment, the blockage problem of the through hole 20 can be effectively avoided by arranging the blockage prevention bristles 25.

As a preferred embodiment of the present invention, the device further comprises a plurality of supporting components for providing stable supporting force for the collecting box 21, wherein the supporting components comprise a supporting bracket 26 arranged on the inner wall of the bottom of the mounting frame 1 and a plurality of supporting rollers 27 rotatably arranged on the supporting bracket 26;

the supporting roller 27 is movably attached to the bottom of the collecting box 21.

In the practical application process of the present embodiment, the stability of the reciprocating movement of the collecting box 21 is effectively improved by arranging the supporting bracket 26 and the supporting rollers 27.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The environment-friendly civil and architectural engineering construction waste treatment equipment comprises an installation frame, a crushing box body, a crushing assembly and a crushing motor, wherein the crushing box body, the crushing assembly and the crushing motor are arranged in the installation frame through a support; the device further comprises:

the reciprocating extrusion assembly is arranged in the crushing box body, is driven by a crushing motor and is used for extruding the waste;

the reciprocating grinding and collecting assembly is movably communicated with the crushing box body, is attached to the bottom of the crushing box body in a sliding manner, is connected to the reciprocating extrusion assembly through a first L-shaped connecting rod and is used for grinding and collecting crushed waste;

when the waste material is smashed, the smashing motor drives the smashing assembly to rotate elastically and smash and simultaneously drives the reciprocating extrusion assembly to extrude in a reciprocating mode, the smashing box is movably communicated with the smashing box, the smashing box is attached to the smashing box and slidably arranged under the action of the reciprocating grinding and collecting assembly at the bottom of the smashing box, and the smashing waste material is ground and collected through the first L-shaped connecting rod in a connecting transmission mode when the reciprocating extrusion assembly is driven to extrude in a reciprocating mode.

2. The environment-friendly civil construction engineering construction waste treatment device of claim 1, wherein the crushing motor output end facing one side of the crushing box body is fixedly provided with a crushing rotating shaft, the crushing rotating shaft is rotatably arranged on the crushing box body, the crushing assembly comprises a plurality of telescopic crushing units arranged along the circumferential direction of the crushing rotating shaft, and each telescopic crushing unit comprises a fixed crushing rod fixedly arranged on the crushing rotating shaft, a dynamic crushing rod arranged in the fixed crushing rod in an elastic sliding manner, a plurality of elastic reciprocating crushing mechanisms uniformly arranged on the fixed crushing rod and the dynamic crushing rod, and a telescopic spring for connecting the dynamic crushing rod and the inner wall of the fixed crushing rod.

3. The environment-friendly civil engineering and construction work waste disposal apparatus of claim 2, wherein the elastic reciprocating pulverization mechanism comprises a swing pulverization bar rotatably disposed on the fixed pulverization bar and the dynamic pulverization bar, and support springs disposed at both sides of the swing pulverization bar;

wherein, supporting spring is used for swinging crushing pole elastic connection on fixed crushing pole and dynamic crushing pole.

4. The environment-friendly civil construction engineering construction waste treatment device of claim 3, wherein the reciprocating extrusion assembly comprises a rotary table fixedly arranged at the output end of the crushing motor at one side far away from the crushing box body, an eccentric rotating shaft fixedly arranged on the rotary table, second L-shaped connecting rods hermetically and slidably arranged at two sides of the crushing box body, extrusion blocks slidably arranged in the crushing box body and a reciprocating driving rod for connecting the second L-shaped connecting rods and the eccentric rotating shaft;

the extrusion blocks correspond to the second L-shaped connecting rods one by one and are fixedly arranged at the end parts of the second L-shaped connecting rods in the crushing box body, and two ends of the reciprocating driving rod are respectively and rotatably arranged on the second L-shaped connecting rods and the eccentric rotating shaft;

when the extrusion block on one side is in a state of extruding the dynamic crushing rod, the telescopic spring is in a compressed state, and the extrusion block on the other side is in a state of being separated from the dynamic crushing rod.

5. The environment-friendly civil engineering and construction work waste disposal apparatus of claim 4, wherein the bottom of the pulverizing box body is opened with a plurality of evenly distributed through-holes, and the reciprocating grinding and collecting assembly comprises a collecting box body and a plurality of grinding blocks evenly distributed on the upper surface of the collecting box body;

a feed inlet is formed in the top of the collecting box body between the adjacent grinding blocks, the grinding blocks are movably attached to the bottom of the crushing box body, and the collecting box body is fixedly arranged on the second L-shaped connecting rod through the first L-shaped connecting rod;

when the second L-shaped connecting rods positioned on the two sides of the crushing box body move transversely in a reciprocating manner, the collecting box body is driven to drive the grinding block to movably attach to the bottom of the crushing box body so as to grind the crushed waste materials for the second time.

6. The environment-friendly civil construction engineering construction waste treatment device of claim 5, wherein the device further comprises an anti-clogging assembly for preventing clogging of the feed through hole, the anti-clogging assembly comprises an anti-clogging fixed seat fixedly arranged at the bottom of the crushing rotating shaft and anti-clogging bristles for dredging the feed inlet;

the anti-blocking brushing cloth is arranged at the bottom of the anti-blocking fixed seat.

7. The environment-friendly civil engineering and construction work waste disposal apparatus of claim 5, wherein the apparatus further comprises a plurality of support members for providing stable support force to the collection box, the support members comprise support brackets provided on the inner wall of the bottom of the installation frame and a plurality of support rollers rotatably provided on the support brackets;

the supporting rollers are movably attached to the bottom of the collecting box body.

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