CN113058486A - Utilize cyclic regeneration equipment of building rubbish production garden soil - Google Patents

Abstract

The invention relates to the field of building waste recycling, in particular to recycling equipment for producing garden soil by using building waste, which comprises a feeding box, wherein the feeding end faces upwards, and the discharging end of the feeding box faces downwards; the feeding box is arranged above the working box, and the discharge end of the feeding box is communicated with the feeding end of the working box; the auxiliary working mechanism is arranged on one side of the working box; the working box is arranged above the storage box, the feeding end of the storage box is communicated with the discharging end of the working box, and the auxiliary working mechanism is arranged on the storage box; the collection box is arranged below the discharge end of the storage box. The invention can effectively utilize beneficial particles in the construction waste and mix the beneficial particles with silt to form garden soil, better solves the problems of accumulation and pollution of the construction waste, and can fully utilize the residual value of the construction waste.

Description

Utilize cyclic regeneration equipment of building rubbish production garden soil

Technical Field

The invention relates to the field of construction waste recycling, in particular to a recycling device for producing garden soil by using construction waste.

Background

The construction waste refers to residue, waste soil, waste material, sludge and other wastes generated in the process of constructing, laying or dismantling and repairing various buildings, structures, pipe networks and the like by construction and construction units or individuals. Along with the continuous deepening of the modernization degree of our country, the number of buildings in various parts of China also continuously rises, and along with the rising of the number of construction wastes, a large amount of construction wastes are accumulated to cause a certain amount of pollution to the environment, and even more, underground water sources and soil quality are damaged.

The conventional treatment mode of the construction waste is a large-batch land burying mode to wait for microorganisms in soil to decompose the construction waste, and a certain amount of accumulated construction waste is treated by a waste plant in a remote area of a conveying belt. Either the treatment method needs a certain amount of time for natural decomposition or the treatment method is pollution generated during stacking, and part of resources in the construction waste are not recycled.

Disclosure of Invention

In order to solve the technical problem, the recycling equipment for producing the garden soil by using the construction waste is provided.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

a recycling device for producing garden soil by using construction waste comprises,

the feeding end of the feeding box faces upwards, and the discharging end of the feeding box faces downwards;

the feeding box is arranged above the working box, and the discharge end of the feeding box is communicated with the feeding end of the working box;

the auxiliary working mechanism is arranged on one side of the working box;

the working box is arranged above the storage box, the feeding end of the storage box is communicated with the discharging end of the working box, and the auxiliary working mechanism is arranged on the storage box;

the collection box is arranged below the discharge end of the storage box.

Preferably, the feed box comprises, in combination,

the feeding box top plate is integrally in a square plate shape, a semicircular through hole is formed in the feeding box top plate, and first limiting columns are arranged on four corners of the side, facing downwards, of the feeding box top plate;

the feeding box comprises a feeding box shell, a semicircular fixing plate is arranged on one surface of the feeding box shell, the semicircular fixing plate does not shield a semicircular through hole in a top plate of the feeding box, a rectangular baffle is arranged on one side of the semicircular fixing plate, a circular through hole is formed in the center of the joint of the rectangular baffle and the semicircular fixing plate, first limiting holes are formed in four corners of one surface, facing upwards, of the feeding box shell, and second limiting holes are formed in four corners of one surface, facing downwards, of the feeding box shell;

the feeding box bottom plate is integrally in a square sleeve shape, a semi-circular first filtering plate is arranged on one surface of the feeding bottom plate, the first filtering plate shields a semi-circular through hole of the feeding box top plate, two limiting columns are arranged on four corners of one surface, facing upwards, of the feeding box bottom plate, and three limiting columns are arranged on four corners of one surface, facing downwards, of the feeding box bottom plate;

and the auxiliary feeding mechanism is arranged in the center between the top plate of the feeding box and the bottom plate of the feeding box.

Preferably, the auxiliary feeding mechanism comprises,

the whole feeding stirring rod is an integrated piece consisting of a stirring wheel and a long rod, the stirring end of the feeding stirring rod can be selectively arranged at the center of the upward side of the bottom plate of the feeding box, and the long rod end of the feeding stirring rod extends upwards;

the feeding control gear is integrally in an umbrella tooth shape, the feeding control gear is rotatably arranged at the center of one surface of the top plate of the feeding box facing downwards, and the top end of the feeding control gear is fixedly connected with the long rod end of the feeding stirring rod;

the feeding driving gear is integrally in an umbrella tooth shape and is meshed with the feeding control gear;

and the feeding driving motor is arranged on the semicircular fixing plate of the feeding box shell. The output shaft of the feeding driving motor is connected with the feeding driving gear.

Preferably, the work box comprises, in combination,

the silt temporary storage box is integrally in a rectangular sleeve shape and is arranged below the first filter plate, two inclined plates are arranged inside one end, away from the first filter plate, of the silt temporary storage box, the two inclined plates and the bottom of the silt temporary storage box form a funnel-shaped structure, two third limiting holes are formed in one surface, close to the first filter plate, of the silt temporary storage box, and two fourth limiting columns are arranged on one surface, away from the first filter plate, of the silt temporary storage box;

the integral crushing box is in a cuboid shape, one surface, close to the feeding box, of the crushing box is provided with two third limiting holes, one surface, far away from the feeding box, of the crushing box is provided with two fourth limiting columns, and the crushing box and the silt temporary storage box form a cube integrated part;

the working box chassis is integrally rectangular, the crushing box and the silt temporary storage box are both arranged on the working box chassis, a first discharge port is formed in the working box chassis, the first discharge port is arranged below the silt temporary storage box, two second discharge ports and a third discharge port are also formed in the working box chassis, the second discharge port and the third discharge port are both arranged below the crushing box, four fourth limiting holes are formed in one surface, close to the feeding box, of the working box chassis, and four fifth limiting columns are formed in one surface, close to the storage box, of the working box chassis;

silt ejection of compact control mechanism sets up in discharge gate No. one.

Preferably, two baffles on the bottom discharge gate both sides of smashing the case all change into No. two filters, and No. two filters slope is placed, and No. two discharge gates set up the below at No. two filters respectively, and No. three discharge gates setting is in the bottom discharge gate below of smashing the case.

Preferably, the silt discharging control mechanism comprises,

the bidirectional threaded rod is rotatably arranged in the chassis of the working box;

the threaded sliding blocks are integrally rectangular, one end of each threaded sliding block is provided with a square bulge, the center of each square bulge is provided with a threaded hole, the number of the threaded sliding blocks is two, the two threaded sliding blocks are respectively connected with two threads of the bidirectional threaded rod, and sliding strips are arranged at two ends of each threaded sliding block;

the first bevel gear is fixed in the middle of the bidirectional threaded rod;

the second bevel gear is meshed with the first bevel gear and is rotatably arranged in the chassis of the work box;

and the control handle is fixedly connected with the second bevel gear, and the handle end extends out of the chassis of the work box.

Preferably, the auxiliary working mechanism comprises,

an auxiliary work drive motor;

one end of the cylindrical sleeve is sealed, and two rectangular through holes which are not communicated are formed at the sealed end of the cylindrical sleeve;

the height of the screw rod is smaller than that of the cylindrical sleeve, and one end of the screw rod is provided with a limiting bulge;

one side of the chassis gear is provided with a disc, a clamping groove is formed in the disc surface of the chassis gear, the chassis gear is rotatably arranged at the sealing end in the cylindrical sleeve, and one end of the spiral rod, which is provided with a limiting bulge, is fixedly connected with the chassis gear;

the auxiliary work driving gear is connected with an output shaft of the auxiliary work driving motor;

one end of the transmission belt is connected with the chassis gear, and the other end of the transmission belt is connected with the auxiliary working driving gear;

one end of the auxiliary feeding guide groove is connected with the third discharge port, and the other end of the auxiliary feeding guide groove is connected with the rectangular through hole of the cylindrical sleeve;

one end of the auxiliary discharging guide groove is connected with the non-sealing end of the cylindrical sleeve, and the other end of the auxiliary discharging guide groove is arranged at the semicircular through hole of the top plate of the feeding box.

Preferably, the storage tank comprises, in combination,

the storage box comprises a storage box shell, a working box chassis, a hopper-shaped through hole, four five limiting holes, four six limiting columns and an auxiliary working mechanism, wherein the storage box shell is integrally rectangular, the working box chassis is arranged above the storage box shell, the through hole penetrating through the whole storage box is formed in the storage box shell, one end, close to the working box chassis, of the through hole is funnel-shaped, the four five limiting holes are formed in one surface, close to the working box chassis, of the storage box, the four six limiting columns are formed in one surface, far away from the working box;

the storage box base is integrally rectangular, the storage box shell is arranged above the storage box base, a circular groove is formed in the storage box base, sliding grooves are formed in two sides of the circular groove, four cylindrical bulges are arranged at the bottom of the circular groove, four six limiting holes are formed in one surface, close to the storage box shell, of the storage box base, and a four discharging hole communicated with the circular groove is formed in the storage box base;

the bidirectional stirring mechanism is arranged in the circular through hole of the storage box shell, and the overall height of the bidirectional stirring mechanism is higher than that of the storage box shell;

the circular truncated cone base is integrally in a circular truncated cone shape, a through hole is formed in the center of the circular truncated cone base, and the circular truncated cone base and the bidirectional stirring mechanism are coaxially arranged and fixed on the bidirectional stirring mechanism;

the discharge control mechanism is arranged in the circular groove of the base of the storage box, and one end of the bidirectional stirring mechanism is arranged on the discharge control mechanism;

discharge guide groove, one end is connected with No. four discharge gates, and one end sets up in collecting the box top.

Preferably, the bi-directional stirring mechanism comprises,

one end of the first stirring rod is provided with a stirring paddle, and the top of the end of the first stirring rod, which is provided with the stirring paddle, is provided with a conical bulge;

one end of the second stirring rod is provided with a stirring paddle, the rod body diameter of the second stirring rod is larger than that of the first stirring rod, a through hole coaxial with the second stirring rod is formed in the second stirring rod, and the diameter of the through hole is equal to that of the rod body diameter of the first stirring rod;

the first stirring control gear is in an umbrella tooth shape as a whole and is rotatably arranged at the center of the discharging control mechanism, and the first stirring control gear is fixedly connected with the other end of the first stirring rod;

the second stirring control gear is integrally in a bevel gear shape, a through hole with the diameter equal to that of the first stirring rod body is formed in the second stirring control gear, the second stirring control gear and the first stirring control gear are coaxially arranged, the other end of the second stirring rod is fixedly connected with the second stirring control gear, and the circular table base is arranged between the second stirring control gear and a stirring paddle of the second stirring rod;

the stirring driving gear is respectively meshed with the first stirring control gear and the second stirring control gear;

the output shaft of the stirring driving motor is connected with the stirring driving gear;

the snap ring, quantity sets up to two, with the coaxial setting of puddler, two snap rings are used for the position of fixed No. two stirring control gears and No. two puddlers.

Preferably, the discharge control mechanism comprises,

the main body of the sliding plate is a circular plate with the same size as the diameter of the circular groove, two ends of the sliding plate are provided with bulges matched with the sliding groove in the storage box base, one surface of the sliding plate is provided with a fixed bulge with the same position as the cylindrical bulge in the storage box base, and the bidirectional stirring mechanism is arranged on the other surface;

one end of each spring is connected with the cylindrical protrusion in the base of the storage box, the other end of each spring is connected with the fixed protrusion in the sliding plate, and the number of the springs is four.

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

1. the invention simplifies the installation mode of the whole equipment by using the mode of inserting and fixing the limiting hole and the limiting column, and is convenient for a user to carry, assemble and use.

2. The invention realizes the function of recycling the raw materials by using the auxiliary working mechanism, thereby maximizing the utilization rate of the construction waste.

3. According to the invention, garden soil is fully stirred and mixed by using the bidirectional stirring mechanism, so that the mixing rate of silt and beneficial particles of construction waste in the garden soil is promoted, and the quality of the garden soil is improved.

The invention can effectively utilize beneficial particles in the construction waste and mix the beneficial particles with silt to form garden soil, better solves the problems of accumulation and pollution of the construction waste, and can fully utilize the residual value of the construction waste.

Drawings

FIG. 1 is an overall perspective view of the present invention;

FIG. 2 is an exploded view of the feed box of the present invention;

FIG. 3 is a front view of the auxiliary feed mechanism of the present invention;

FIG. 4 is an exploded view of the work box of the present invention;

FIG. 5 is a bottom view of the crush box of the present invention;

FIG. 6 is a perspective view of the silt discharge control mechanism of the present invention;

FIG. 7 is a perspective view of the auxiliary operating mechanism of the present invention;

FIG. 8 is an exploded view of the auxiliary operating mechanism of the present invention;

FIG. 9 is a perspective view of the storage tank housing of the present invention;

FIG. 10 is a perspective view of the bi-directional stirring mechanism of the present invention;

FIG. 11 is a perspective view of the container base of the present invention;

fig. 12 is a cross-sectional view of a storage container base of the present invention.

The reference numbers in the figures are:

1-a feeding box; 1 a-a top plate of the feed box; 1a 1-semicircular through hole; 1a 2-first limit post; 1 b-a feed box housing; 1b 1-semicircular fixed plate; 1b 2-rectangular baffle; 1b 3-circular through hole; 1b 4-first limit hole; 1b 5-No. two spacing hole; 1 c-a bottom plate of the hopper; 1c 1-Filter plate No. one; 1c 2-second limiting column; 1c 3-third limit column; 1 d-an auxiliary feeding mechanism; 1d 1-feed agitator bar; 1d 2-feed control gear; 1d 3-feed drive gear; 1d 4-feed drive motor;

2-a work box; 2 a-a silt temporary storage box; 2a 1-inclined plate; 2a 2-third limiting hole; 2a 3-fourth limiting column; 2 b-a crushing box; 2b 1-Filter plate No. two; 2 c-work box chassis; 2c 1-discharge opening I; 2c 2-discharge outlet II; 2c 3-discharge port III; 2c 4-No. four limiting holes; 2c 5-stop column five; 2 d-a silt discharging control mechanism; 2d 1-two-way threaded rod; 2d 2-threaded slider; 2d 3-first bevel gear; 2d 4-second bevel gear; 2d 5-control handle; 2d 6-Square bumps; 2d 7-slide bar;

3-auxiliary working mechanism; 3 a-auxiliary working driving motor; 3 b-a cylindrical sleeve; 3 c-a screw rod; 3 d-chassis gear; 3 e-auxiliary work drive gear; 3 f-a transmission belt; 3 g-auxiliary feeding guide groove; 3 h-auxiliary discharging guide groove;

4-a storage tank; 4 a-reservoir housing; 4a 1-vias; 4a 2-five limiting holes; 4a 3-number six spacing post; 4 b-a storage bin base; 4b 1-circular groove; 4b 2-chute; 4b 3-cylindrical protrusion; 4b 4-number six limiting holes; 4b 5-discharge port IV; 4 c-a bidirectional stirring mechanism; 4c 1-stirring rod I; 4c 2-stirring rod II; 4c 3-stirring control gear I; 4c 4-stirring control gear II; 4c 5-stirring drive gear; 4c 6-stirring driving motor; 4c 7-clasp; 4 d-a round platform base; 4 e-a discharge control mechanism; 4e 1-skateboard; 4e 2-fixation protrusion; 4e 3-spring; 4 f-a discharge guide groove;

5-collecting box.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 12, a recycling apparatus for producing garden soil using construction waste, comprising,

the feeding end of the feeding box 1 faces upwards, and the discharging end of the feeding box 1 faces downwards;

the feeding box 1 is arranged above the working box 2, and the discharge end of the feeding box 1 is communicated with the feeding end of the working box 2;

the auxiliary working mechanism 3 is arranged on one side of the working box 2;

the working box 2 is arranged above the storage box 4, the feeding end of the storage box 4 is communicated with the discharging end of the working box 2, and the auxiliary working mechanism 3 is arranged on the storage box 4;

a collecting box 5 arranged below the discharge end of the storage tank 4.

Common construction waste can have fine substances such as silt among them for various reasons, and the construction waste who will collect drops into from the feed end of feed box 1, and the screening of feed box 1 is filtered and is divided into silt and pure construction waste, and both get into work box 2 respectively and handle. The treated construction waste and silt enter the storage box 4 together to be stirred and mixed, then leave from the discharge end of the storage box 4 to reach the collecting box 5, and the construction waste which is not treated enters the feeding box 1 again after being operated by the auxiliary working mechanism 3.

Referring to fig. 2, the following technical solutions are provided: the feed box 1 comprises a feed box body which comprises,

the feeding box top plate 1a is integrally square-plate-shaped, a semicircular through hole 1a1 is formed in the feeding box top plate 1a, and first limiting columns 1a2 are arranged on four corners of the downward side of the feeding box top plate 1 a;

the feeding box comprises a feeding box shell 1b which is integrally square sleeve-shaped, wherein one surface of the feeding box shell 1b is provided with a semicircular fixing plate 1b1, the semicircular fixing plate 1b1 does not shield a semicircular through hole 1a1 in a top plate 1a of the feeding box, one side of the semicircular fixing plate 1b1 is provided with a rectangular baffle plate 1b2, the center of the joint of the rectangular baffle plate 1b2 and the semicircular fixing plate 1b1 is provided with a circular through hole 1b3, four corners of the upward surface of the feeding box shell 1b are respectively provided with a first limiting hole 1b4, and four corners of the downward surface of the feeding box shell 1b are respectively provided with a second limiting hole 1b 5;

the feeding box bottom plate 1c is integrally in a square sleeve shape, a semi-circular first filter plate 1c1 is arranged on one surface of the feeding bottom plate, the first filter plate 1c1 shields a semi-circular through hole 1a1 of the feeding box top plate 1a, two limiting columns 1c2 are arranged on four corners of one surface, facing upwards, of the feeding box bottom plate 1c, and three limiting columns 1c3 are arranged on four corners of one surface, facing downwards, of the feeding box bottom plate 1 c;

and the auxiliary feeding mechanism 1d is arranged in the center between the top plate of the feeding box 1 and the bottom plate of the feeding box 1.

The top plate 1a of the feeding box, the shell 1b of the feeding box and the bottom plate 1c of the feeding box are fixed together in a mutually clamping and combining manner through a limiting column and a limiting hole. Building rubbish gets into from semicircular through hole 1a1 department of feed box roof 1a, piles up on a filter 1c1 of feed box bottom plate 1c after arriving, supplementary feed mechanism 1d begins to cooperate a filter 1c1 to work afterwards, and silt material in the building rubbish gets into work box 2 from a feed inlet of work box 2 after the filtration of a filter 1c1, and the work of work box 2 is got into from another feed inlet of work box 2 to the remaining unfiltered material in the building rubbish under the work of supplementary feed mechanism 1 d.

Referring to fig. 3, the following technical solutions are provided: the auxiliary feeding mechanism 1d includes a feeding mechanism,

the feeding stirring rod 1d1 is an integral piece consisting of a stirring wheel and a long rod, the stirring end of the feeding stirring rod 1d1 can be selectively arranged at the center of the upward-facing surface of the bottom plate 1c of the feeding box, and the long rod end of the feeding stirring rod 1d1 extends upwards;

the feeding control gear 1d2 is integrally in a bevel gear shape, the feeding control gear 1d2 is rotatably arranged at the center of one surface of the feeding box top plate 1a facing downwards, and the top end of the feeding control gear 1d2 is fixedly connected with the long rod end of the feeding stirring rod 1d 1;

the feeding driving gear 1d3 is integrally in a bevel gear shape and is meshed with the feeding control gear 1d 2;

and the feeding driving motor 1d4 is arranged on a semicircular fixed plate 1b1 of the feeding box shell 1 b. The output shaft of the feeding driving motor 1d4 is connected with the feeding driving gear 1d 3.

Feeding driving motor 1d4 work control feeding drive gear 1d3 rotates, feeding drive gear 1d3 drives feeding control gear 1d2 rotation of meshing with it and then drives feeding puddler 1d1 and carry out work, the building rubbish of piling up on filter 1c1 filters from filter 1c1 under the work of feeding puddler 1d1 and then enters into work box 2, the unable filterable part in the building rubbish enters into work box 2 from remaining through-hole 4a1 on feeding box bottom plate 1c under the work of feeding puddler 1d 1.

Referring to fig. 4 to 6, the following technical solutions are provided: the work box 2 is comprised of,

the silt temporary storage box 2a is integrally rectangular sleeve-shaped and is arranged below the first filter plate 1c1, two inclined plates 2a1 are arranged inside one end, far away from the first filter plate 1c1, of the silt temporary storage box 2a, the two inclined plates 2a1 and the bottom of the silt temporary storage box 2a form a funnel-shaped structure, two third limiting holes 2a2 are formed in one surface, close to the first filter plate 1c1, of the silt temporary storage box 2a, and two fourth limiting columns 2a3 are arranged on one surface, far away from the first filter plate 1c1, of the silt temporary storage box 2 a;

the crushing box 2b is integrally rectangular, two third limiting holes 2a2 are formed in one surface, close to the feeding box 1, of the crushing box 2b, two fourth limiting columns 2a3 are formed in one surface, far away from the feeding box 1, of the crushing box 2b, and the crushing box 2b and the sediment temporary storage box 2a form a cube integrated part;

the working box chassis 2c is integrally rectangular, the crushing box 2b and the silt temporary storage box 2a are arranged on the working box chassis 2c, the working box 2 chassis is provided with a first discharge port 2c1, the first discharge port 2c1 is arranged below the silt temporary storage box 2a, the working box chassis 2c is also provided with two second discharge ports 2c2 and a third discharge port 2c3, the second discharge port 2c2 and the third discharge port 2c3 are arranged below the crushing box 2b, one surface, close to the feeding box 1, of the working box chassis 2c is provided with four fourth limiting holes 2c4, and one surface, close to the storage box 4, of the working box chassis 2c is provided with four fifth limiting columns 2c 5;

silt ejection of compact control mechanism 2d sets up in discharge gate 2c1 No. one.

Silt and construction waste screened from the feeding box 1 respectively enter the silt temporary storage box 2a and the crushing box 2b, the construction waste enters the storage box 4 from the second discharge port 2c2 after being crushed by the crushing box 2b, the construction waste which is not completely treated enters the auxiliary working mechanism 3 through the third discharge port 2c3 and circulates to the feeding box 1 for treatment again, and the silt discharge control mechanism 2d is used for controlling the amount of silt entering the storage box 4, so that the proportion of soil and construction waste reaches a desired value.

Referring to fig. 5, the following technical solutions are provided:

two baffles on two sides of the bottom discharge port of crushing case 2b all change No. two filters 2b1 into, and two No. two filters 2b1 slope are placed, and two No. two discharge ports 2c2 set up respectively in the below of two No. two filters 2b1, and No. three discharge ports 2c3 set up in the bottom discharge port below of crushing case 2 b.

Building rubbish after smashing case 2b work reaches the bottom discharge gate department of smashing case 2b behind No. 2b1 of filter, and the building rubbish after No. two filter 2b1 filters enters into storage tank 4 from No. two discharge gates 2c2, and the building rubbish that No. two filter 2b1 had screened enters into supplementary operating device 3 mesocycle and handles again in feeding box 1 along No. three discharge gates 2c3 behind smashing case 2b bottom discharge gate.

Referring to fig. 6, the following technical solutions are provided: the silt discharging control mechanism 2d comprises a bidirectional threaded rod 2d1 which is rotatably arranged in the chassis 2c of the work box;

the threaded slider 2d2 is integrally rectangular, one end of the threaded slider 2d2 is provided with a square protrusion 2d6, the center of the square protrusion 2d6 is provided with a threaded hole, the number of the threaded sliders 2d2 is two, the two threaded sliders 2d2 are respectively connected with two threads of the bidirectional threaded rod 2d1, and the two ends of the threaded slider 2d2 are provided with sliding strips 2d 7;

the first bevel gear 2d3 is fixed at the middle position of the bidirectional threaded rod 2d 1;

the second bevel gear 2d4 is meshed with the first bevel gear 2d3, and the second bevel gear 2d4 is rotatably arranged in the chassis 2c of the work box;

and the control handle 2d5 is fixedly connected with the second bevel gear 2d4, and the handle end extends out of the chassis 2c of the work box.

When the control handle 2d5 is used, the second bevel gear 2d4 rotates, the first bevel gear 2d3 meshed with the second bevel gear 2d4 drives the two-way threaded rod 2d1 fixedly connected with the first bevel gear to rotate, then the two threaded sliders 2d2 connected to the two-way threaded rod 2d1 move close to or away from each other, and the opening size of the first discharge port 2c1 changes along with the displacement of the two threaded sliders 2d 2.

Referring to fig. 7 to 8, the following technical solutions are provided: the auxiliary working mechanism 3 includes an auxiliary working drive motor 3 a;

one end of the cylindrical sleeve 3b is sealed, and two rectangular through holes which are not communicated are formed at the sealed end of the cylindrical sleeve 3 b;

the height of the screw rod 3c is smaller than that of the cylindrical sleeve 3b, and one end of the screw rod 3c is provided with a limiting bulge;

one surface of the chassis gear 3d is provided with a disc, a clamping groove is formed in the disc surface of the chassis gear 3d, the chassis gear 3d is rotatably arranged at the sealing end in the cylindrical sleeve 3b, and one end of the screw rod 3c, which is provided with a limiting bulge, is fixedly connected with the chassis gear 3 d;

an auxiliary work drive gear 3e connected to an output shaft of the auxiliary work drive motor 3 a;

one end of the transmission belt 3f is connected with the chassis gear 3d, and the other end is connected with the auxiliary working driving gear 3 e;

one end of the auxiliary feeding guide groove 3g is connected with a third discharge port 2c3, and the other end is connected with a rectangular through hole 4a1 of the cylindrical sleeve 3 b;

and one end of the auxiliary discharging guide groove 3h is connected with the non-sealing end of the cylindrical sleeve 3b, and the other end of the auxiliary discharging guide groove is arranged at the semicircular through hole 1a1 of the top plate 1a of the feeding box.

Smash incomplete building rubbish and enter into the sealed end of cylinder sleeve 3b through supplementary pan feeding guiding groove 3g, supplementary work driving motor 3a work drives supplementary work drive gear 3e and rotates, chassis gear 3d connected with supplementary work drive gear 3e through drive belt 3f also rotates and drives hob 3c and rotates, the building rubbish that gets into the sealed end of cylinder sleeve 3b moves slowly under hob 3 c's rotation and enters into supplementary ejection of compact guiding groove 3h afterwards to the non-sealed end of cylinder sleeve 3b, building rubbish behind supplementary ejection of compact guiding groove 3h gets into from feed box 1 once more.

Referring to fig. 9 to 12, the following technical solutions are provided: the storage tank 4 comprises a tank for storing the liquid,

the storage box comprises a storage box shell 4a, a whole body is cuboid, a working box chassis 2c is arranged above the storage box shell 4a, a through hole 4a1 penetrating through the whole storage box 4 is formed in the storage box shell 4a, one end, close to the working box chassis 2c, of the through hole 4a1 is funnel-shaped, four five limiting holes 4a2 are formed in one surface, close to the working box chassis 2c, of the storage box 4, four six limiting columns 4a3 are arranged on one surface, far away from the working box chassis 2c, of the storage box 4, and an auxiliary working mechanism 3 is fixed on the storage box shell 4 a;

the storage box base 4b is integrally rectangular, the storage box outer shell 4a is arranged above the storage box base 4b, a circular groove 4b1 is formed in the storage box base 4b, sliding grooves 4b2 are formed in two sides of the circular groove 4b1, four cylindrical protrusions 4b3 are arranged at the bottom of the circular groove 4b1, four six limiting holes 4b4 are formed in one surface, close to the storage box outer shell 4a, of the storage box base 4b, and a four discharge hole 4b5 communicated with the circular groove 4b1 is formed in the storage box base 4 b;

a bidirectional stirring mechanism 4c provided in the circular through hole 4a1 of the storage tank housing 4a, the entire height of the bidirectional stirring mechanism 4c being higher than the entire height of the storage tank housing 4;

the circular truncated cone base 4d is integrally circular truncated cone-shaped, a through hole is formed in the center of the circular truncated cone base 4d, and the circular truncated cone base 4d and the bidirectional stirring mechanism 4c are coaxially arranged and fixed on the bidirectional stirring mechanism 4 c;

the discharge control mechanism 4e is arranged in the circular groove 4b1 of the storage box base 4b, and one end of the bidirectional stirring mechanism 4c is arranged on the discharge control mechanism 4 e;

discharge guide groove 4f, one end is connected with No. four discharge gates 4b5, and one end sets up in collecting box 5 top.

Silt and the abundant building rubbish of smashing that enter into storage tank 4 are fully mixed and are constituteed garden soil together under the work of two-way rabbling mechanism 4c, discharge control mechanism 4e work opens No. four discharge gates 4b5 when garden soil weight in storage tank 4 reaches a definite value, round platform base 4d is in continuous rotation owing to with two-way rabbling mechanism 4c fixed connection's the reason, garden soil constantly gets into No. four discharge gates 4b5 along the inclined plane of round platform base 4d and then gets into in collecting box 5 through ejection of compact guiding groove 4 f.

Referring to fig. 10, the following technical solutions are provided: the two-way stirring mechanism 4c includes,

one end of the first stirring rod 4c1 is provided with a stirring paddle, and the top of the end of the first stirring rod 4c1 provided with the stirring paddle is provided with a conical bulge;

one end of the second stirring rod 4c2 is provided with a stirring paddle, the diameter of the rod body of the second stirring rod 4c2 is larger than that of the rod body of the first stirring rod 4c1, the second stirring rod 4c2 is provided with a through hole which is coaxial with the second stirring rod 4c2, and the diameter of the through hole is equal to that of the rod body of the first stirring rod 4c 1;

the first stirring control gear 4c3 is in a bevel gear shape as a whole, the first stirring control gear 4c3 is rotatably arranged at the center of the discharging control mechanism 4e, and the first stirring control gear 4c3 is fixedly connected with the other end of the first stirring rod 4c 1;

the second stirring control gear 4c4 is integrally in an umbrella tooth shape, a through hole with the diameter equal to that of the first stirring rod 4c1 is formed in the second stirring control gear 4c4, the second stirring control gear 4c4 and the first stirring control gear 4c3 are coaxially arranged, the other end of the second stirring rod 4c2 is fixedly connected with the second stirring control gear 4c4, and the circular table base 4d is arranged between the second stirring control gear 4c4 and a stirring paddle of the second stirring rod 4c 2;

the stirring driving gear 4c5 is respectively meshed with the first stirring control gear 4c3 and the second stirring control gear 4c 4;

the stirring driving motor 4c6, the output shaft is connected with the stirring driving gear 4c 5;

the two snap rings 4c7 are provided coaxially with the first stirring rod 4c1, and the two snap rings 4c7 are used for fixing the positions of the second stirring control gear 4c4 and the second stirring rod 4c 2.

One end of the first stirring rod 4c1, which is far away from the stirring paddle, is inserted into the through hole of the second stirring rod 4c2 and extends, the second stirring control gear 4c4 fixedly connected with the second stirring rod 4c2 penetrates through the first stirring rod 4c1, and the second stirring control gear and the second stirring rod 4c2 are fixed at a position capable of being meshed with the stirring drive gear 4c5 through two snap rings 4c7, wherein the first stirring control gear 4c3 and the second stirring control gear 4c4 are distributed in a mirror image mode and are respectively meshed with the stirring drive gear 4c 5. When the stirring driving motor 4c6 drives the stirring driving gear 4c5 to work, the first stirring control gear 4c3 and the second stirring control gear 4c4 which are meshed with the first stirring driving gear and the second stirring driving gear drive the first stirring rod 4c1 and the second stirring rod 4c2 to rotate in opposite directions.

Referring to fig. 11 to 12, the following technical solutions are provided: the discharge control means 4e comprises a discharge control mechanism,

a sliding plate 4e1, the main body of which is a circular plate with the same diameter as the circular groove 4b1, two ends of which are provided with projections matched with the sliding groove 4b2 in the storage box base 4b, one side of the sliding plate 4e1 is provided with a fixed projection 4e2 with the same position as the cylindrical projection 4b3 in the storage box base 4b, and a bidirectional stirring mechanism 4c is arranged on the other side;

springs 4e3, one end of which is connected to cylindrical protrusion 4b3 in storage tank base 4b and the other end of which is connected to fixing protrusion 4e2 in slide plate 4e1, the number of springs 4e3 being set to four.

When the weight of the garden soil in the storage tank 4 is light, the spring 4e3 supports the circular truncated cone base 4d fixed to the bidirectional stirring mechanism 4c, and the bottom end of the circular truncated cone base 4d is horizontal to the bottom surface of the housing of the storage tank 4, so that the garden soil is sufficiently stirred and mixed in the housing of the storage tank 4. When the weight of the garden soil exceeds the supporting force of the spring 4e3, the circular truncated cone base 4d descends, the garden soil leaves from the fourth discharge port 4b5 of the base of the storage box 4, when the weight of the garden soil is reduced again, the spring 4e3 pushes the circular truncated cone base 4d to move upwards, and the fourth discharge port 4b5 is closed again.

The working principle of the invention is as follows:

the method comprises the following steps: building rubbish gets into from the feed end of feed box, and silt and building rubbish enter into the work box respectively under the work of filter and supplementary feed mechanism No. one.

Step two: building rubbish enters the crushing case and is screened through the second filter plate after being crushed, the completely crushed building rubbish enters the storage case, and the incompletely crushed building rubbish enters the auxiliary working mechanism and is transported to the feeding case for treatment again.

Step three: the silt entering the silt temporary storage tank enters the storage tank at a proper speed under the action of the silt discharging control mechanism.

Step four: the silt and the completely crushed construction waste entering the storage tank are fully mixed under the action of the bidirectional stirring mechanism to form the garden soil.

Step five; when the weight of the garden soil in the storage box reaches a certain value, the discharge control mechanism starts to work so that the garden soil can leave from the storage box and enter the collection box.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides an utilize cyclic regeneration equipment of building rubbish production garden soil which characterized in that includes:

the feeding end of the feeding box (1) faces upwards, and the discharging end of the feeding box (1) faces downwards;

the feeding box (1) is arranged above the working box (2), and the discharge end of the feeding box (1) is communicated with the feeding end of the working box (2);

the auxiliary working mechanism (3) is arranged on one side of the working box (2);

the working box (2) is arranged above the storage box (4), the feeding end of the storage box (4) is communicated with the discharging end of the working box (2), and the auxiliary working mechanism (3) is arranged on the storage box (4);

a collecting box (5) arranged below the discharge end of the storage box (4).

2. A recycling apparatus for producing garden soil using construction waste according to claim 1, wherein the feeding tank (1) comprises,

the feeding box top plate (1a) is integrally square-plate-shaped, a semicircular through hole (1a1) is formed in the feeding box top plate (1a), and first limiting columns (1a2) are arranged on four corners of the side, facing downwards, of the feeding box top plate (1 a);

the feeding box comprises a feeding box shell (1b) which is integrally square sleeve-shaped, wherein a semicircular fixing plate (1b1) is arranged on one surface of the feeding box shell (1b), the semicircular fixing plate (1b1) does not shield a semicircular through hole (1a1) in a feeding box top plate (1a), a rectangular baffle (1b2) is arranged on one side of the semicircular fixing plate (1b1), a circular through hole (1b3) is formed in the center of the joint of the rectangular baffle (1b2) and the semicircular fixing plate (1b1), first limiting holes (1b4) are formed in four corners of the upward surface of the feeding box shell (1b), and second limiting holes (1b5) are formed in four corners of the downward surface of the feeding box shell (1 b);

the feeding box bottom plate (1c) is integrally square sleeve-shaped, a semicircular first filter plate (1c1) is arranged on one surface of the feeding bottom plate, the first filter plate (1c1) shields a semicircular through hole (1a1) of the feeding box top plate (1a), two limiting columns (1c2) are arranged on four corners of one surface, facing upwards, of the feeding box bottom plate (1c), and three limiting columns (1c3) are arranged on four corners of one surface, facing downwards, of the feeding box bottom plate (1 c);

and the auxiliary feeding mechanism (1d) is arranged in the center between the top plate of the feeding box (1) and the bottom plate of the feeding box (1).

3. The recycling apparatus for producing forest soil using construction waste according to claim 2, wherein the auxiliary feeding means (1d) comprises,

the feeding stirring rod (1d1) is integrally formed by a stirring wheel and a long rod, the stirring end of the feeding stirring rod (1d1) can be selectively arranged at the center of the upward-facing surface of the bottom plate (1c) of the feeding box, and the long rod end of the feeding stirring rod (1d1) extends upwards;

the feeding control gear (1d2) is integrally in a bevel gear shape, the feeding control gear (1d2) is rotatably arranged at the center of one surface of the feeding box top plate (1a) facing downwards, and the top end of the feeding control gear (1d2) is fixedly connected with the long rod end of the feeding stirring rod (1d 1);

a feeding driving gear (1d3) which is wholly in a bevel gear shape and is meshed with the feeding control gear (1d 2);

and the feeding driving motor (1d4) is arranged on a semicircular fixing plate (1b1) of the feeding box shell (1 b). The output shaft of the feeding driving motor (1d4) is connected with the feeding driving gear (1d 3).

4. A recycling apparatus for producing forest soil using construction waste according to claim 1, wherein the working tank (2) comprises,

the silt temporary storage box (2a) is integrally rectangular and sleeve-shaped and is arranged below the first filter plate (1c1), two inclined plates (2a1) are arranged inside one end, far away from the first filter plate (1c1), of the silt temporary storage box (2a), the two inclined plates (2a1) and the bottom of the silt temporary storage box (2a) form a funnel-shaped structure, two third limiting holes (2a2) are formed in one surface, close to the first filter plate (1c1), of the silt temporary storage box (2a), and two fourth limiting columns (2a3) are arranged in one surface, far away from the first filter plate (1c1), of the silt temporary storage box (2 a);

the integral crushing box (2b) is in a cuboid shape, one surface, close to the feeding box (1), of the crushing box (2b) is provided with two third limiting holes (2a2), one surface, far away from the feeding box (1), of the crushing box (2b) is provided with two fourth limiting columns (2a3), and the crushing box (2b) and the sediment temporary storage box (2a) form a cube integrated part;

the working box chassis (2c) is integrally cuboid, the crushing box (2b) and the silt temporary storage box (2a) are arranged on the working box chassis (2c), a first discharge port (2c1) is formed in the working box (2) chassis, the first discharge port (2c1) is arranged below the silt temporary storage box (2a), two second discharge ports (2c2) and a third discharge port (2c3) are further formed in the working box chassis (2c), the second discharge port (2c2) and the third discharge port (2c3) are arranged below the crushing box (2b), four fourth limiting holes (2c4) are formed in one surface, close to the feeding box (1), of the working box chassis (2c), and four fifth limiting columns (2c5) are arranged on one surface, close to the storage box (4), of the working box chassis (2 c);

and the silt discharging control mechanism (2d) is arranged in the first discharging hole (2c 1).

5. The recycling apparatus for producing forest soil from construction waste according to claim 4,

two baffles on two sides of the bottom end discharge port of the crushing box (2b) are changed into two filters (2b1), the two filters (2b1) are obliquely arranged, the two discharge ports (2c2) are respectively arranged below the two filters (2b1), and the three discharge ports (2c3) are arranged below the bottom end discharge port of the crushing box (2 b).

6. The recycling apparatus for producing forest soil using construction waste according to claim 4, wherein the silt discharging control means (2d) comprises,

a bidirectional threaded rod (2d1) rotatably disposed in the work box chassis (2 c);

the threaded slider (2d2) is integrally rectangular, one end of the threaded slider (2d2) is provided with a square protrusion (2d6), the center of the square protrusion (2d6) is provided with a threaded hole, the number of the threaded sliders (2d2) is two, the two threaded sliders (2d2) are respectively in threaded connection with two types of the bidirectional threaded rod (2d1), and the two ends of the threaded slider (2d2) are provided with sliding strips (2d 7);

the first bevel gear (2d3) is fixed at the middle position of the bidirectional threaded rod (2d 1);

the second bevel gear (2d4) is meshed with the first bevel gear (2d3), and the second bevel gear (2d4) is rotatably arranged in the chassis (2c) of the work box;

the control handle (2d5) is fixedly connected with the second bevel gear (2d4), and the end of the control handle extends out of the chassis (2c) of the work box.

7. A recycling apparatus for producing forest soil using construction waste according to claim 1, wherein the auxiliary working mechanism (3) comprises,

an auxiliary work drive motor (3 a);

one end of the cylindrical sleeve (3b) is sealed, and two rectangular through holes which are not communicated are formed in the sealed end of the cylindrical sleeve (3 b);

the height of the screw rod (3c) is smaller than that of the cylindrical sleeve (3b), and one end of the screw rod (3c) is provided with a limiting bulge;

one side of the chassis gear (3d) is provided with a disc, a clamping groove is formed in the disc surface of the chassis gear (3d), the chassis gear (3d) is rotatably arranged at the sealing end in the cylindrical sleeve (3b), and one end of the spiral rod (3c) provided with a limiting bulge is fixedly connected with the chassis gear (3 d);

an auxiliary work driving gear (3e) connected with an output shaft of the auxiliary work driving motor (3 a);

one end of the transmission belt (3f) is connected with the chassis gear (3d), and the other end of the transmission belt is connected with the auxiliary working driving gear (3 e);

an auxiliary feeding guide groove (3g), one end of which is connected with a third discharge port (2c3), and the other end of which is connected with a rectangular through hole (4a1) of the cylindrical sleeve (3 b);

and one end of the auxiliary discharging guide groove (3h) is connected with the non-sealing end of the cylindrical sleeve (3b), and the other end of the auxiliary discharging guide groove is arranged at a semicircular through hole (1a1) of the top plate (1a) of the feeding box.

8. A recycling apparatus for producing garden soil from construction waste, according to claim 1, wherein the storage tank (4) comprises,

the storage box comprises a storage box shell (4a) which is integrally rectangular, a working box chassis (2c) is arranged above the storage box shell (4a), a through hole (4a1) penetrating through the whole storage box (4) is formed in the storage box shell (4a), one end, close to the working box chassis (2c), of the through hole (4a1) is funnel-shaped, four five limiting holes (4a2) are formed in one face, close to the working box chassis (2c), of the storage box (4), four six limiting columns (4a3) are arranged on one face, far away from the working box chassis (2c), of the storage box (4), and an auxiliary working mechanism (3) is fixed on the storage box shell (4 a);

the storage box comprises a storage box base (4b) which is integrally rectangular, a storage box outer shell (4a) is arranged above the storage box base (4b), a circular groove (4b1) is formed in the storage box base (4b), sliding grooves (4b2) are formed in two sides of the circular groove (4b1), four cylindrical protrusions (4b3) are arranged at the bottom of the circular groove (4b1), four six limiting holes (4b4) are formed in one surface, close to the storage box outer shell (4a), of the storage box base (4b), and a four discharging hole (4b5) communicated with the circular groove (4b1) is formed in the storage box base (4 b);

a bidirectional stirring mechanism (4c) disposed in the circular through hole (4a1) of the storage tank housing (4a), the overall height of the bidirectional stirring mechanism (4c) being higher than the overall height of the storage tank housing (4);

the circular truncated cone base (4d) is integrally circular truncated cone-shaped, a through hole is formed in the center of the circular truncated cone base (4d), and the circular truncated cone base (4d) and the bidirectional stirring mechanism (4c) are coaxially arranged and fixed on the bidirectional stirring mechanism (4 c);

the discharge control mechanism (4e) is arranged in a circular groove (4b1) of the storage box base (4b), and one end of the bidirectional stirring mechanism (4c) is arranged on the discharge control mechanism (4 e);

and one end of the discharging guide groove (4f) is connected with the fourth discharging hole (4b5), and the other end of the discharging guide groove is arranged above the collecting box (5).

9. A recycling apparatus for producing forest soil from construction waste according to claim 8, wherein the bidirectional stirring means (4c) comprises,

one end of the first stirring rod (4c1) is provided with a stirring paddle, and the top of the end of the first stirring rod (4c1) provided with the stirring paddle is provided with a conical bulge;

a second stirring rod (4c2), one end of which is provided with a stirring paddle, the diameter of the rod body of the second stirring rod (4c2) is larger than that of the first stirring rod (4c1), a through hole coaxial with the second stirring rod (4c2) is arranged on the second stirring rod (4c2), and the diameter of the through hole is equal to that of the rod body of the first stirring rod (4c 1);

the first stirring control gear (4c3) is integrally in a bevel gear shape, the first stirring control gear (4c3) is rotatably arranged at the center of the discharging control mechanism (4e), and the first stirring control gear (4c3) is fixedly connected with the other end of the first stirring rod (4c 1);

a second stirring control gear (4c4) which is integrally in a bevel gear shape, wherein a through hole with the diameter equal to that of the first stirring rod (4c1) is formed in the second stirring control gear (4c4), the second stirring control gear (4c4) and the first stirring control gear (4c3) are coaxially arranged, the other end of the second stirring rod (4c2) is fixedly connected with the second stirring control gear (4c4), and a circular truncated cone base (4d) is arranged between the second stirring control gear (4c4) and a stirring paddle of the second stirring rod (4c 2);

the stirring driving gear (4c5) is respectively meshed with the first stirring control gear (4c3) and the second stirring control gear (4c 4);

the stirring driving motor (4c6), the output shaft is connected with the stirring driving gear (4c 5);

the number of the clamping rings (4c7) is two, the clamping rings are coaxially arranged with the first stirring rod (4c1), and the two clamping rings (4c7) are used for fixing the positions of the second stirring control gear (4c4) and the second stirring rod (4c 2).

10. A recycling apparatus for producing forest soil using construction waste according to claim 8, wherein the discharging control means (4e) comprises,

a sliding plate (4e1), the main body of which is a circular plate with the same size as the diameter of the circular groove (4b1), the two ends of the sliding plate are provided with projections matched with the sliding groove (4b2) in the storage box base (4b), one side of the sliding plate (4e1) is provided with a fixed projection (4e2) with the same position as the cylindrical projection (4b3) in the storage box base (4b), and a bidirectional stirring mechanism (4c) is arranged on the other side;

and springs (4e3) having one end connected to the cylindrical protrusion (4b3) in the base (4b) of the storage container and the other end connected to the fixing protrusion (4e2) in the sliding plate (4e1), wherein the number of the springs (4e3) is set to four.

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