CN112121906A

CN112121906A - Decoration refuse treatment equipment

Info

Publication number: CN112121906A
Application number: CN202010944908.3A
Authority: CN
Inventors: 王石头
Original assignee: Individual
Current assignee: Shanghai Xiaoqi New Energy Technology Group Co ltd
Priority date: 2020-09-10
Filing date: 2020-09-10
Publication date: 2020-12-25
Anticipated expiration: 2040-09-10
Also published as: CN112121906B

Abstract

The invention relates to the field of decoration garbage, in particular to decoration garbage treatment equipment. The crushing degree of the decoration garbage can be adjusted according to actual conditions. Including crushing unit, the separation module, the input motor, connect the belt, through articulated connecting rod one, articulated connecting rod two is driving rectangle slider one respectively, rectangle slider two is in rectangle spout relative slip, and then make rectangle slider one, interval between the rectangle slider two changes, and then make crushing roller one and smash the interval between the roller two and change, and then make crushing roller one and smash the broken specification of the rubbish that can adapt to between the roller two and change, and then realize the regulation to the crushing effect of decoration rubbish. The inner end clip I is connected with the clamping groove I in a matched mode, so that the driving slider is positioned at the sliding position of the outer frame, and the control of the adjusting on the smashing degree of the decoration garbage is achieved.

Description

Decoration refuse treatment equipment

Technical Field

The invention relates to the field of decoration garbage, in particular to decoration garbage treatment equipment.

Background

With the development of society, the interior decoration industry is developed more and more vigorously, but the problem of disposing of decoration garbage comes with, what mainly needs to be solved at present is the crushing treatment of large-scale decoration garbage, such as large-scale concrete blocks chiseled off because of setting up the trough, and these large-scale decoration garbage bring very big work load to transportation, later stage reutilization processing, therefore, the disposal of decoration garbage has become more and more urgent.

The patent number CN201822226667.X decorative garbage treatment equipment comprises a double-shaft shredder 1, a first iron remover 2, a bouncing screen 3, an impact crusher 4, a second iron remover 5, a vibration separator 6 and a frequency recovery screen 7. The process of shredding, crushing, screening, manual sorting, secondary iron removal and secondary sorting is adopted to completely remove the sundries in the decoration garbage, so that the decoration garbage can be recycled, but the technical scheme has the defect that the crushing degree of the decoration garbage can not be adjusted according to actual conditions.

Disclosure of Invention

The invention aims to provide a decoration garbage treatment device which can adjust the crushing degree of decoration garbage according to actual conditions.

The purpose of the invention is realized by the following technical scheme:

a decoration garbage disposal device comprises a crushing assembly, a separating assembly, an input motor and a connecting belt, wherein the crushing assembly is vertically assembled and connected with the separating assembly;

the crushing assembly comprises an outer frame, a first rectangular sliding groove, a first rectangular sliding block, a second rectangular sliding block, a first middle-end rotating column, a second middle-end rotating column, a first hinged connecting rod, a second hinged connecting rod, a driving slider, a first clamping groove, a first crushing roller, a first crushing rod, a second crushing roller, a second crushing rod, a rear-end slider, a rear-end sliding rod pushing spring, a belt, an input belt wheel, a third rectangular sliding block, a fourth rectangular sliding block, a first inner-end pushing spring, a second inner-end pushing spring, a first inner-end clamp and a first inner-end clamp, wherein the first rectangular sliding groove is arranged on the outer frame, the first rectangular sliding block and the second rectangular sliding block are both in sliding connection with the first rectangular sliding groove, the first middle-end rotating column and the second middle-end rotating column are respectively in rotating connection with the first rectangular sliding block and the second rectangular sliding block, the first hinged connecting rod is hinged with the second rectangular sliding block, the first hinged connecting rod is, a hinged connecting rod II is hinged with the rectangular sliding block I, a clamping groove I is arranged on the outer frame, an inner end clamp I is matched and connected with a clamping groove I, the inner end clamp I is connected with the driving slider in a sliding manner, two inner end clamps I are arranged, an inner end clamp push spring I is arranged between the two inner end clamps I, a crushing roller I is fixedly connected with a middle end rotating column I, a crushing rod I is connected with the crushing roller I in a sliding manner, an inner end push spring I is arranged between the crushing rod I and the crushing roller I, the crushing roller II is fixedly connected with a middle end rotating column II, the crushing rod II is connected with the crushing roller II in a sliding manner, the inner end push spring II is arranged between the crushing rod II and the crushing roller II, the middle end rotating column I and the middle end rotating column II are respectively connected with the rectangular sliding block III and the rectangular sliding block IV in a rotating manner, the rectangular sliding block III and the rectangular sliding block IV are both connected with the outer frame in a sliding manner, the rear end sliding rod push spring is connected with the rear end sliding rod in a sleeved mode, the rear end sliding rod push spring is arranged between the rear end slider and the rear end sliding rod, a belt wheel A is arranged on the rear end slider, a belt is connected with the belt wheel A, the middle end rotating column I, the middle end rotating column II and the input belt wheel in a matched mode, the input belt wheel is rotatably connected with the outer frame, and the connecting belt is connected with the input belt wheel in a matched mode.

Further, the separating component comprises a separating outer frame, a through hole, a bevel gear I, a separating fan II, a bevel gear III, a bevel gear IV, a connecting rod I, a bevel gear V, a separating fan I with a bevel gear, a separating fan II with a bevel gear, a connecting rod II, a bevel gear VI, a separating fan III with a bevel gear, a separating fan IV with a bevel gear and an inclined surface shell, the through hole is arranged on the separating outer frame, the bevel gear I is rotationally connected with the separating outer frame, the separating fan I is fixedly connected with the bevel gear I, the separating fan I is rotationally connected with the separating outer frame, the bevel gear III is in meshing transmission with the bevel gear I, the bevel gear II is rotationally connected with the separating outer frame, the separating fan II is fixedly connected with the bevel gear II, the separating fan II is rotationally connected with the separating outer frame, the separating fan II is in matching connection with the separating fan I, and the bevel gear IV is rotationally connected with the separating outer, the bevel gear four is in meshed transmission with the bevel gear one and the bevel gear two, the connecting rod one is fixedly connected between the bevel gear four and the bevel gear five, the connecting rod one is in rotating connection with the separating outer frame, the bevel gear five is in meshed transmission with the separating fan one with the bevel gear and the separating fan two with the bevel gear, the separating fan one with the bevel gear and the separating fan two with the bevel gear are in rotating connection with the separating outer frame, the separating fan one with the bevel gear is in matched transmission with the separating fan two with the bevel gear, the connecting rod two is fixedly connected between the bevel gear six and the bevel gear three, the connecting rod two is in rotating connection with the separating outer frame, the separating fan three with the bevel gear and the separating fan four with the bevel gear are in meshed transmission with the bevel gear six, the separating fan three with the bevel gear and the separating fan four with the bevel gear are in rotating connection with the separating outer frame, the input motor is fixedly connected with the separating outer frame, and the output shaft of the input motor is fixedly connected with the bevel gear one, the outer frame is fixedly connected and communicated with the separating outer frame, the inclined plane shell is fixedly connected with the separating outer frame, the inclined plane shell plays a role in isolating decoration garbage and preventing the decoration garbage from damaging the separating fan, and meshes with the diameter of 5-10mm are arranged on the inclined plane shell in the through hole direction.

The decoration garbage treatment equipment has the beneficial effects that:

1. the first hinge connecting rod is used; the hinged connecting rods II respectively drive the rectangular sliding blocks I; the rectangular sliding block II slides relatively in the rectangular sliding groove I, so that the rectangular sliding block I is further driven; the interval between the rectangular sliding blocks II is changed, so that the interval between the crushing roller I and the crushing roller II is changed, the specification of the decorative garbage fragments which can be adapted between the crushing roller I and the crushing roller II is changed, and the decorative garbage crushing effect is adjusted.

2. The inner end clip I is connected with the clamping groove I in a matched mode, so that the driving slider is positioned at the sliding position of the outer frame, and the control of the adjusting on the smashing degree of the decoration garbage is achieved.

3. The belt is tensioned by the sliding of the rear end slider on the rear end slide rod and the action of the spring pushing force of the rear end slide rod.

4. The bevel gear IV rotates to drive the bevel gear VI to rotate through the connecting rod II, and then the separating fan III with the bevel gear is driven; the four rotations of separation fan of taking the awl tooth, and then make the air in the separation frame produce and flow, and then make the dust in the decoration rubbish of smashing the completion blow off through the separation frame, and simultaneously, the metal object that the proportion ratio arrived falls down in the separation frame, and then realizes the separation to the decoration rubbish.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic view of the shredder assembly of the present invention;

FIG. 4 is a second schematic structural view of the size reduction assembly of the present invention;

FIG. 5 is a third schematic view of the shredder assembly of the present invention;

FIG. 6 is a fourth schematic structural view of the size reduction assembly of the present invention;

FIG. 7 is a fifth schematic view of the shredder assembly of the present invention;

FIG. 8 is a first schematic view of the separation assembly of the present invention;

FIG. 9 is a second schematic structural view of the separator assembly of the present invention;

fig. 10 is a third schematic structural view of the separating assembly of the present invention.

In the figure: a crushing assembly 1; an outer frame 1-1; 1-2 of a rectangular chute; 1-3 of a rectangular sliding block I; 1-4 of a rectangular sliding block II; 1-5 of a middle-end rotating column I; a middle-end rotary column II 1-6; 1-7 of a first hinged connecting rod; 1-8 parts of a second hinged connecting rod; 1-9 of a driving slider; 1-10 of a first clamping groove; 1-11 parts of a crushing roller; 1-12 parts of a crushing rod I; a second crushing roller 1-13; crushing the second rods 1-14; 1-15 parts of rear-end slider; rear end slide bars 1-16; a rear end slide bar push spring 1-17; belts 1-18; input pulleys 1-19; 1-20 parts of a rectangular sliding block III; 1-21 parts of rectangular sliding block; the inner end of the push spring I is 1-22; the inner end pushes a second spring 1-23; inner end clips 1-24; the inner end is clamped with a first push spring 1-25; a separation assembly 2; separating the outer frame 2-1; a through hole 2-2; 2-3 of a first bevel gear; a separation fan I2-4; separating fan two 2-5; 2-6 parts of a second bevel gear; 2-7 parts of bevel gear III; 2-8 of bevel gear; 2-9 parts of a first connecting rod; 2-10 parts of bevel gear five; a first separating fan 2-11 with bevel gear; 2-12 parts of a second separating fan with bevel teeth; 2-13 of a second connecting rod; 2-14 parts of bevel gear; a third separating fan 2-15 with bevel gear; 2-16 parts of a separating fan with bevel teeth; 2-17 parts of a bevel shell; an input motor 3; the belt 4 is attached.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

Example (b):

the embodiment is described below with reference to fig. 1-10, and the decorative garbage disposal apparatus comprises a crushing assembly 1, a separating assembly 2, an input motor 3 and a connecting belt 4, wherein the crushing assembly 1 is vertically assembled and connected with the separating assembly 2, the input motor 3 is arranged on the side surface of the separating assembly 2, and the input motor 3 is connected with the crushing assembly 1 through the connecting belt 4;

the crushing component 1 comprises an outer frame 1-1, a rectangular sliding chute I1-2, a rectangular sliding block I1-3, a rectangular sliding block II 1-4, a middle-end rotating column I1-5, a middle-end rotating column II 1-6, a hinged connecting rod I1-7, a hinged connecting rod II 1-8, a driving slider 1-9, a clamping groove I1-10, a crushing roller I1-11, a crushing rod I1-12, a crushing roller II 1-13, a crushing rod II 1-14, a rear-end slider 1-15, a rear-end sliding rod 1-16, a rear-end sliding rod push spring 1-17, a belt 1-18, an input belt wheel 1-19, a rectangular sliding block III 1-20, a rectangular sliding block IV 1-21, an inner-end push spring I1-22, an inner-end push spring II 1-23, an inner-end I1-24, a clamp, The inner end clamp pushes the spring I1-25, the rectangular sliding groove I1-2 is arranged on the outer frame 1-1, the rectangular sliding block I1-3 and the rectangular sliding block II 1-4 are connected with the rectangular sliding groove I1-2 in a sliding way, the middle end rotary column I1-5 and the middle end rotary column II 1-6 are respectively connected with the rectangular sliding block I1-3 and the rectangular sliding block II 1-4 in a rotating way, the hinge connecting rod I1-7 is connected with the rectangular sliding block II 1-4 in a hinged way, the hinge connecting rod I1-7 is connected with the driving slider 1-9 in a hinged way, the driving slider 1-9 is connected with the outer frame 1-1 in a sliding way, the hinge connecting rod II 1-8 is connected with the driving slider 1-9 in a hinged way, the hinge connecting rod II 1-8 is connected with the rectangular sliding block I1-3 in a hinged way, the clamping groove I, the inner end clamps I1-24 are matched and connected with the clamping grooves I1-10, the inner end clamps I1-24 are slidably connected with the driving sliders 1-9, the inner end clamps I1-24 are provided with two, the inner end clamp push springs I1-25 are arranged between the two inner end clamps I1-24, the crushing rollers I1-11 are fixedly connected with the middle end rotating columns I1-5, the crushing rods I1-12 are slidably connected with the crushing rollers I1-11, the inner end push springs I1-22 are arranged between the crushing rods I1-12 and the crushing rollers I1-11, the crushing rollers II 1-13 are fixedly connected with the middle end rotating columns II 1-6, the crushing rods II 1-14 are slidably connected with the crushing rollers II 1-13, the inner end push springs II 1-23 are arranged between the crushing rods II 1-14 and the crushing rollers II 1-13, the middle-end rotary column I1-5 and the middle-end rotary column II 1-6 are respectively rotatably connected with a rectangular sliding block III 1-20 and a rectangular sliding block IV 1-21, the rectangular sliding block III 1-20 and the rectangular sliding block IV 1-21 are respectively slidably connected with an outer frame 1-1, a rear-end slider 1-15 is slidably connected with a rear-end slider 1-16, a rear-end slider 1-16 is fixedly connected with the outer frame 1-1, a rear-end slider push spring 1-17 is connected with the rear-end slider 1-16 in a sleeved mode, a rear-end slider push spring 1-17 is arranged between the rear-end slider 1-15 and the rear-end slider 1-16, a belt wheel A is arranged on the rear-end slider 1-15, a belt 1-18 is connected with the belt wheel A, the middle-end rotary column I1-5, the middle-end rotary column II 1-6 and an input belt wheel 1-19 in, the input belt wheels 1-19 are rotatably connected with the outer frame 1-1, and the connecting belt 4 is connected with the input belt wheels 1-19 in a matching way.

The separating component 2 comprises a separating outer frame 2-1, a through hole 2-2, a bevel gear I2-3, a separating fan I2-4, a separating fan II 2-5, a bevel gear II 2-6, a bevel gear III 2-7, a bevel gear IV 2-8, a connecting rod I2-9, a bevel gear V2-10, a separating fan I2-11 with a bevel gear, a separating fan II 2-12 with a bevel gear, a connecting rod II 2-13, a bevel gear VI 2-14, a separating fan III 2-15 with a bevel gear, a separating fan IV 2-16 with a bevel gear and a bevel shell 2-17, wherein the through hole 2-2 is arranged on the separating outer frame 2-1, the bevel gear I2-3 is rotationally connected with the separating outer frame 2-1, the separating fan I2-4 is fixedly connected with the bevel gear I2-3, the separating fan I2-4 is rotationally connected with the separating outer frame 2-1, a third bevel gear 2-7 is rotationally connected with a separating outer frame 2-1, a third bevel gear 2-7 is in meshing transmission with a first bevel gear 2-3, a second bevel gear 2-6 is in meshing transmission with a third bevel gear 2-7, a second bevel gear 2-6 is rotationally connected with the separating outer frame 2-1, a second separating fan 2-5 is fixedly connected with a second bevel gear 2-6, a second separating fan 2-5 is rotationally connected with the separating outer frame 2-1, a second separating fan 2-5 is in matching connection with a first separating fan 2-4, a fourth bevel gear 2-8 is rotationally connected with the separating outer frame 2-1, a fourth bevel gear 2-8 is in meshing transmission with a first bevel gear 2-3 and a second bevel gear 2-6, a first connecting rod 2-9 is fixedly connected between the fourth bevel gear 2-8 and a fifth bevel gear 2-10, a first connecting rod 2-9 is rotationally connected with the separating outer frame 2-1, the bevel gear five 2-10 is in meshed transmission with a separation fan I2-11 with bevel gears and a separation fan II 2-12 with bevel gears, the separation fan I2-11 with bevel gears and the separation fan II 2-12 with bevel gears are in rotary connection with a separation outer frame 2-1, the separation fan I2-11 with bevel gears is in matched connection with the separation fan II 2-12 with bevel gears, a connecting rod II 2-13 is fixedly connected between a bevel gear VI 2-14 and a bevel gear III 2-7, the connecting rod II 2-13 is in rotary connection with the separation outer frame 2-1, the separation fan III 2-15 with bevel gears and the separation fan IV 2-16 with bevel gears are in meshed transmission with a bevel gear VI 2-14, the separation fan III 2-15 with bevel gears and the separation fan IV 2-16 with bevel gears are in rotary connection with the separation outer frame 2-1, a third separating fan 2-15 with bevel teeth is matched and connected with a fourth separating fan 2-16 with bevel teeth, an input motor 3 is fixedly connected with a separating outer frame 2-1, an output shaft of the input motor 3 is fixedly connected with a first bevel gear 2-3, the outer frame 1-1 is fixedly connected and communicated with the separating outer frame 2-1, and an inclined plane shell 2-17 is fixedly connected with the separating outer frame 2-1;

the smashed decorating garbage falls into the separating assembly 2, and simultaneously the input motor 3 rotates, so that the input motor 3 drives the bevel gear I2-3 to rotate, further the bevel gear I2-3 drives the bevel gear III 2-7 and the bevel gear IV 2-8 to rotate, further the separating fan II 2-5 and the separating fan I2-4 to rotate, simultaneously the bevel gear III 2-7 rotates, further the connecting rod I2-9 drives the bevel gear V2-10 to rotate, and further the bevel gear V2-10 drives the separating fan I2-11 with the bevel gear; 2-12 of the separation fan II with the bevel gear rotates, and 2-8 of the bevel gear rotates to drive 2-14 of the bevel gear to rotate through 2-13 of the connecting rod II, so as to drive 2-15 of the separation fan III with the bevel gear; the four separating fans 2-16 with the bevel teeth rotate, so that air in the separating outer frame 2-1 flows, dust in the smashed decorating garbage is blown out through the separating outer frame 2-1, and meanwhile, the metal object with the higher specific gravity falls into the separating outer frame 2-1, and the decorating garbage is separated.

The invention discloses decoration garbage treatment equipment, which has the working principle that:

when the decorative garbage crusher is used, the input motor 3 is started, the connecting belt 4 is driven to move by the input motor 3, the connecting belt 4 drives the input belt wheels 1-19 to move, the input belt wheels 1-19 drive the belts 1-18 to move, the belts 1-18 drive the middle end rotary columns 1-5 and the middle end rotary columns two 1-6 to simultaneously rotate, the middle end rotary columns 1-5 and the middle end rotary columns two 1-6 respectively drive the crushing rollers 1-11 and the crushing rollers two 1-13 to rotate, further drive the crushing rods 1-12 and the crushing rods two 1-14 to simultaneously move, and meanwhile, the crushing of decorative garbage is realized by the contact of the crushing rods 1-12 and the crushing rods two 1-14 with decorative garbage; the smashing effect on the decorative garbage can be adjusted according to actual conditions, the driving sliders 1-9 slide along the outer frame 1-1, the driving sliders 1-9 simultaneously drive the first hinged connecting rod 1-7 and the second hinged connecting rod 1-8 to move, the first rectangular sliding block 1-3 and the second rectangular sliding block 1-4 are respectively driven by the first hinged connecting rod 1-7 and the second hinged connecting rod 1-8 to slide in the first rectangular sliding chute 1-2 relatively, so that the distance between the first rectangular sliding block 1-3 and the second rectangular sliding block 1-4 is changed, the distance between the first smashing roller 1-11 and the second smashing roller 1-13 is further changed, and the specification of the decorative garbage fragments capable of being adapted between the first smashing roller 1-11 and the second smashing roller 1-13 is further changed, the decoration garbage crushing effect can be adjusted; the positioning of the driving sliders 1-9 at the sliding positions of the outer frame 1-1 is realized through the matching connection of the inner end clamps 1-24 and the clamping grooves 1-10, and further the control of the adjustment on the crushing degree of the decorative garbage is realized; along with the change of the distance between the middle end rotary column I1-5 and the middle end rotary column II 1-6, the belt 1-18 is deformed, and the belt 1-18 is tensioned under the action of the sliding of the rear end slider 1-15 on the rear end slider 1-16 and the elastic force of the rear end slider push spring 1-17; the crushed decoration garbage falls into a separation assembly 2, at the moment, an input motor 3 rotates to drive a first bevel gear 2-3 to rotate, further drive a third bevel gear 2-7 and a fourth bevel gear 2-8 to rotate, further drive a second separation fan 2-5 and a first separation fan 2-4 to rotate, simultaneously drive a third bevel gear 2-7 to rotate, further drive a fifth bevel gear 2-10 to rotate through a first connecting rod 2-9, and further drive a first separation fan 2-11 with bevel gears through a fifth bevel gear 2-10; 2-12 of the separation fan II with the bevel gear rotates, and 2-8 of the bevel gear rotates to drive 2-14 of the bevel gear to rotate through 2-13 of the connecting rod II, so as to drive 2-15 of the separation fan III with the bevel gear; the four separating fans 2-16 with the bevel gear rotate, so that air in the separating outer frame 2-1 flows, dust in the smashed decorative garbage is blown out through the through holes 2-2, meanwhile, a metal object with a relatively high specific gravity falls out through the lower end of the separating outer frame 2-1, so that the decorative garbage is separated, meanwhile, in order to prevent the smashed decorative garbage from falling down and damage the first separating fan 2-11 with the bevel gear, the second separating fan 2-12 with the bevel gear, the third separating fan 2-15 with the bevel gear and the fourth separating fan 2-16 with the bevel gear, the bevel shell 2-17 is fixed in the separating outer frame 2-1, so that the protection of the first separating fan 2-11 with the bevel gear, the second separating fan 2-12 with the bevel gear, the third separating fan 2-15 with the bevel gear and the fourth separating fan 2-16 with the bevel gear is realized, meanwhile, the upper ends of the inclined plane shells 2-17 are inclined, so that the crushed decoration garbage is prevented from being retained.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a decoration refuse treatment equipment, includes crushing unit (1), separator (2), input motor (3), connection belt (4), its characterized in that: the crushing assembly (1) is vertically assembled and connected with the separating assembly (2), the input motor (3) is arranged on the side surface of the separating assembly (2), and the input motor (3) is connected with the crushing assembly (1) through a connecting belt (4);

the crushing component (1) comprises an outer frame (1-1), a rectangular sliding groove I (1-2), a rectangular sliding block I (1-3), a rectangular sliding block II (1-4), a middle-end rotating column I (1-5), a middle-end rotating column II (1-6), a hinged connecting rod I (1-7), a hinged connecting rod II (1-8), a driving slider (1-9), a clamping groove I (1-10), a crushing roller I (1-11), a crushing rod I (1-12), a crushing roller II (1-13), a crushing rod II (1-14), a rear-end slider (1-15), a rear-end sliding rod (1-16), a rear-end sliding rod push spring (1-17), a belt (1-18), an input belt wheel (1-19), a rectangular sliding block III (1-20), A rectangular sliding block four (1-21), an inner end push spring I (1-22), an inner end push spring II (1-23), an inner end clamp I (1-24) and an inner end clamp push spring I (1-25), wherein the rectangular sliding chute I (1-2) is arranged on the outer frame (1-1), the rectangular sliding block I (1-3) and the rectangular sliding block II (1-4) are both connected with the rectangular sliding chute I (1-2) in a sliding manner, the middle end rotary column I (1-5) and the middle end rotary column II (1-6) are respectively connected with the rectangular sliding block I (1-3) and the rectangular sliding block II (1-4) in a rotating manner, the hinge connecting rod I (1-7) is connected with the rectangular sliding block II (1-4) in a hinged manner, the hinge connecting rod I (1-7) is connected with the driving slider (1-9) in a hinged manner, and the driving slider (1-9) is connected with the outer frame (1, a hinged connecting rod II (1-8) is hinged with the driving slider (1-9), the hinged connecting rod II (1-8) is hinged with the rectangular sliding block I (1-3), the clamping groove I (1-10) is arranged on the outer frame (1-1), the inner end clamp I (1-24) is matched and connected with the clamping groove I (1-10), the inner end clamp I (1-24) is slidably connected with the driving slider (1-9), the inner end clamp I (1-24) is provided with two, the inner end clamp push spring I (1-25) is arranged between the two inner end clamp I (1-24), the crushing roller I (1-11) is fixedly connected with the middle end rotating column I (1-5), the crushing rod I (1-12) is slidably connected with the crushing roller I (1-11), and the inner end push spring I (1-22) is arranged between the crushing rod I (1-12) and the crushing roller I (1-11) ) A second crushing roller (1-13) is fixedly connected with a second middle-end rotating column (1-6), a second crushing rod (1-14) is slidably connected with the second crushing roller (1-13), a second inner-end pushing spring (1-23) is arranged between the second crushing rod (1-14) and the second crushing roller (1-13), the first middle-end rotating column (1-5) and the second middle-end rotating column (1-6) are respectively rotatably connected with a third rectangular sliding block (1-20) and a fourth rectangular sliding block (1-21), the third rectangular sliding block (1-20) and the fourth rectangular sliding block (1-21) are respectively slidably connected with an outer frame (1-1), a rear-end slider (1-15) is slidably connected with a rear-end sliding rod (1-16), and the rear-end sliding rod (1-16) is fixedly connected with the outer frame (1-1), the rear-end sliding rod push springs (1-17) are connected with the rear-end sliding rods (1-16) in a sleeved mode, the rear-end sliding rod push springs (1-17) are arranged between the rear-end sliders (1-15) and the rear-end sliding rods (1-16), belt wheels A are arranged on the rear-end sliders (1-15), belts (1-18) are connected with the belt wheels A, the middle-end rotating columns I (1-5), the middle-end rotating columns II (1-6) and the input belt wheels (1-19) in a matched mode, the input belt wheels (1-19) are connected with the outer frame (1-1) in a rotating mode, and the connecting belt (4) is connected with the input belt wheels (1-19) in a matched mode.

2. A decorative refuse handling apparatus according to claim 1, characterised in that: the separating component (2) comprises a separating outer frame (2-1), a through hole (2-2), a bevel gear I (2-3), a separating fan I (2-4), a separating fan II (2-5), a bevel gear II (2-6), a bevel gear III (2-7), a bevel gear IV (2-8), a connecting rod I (2-9), a bevel gear V (2-10), a separating fan I (2-11) with a bevel gear, a separating fan II (2-12) with a bevel gear, a connecting rod II (2-13), a bevel gear VI (2-14), a separating fan III (2-15) with a bevel gear, a separating fan IV (2-16) with a bevel gear and a bevel shell (2-17), the through hole (2-2) is arranged on the separating outer frame (2-1), and the bevel gear I (2-3) is rotationally connected with the separating outer frame (2-1), the separation fan I (2-4) is fixedly connected with the bevel gear I (2-3), the separation fan I (2-4) is rotatably connected with the separation outer frame (2-1), the bevel gear III (2-7) is in meshing transmission with the bevel gear I (2-3), the bevel gear II (2-6) is in meshing transmission with the bevel gear III (2-7), the bevel gear II (2-6) is rotatably connected with the separation outer frame (2-1), the separation fan II (2-5) is fixedly connected with the bevel gear II (2-6), the separation fan II (2-5) is rotatably connected with the separation outer frame (2-1), the separation fan II (2-5) is in matching connection with the separation fan I (2-4), and the bevel gear IV (2-8) is rotatably connected with the separation outer frame (2-1), four (2-8) of bevel teeth are in meshed transmission with a first (2-3) of bevel teeth and a second (2-6) of bevel teeth, a first (2-9) connecting rod is fixedly connected between the four (2-8) of bevel teeth and a fifth (2-10) of bevel teeth, a first (2-9) connecting rod is in rotary connection with a separating outer frame (2-1), a fifth (2-10) of bevel teeth is in meshed transmission with a first (2-11) separating fan with bevel teeth and a second (2-12) separating fan with bevel teeth, a first (2-11) separating fan with bevel teeth and a second (2-12) separating fan with bevel teeth are in rotary connection with the separating outer frame (2-1), a first (2-11) separating fan with bevel teeth is in matched connection with a second (2-12) separating fan with bevel teeth, a second (2-13) connecting rod is fixedly connected between a sixth (2-14) of bevel teeth and a third (2-7) of bevel teeth, the connecting rod II (2-13) is rotationally connected with the separating outer frame (2-1), the separating fan III (2-15) with the bevel gear and the separating fan IV (2-16) with the bevel gear are in meshing transmission with the bevel gear VI (2-14), the separating fan III (2-15) with the bevel gear and the separating fan IV (2-16) with the bevel gear are rotationally connected with the separating outer frame (2-1), the separating fan III (2-15) with the bevel gear is in matching connection with the separating fan IV (2-16) with the bevel gear, the input motor (3) is fixedly connected with the separating outer frame (2-1), the output shaft of the input motor (3) is fixedly connected with the bevel gear I (2-3), the outer frame (1-1) is fixedly connected and communicated with the separating outer frame (2-1), and the inclined shell (2-17) plays a role in isolating and decorating garbage, the damage to the separating fan caused by the decoration garbage is avoided, and meshes with the diameter of 5-10mm are arranged on the inclined plane shell (2-17) in the direction of the through hole (2-2).