CN110756257A

CN110756257A - Hardware waste recovery device

Info

Publication number: CN110756257A
Application number: CN201911069234.0A
Authority: CN
Inventors: 王井祥; 严正亮
Original assignee: 王井祥
Current assignee: Guangxi yunsiwei renewable resources Co.,Ltd.
Priority date: 2019-11-05
Filing date: 2019-11-05
Publication date: 2020-02-07
Anticipated expiration: 2039-11-05
Also published as: CN110756257B

Abstract

The invention relates to the field of hardware, in particular to a hardware waste recovery device which can crush hardware wastes with different specifications by matching a roller assembly with a crushing outer frame; the conveying of the hardware waste is realized through the carrying assembly, and the adaptive adjustment of the feeding efficiency is automatically completed; can be through adjusting combination adjusting device's rate of processing, including the roller combination, smash the frame, the delivery combination, adjust the combination, driving belt one, driving belt two, manual promotion is the inner rectangle piece, change the position of use of drive slide bar through the inner rectangle piece, and then change the position of use of middle-end driving roller at transmission conical roller one and transmission conical roller two through the drive slide bar, and then make the rotational speed of transmission conical roller two change, when the position of use of middle-end driving roller changes, push away the spring through the cooperation slide bar and promote the cooperation slide bar and contact with transmission conical roller one and transmission conical roller two.

Description

Hardware waste recovery device

Technical Field

The invention relates to the field of hardware, in particular to a hardware waste recovery device.

Background

Hardware waste recovery device is a device commonly used in the hardware field, but general hardware waste recovery device can only handle the hardware waste of fixed specification.

Disclosure of Invention

The invention aims to provide a hardware waste recovery device which can crush hardware wastes with different specifications by matching a roller assembly with a crushing outer frame; the conveying of the hardware waste is realized through the carrying assembly, and the adaptive adjustment of the feeding efficiency is automatically completed; the processing rate of the device can be adjusted by adjusting the assembly.

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

the utility model provides a five metals waste recovery device, includes the roller assembly, smashes frame, delivery assembly, adjusts assembly, driving belt one, driving belt two, its characterized in that: the roller assembly is connected with the crushing outer frame, the carrying assembly is connected with the crushing outer frame, the adjusting assembly is connected with the carrying assembly, the first transmission belt is connected with the adjusting assembly, and the second transmission belt is connected with the roller assembly and the crushing outer frame.

As a further optimization of the technical scheme, the invention provides a hardware waste recovery device, wherein a roller assembly comprises a roller body, a rectangular hollowed groove, an inner end hinged column I, a side wall sliding groove I, an inner end sliding column II, an inner end sliding column III, an inner end hinged column II, a crushing rod I, a crushing rod II, a crushing rod III, a connecting sliding rod I, a connecting sliding rod II, a middle end sliding rod I, a sliding rod pushing spring I, a middle end sliding rod II and a sliding rod pushing spring II, wherein the rectangular hollowed groove is connected with the roller body, the inner end hinged column I is connected with the roller body, the side wall sliding groove I is connected with the roller body, the inner end sliding column III is connected with the roller body, the inner end hinged column II is connected with the roller body, the crushing rod I is connected with the inner end sliding column I, the crushing rod II is connected with the inner end sliding column II, the inner end sliding column III is connected with the crushing rod III, the connecting sliding rod I is connected with the crushing rod I and the crushing rod II, the connecting sliding rod II is connected with the crushing rod I and the crushing rod III, the middle end sliding piece I is connected with the connecting sliding rod I, the middle end sliding piece II is connected with the connecting sliding rod II, the sliding piece pushing spring I is connected with the middle end sliding piece I, the sliding piece pushing spring I is connected with the connecting sliding rod I, the sliding piece pushing spring II is connected with the middle end sliding piece II, the sliding piece pushing spring II is connected with the connecting sliding rod II, the inner end hinging column I is connected with the middle end sliding piece I, and the inner end hinging column II is connected with the middle end sliding piece II.

As a further optimization of the technical scheme, the invention relates to a hardware waste recycling device, wherein the smashing outer frame comprises a rectangular outer frame, an arc-shaped cavity, a rectangular through hole, a rectangular sleeve, a side wall rectangular sliding groove, a hinge rod A, a first rotating roller, a second rotating roller, a fan-shaped hollow cavity, a first annular sliding groove, a second annular sliding groove, a first bevel gear shaft, a first transmission bevel gear, a second bevel gear shaft and a material separation slider, the rectangular outer frame is connected with the arc-shaped cavity, the rectangular through hole is connected with the rectangular outer frame, the arc-shaped cavity is connected with the rectangular through hole, the rectangular sleeve is connected with the rectangular outer frame, the side wall rectangular sliding groove is connected with the rectangular sleeve, the hinge rod A is connected with the rectangular outer frame, the first rotating roller is connected with the rectangular sleeve, the second rotating roller is connected with the hinge rod A, and the fan-, the first annular chute and the second annular chute are connected with the first rotating roller, the material separating slider is connected with the rectangular chute on the side wall, the material separating slider is connected with the first annular chute and the second annular chute, the second bevel gear shaft is connected with the rectangular outer frame, the second bevel gear shaft is connected with the second transmission bevel gear, the second transmission bevel gear is connected with the first transmission bevel gear, the first transmission bevel gear is connected with the first bevel gear shaft, the first bevel gear shaft is connected with the rectangular outer frame, the first bevel gear shaft and the second bevel gear shaft are connected with the roller body, and the second transmission belt is connected with the second bevel gear shaft and the first rotating roller.

As a further optimization of the technical scheme, the hardware waste recycling device comprises a carrying assembly, a bottom frame, a middle-end support rod, a middle-end sliding column, a side-wall rectangular hollow groove, a clamping groove I, a middle-end rotating rod, a roller rotating column I, a middle-end connecting rod I, a bearing outer frame, a rectangular conveying hole, a rotating column I, a rotating column II, a pressing sliding rod I, a sliding clamping rod, a clamping rod pushing spring I, a balance weight rod, a balance weight clamping rod pushing spring, a rectangular sliding block, a tensioning slider pushing spring, a conveying belt, a belt roller I, a roller driving shaft, a belt roller II, a hinged connecting rod I, a hinged connecting rod II, a closing rod, an auxiliary transverse sliding rod, an auxiliary vertical sliding rod, a matching clamping table, an inner-end rotating roller A and an auxiliary transverse pushing spring, wherein the bottom frame is connected with the middle-end support rod, the side-wall rectangular hollow groove is connected with the bottom frame, a clamping groove I is connected with the side wall rectangular hollow groove, a middle end connecting rod I is connected with a middle end supporting rod, a middle end rotating rod is connected with a middle end connecting rod I, a roller rotating column I is connected with the middle end connecting rod I, the middle end connecting rod I is connected with the bearing outer frame, a rectangular material conveying hole is connected with the bearing outer frame, a rotating column I and a rotating column II are connected with the bearing outer frame, a pressing sliding rod I is connected with the side wall rectangular hollow groove, a sliding clamping rod I is connected with the pressing sliding rod I, a clamping rod pushing spring I is connected with the sliding clamping rod, a matching clamping platform is connected with the sliding clamping rod I, a rectangular sliding block is connected with the clamping groove I, a rectangular sliding block is connected with the middle end rotating rod, a counterweight clamping rod is connected with the counterweight rod, a counterweight clamping rod pushing spring is connected with the counterweight clamping rod, a tensioning slider is connected with the middle end sliding column, a tensioning slider pushing spring, the first belt roller is connected with a first belt roller rotating column, the second belt roller is connected with a second belt roller, the second belt roller is connected with a roller driving shaft, the roller driving shaft is connected with a middle end rotating rod, the first hinge connecting rod is connected with the middle end rotating rod, the second hinge connecting rod is connected with the first hinge connecting rod, the second hinge connecting rod is connected with a bearing outer frame, the second hinge connecting rod is connected with a closing rod, the closing rod is connected with an auxiliary vertical sliding rod, the auxiliary vertical sliding rod is connected with an auxiliary transverse sliding rod, the auxiliary transverse sliding rod is connected with the bearing outer frame, an auxiliary transverse push spring is connected with the auxiliary transverse sliding rod, an inner rotating roller A is connected with the first rotating column and the second rotating column, the bearing outer frame is connected with a rectangular outer frame, and the first transmission belt is connected with a roller driving shaft and.

As a further optimization of the technical scheme, the invention relates to a hardware waste recycling device, which comprises an adjusting bottom plate, a first connecting shaft, a middle-end hinged rod, a middle-end fixed rod, a middle-end rotary column, an upper-end clamping groove, an input motor, an input straight tooth, a first transmission conical roller, a middle-end transmission roller, a second transmission conical roller, a driving sliding rod, an inner-end rectangular block, a clamping rod A, a clamping rod pushing spring A, a matching sliding rod pushing spring and a matching sliding rod sliding column, wherein the first connecting shaft is connected with the adjusting bottom plate, the middle-end hinged rod is connected with the adjusting bottom plate, the middle-end fixed rod is connected with the adjusting bottom plate, the middle-end rotary column is connected with the middle-end fixed rod, the upper-end clamping groove is connected with the middle-end fixed rod, the input motor is connected with the adjusting bottom plate, the input straight tooth is connected with the input motor, the, the first transmission conical roller is connected with the middle-end hinged rod, the first matching sliding rod is connected with the first transmission conical roller, the matching sliding rod is connected with a second transmission conical roller, the middle-end transmission roller is connected with the middle-end rotary column, the matching sliding rod sliding column is connected with the middle-end rotary column, the matching sliding rod push spring is connected with the matching sliding rod sliding column, the driving sliding rod is connected with the middle-end transmission roller, the inner rectangular block is connected with the driving sliding rod, the clamping rod A is connected with the inner rectangular block, the clamping rod A is connected with the upper end clamping groove, the clamping rod push spring A is connected with the clamping rod A, the first connecting shaft is connected with the second transmission conical roller, the adjusting bottom plate is connected with the rectangular outer frame, the first connecting shaft is connected with the second conical gear shaft, the first transmission belt is connected with the.

The hardware waste recovery device has the beneficial effects that:

the invention relates to a hardware waste recovery device, which is characterized in that an inner end rectangular block is manually pushed, the use position of a driving slide rod is changed through the inner end rectangular block, the use positions of a middle end driving roller on a first transmission conical roller and a second transmission conical roller are changed through the driving slide rod, the rotating speed of the second transmission conical roller is changed, and when the use position of the middle end driving roller is changed, a matching slide rod is pushed by a matching slide rod push spring to be in contact with the first transmission conical roller and the second transmission conical roller, so that transmission failure between the middle end driving roller and the first transmission conical roller and the second transmission conical roller is avoided.

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 roller assembly of the present invention;

FIG. 4 is a second schematic view of the roller assembly of the present invention;

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

FIG. 6 is a fourth schematic view of the roller assembly of the present invention;

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

FIG. 8 is a first schematic view of the outer crushing frame according to the present invention;

FIG. 9 is a schematic view of the outer crushing frame of the present invention;

FIG. 10 is a third schematic view of the outer crushing frame according to the present invention;

FIG. 11 is a fourth schematic structural view of the crushing outer frame of the present invention;

FIG. 12 is a schematic view showing the structure of the crushing outer frame of the present invention;

FIG. 13 is a sixth schematic view of the outer crushing frame of the present invention;

FIG. 14 is a first schematic view of a carrier assembly according to the present invention;

FIG. 15 is a schematic view of a second embodiment of the carrier assembly of the present invention;

FIG. 16 is a third schematic view of the carrier assembly of the present invention;

FIG. 17 is a fourth schematic view of the carrier assembly of the present invention;

FIG. 18 is a fifth schematic view of the carrier assembly of the present invention;

FIG. 19 is a sixth schematic view of the carrier assembly of the present invention;

FIG. 20 is a seventh schematic structural view of the carrier assembly of the present invention;

FIG. 21 is a schematic view eight of the carrier assembly of the present invention;

FIG. 22 is a first schematic view of the adjusting assembly of the present invention;

FIG. 23 is a second schematic view of the adjusting assembly of the present invention;

FIG. 24 is a third schematic view of the adjusting assembly of the present invention;

FIG. 25 is a fourth schematic view of the adjustment assembly of the present invention;

fig. 26 is a fifth structural diagram of the adjusting assembly of the present invention.

In the figure: a roller assembly 1; a roller body 1-1; a rectangular hollow groove 1-2; the inner end of the hinge column I is 1-3; 1-4 side wall chutes; 1-5 of inner end sliding columns; 1-6 inner end sliding columns; inner end sliding columns III 1-7; the inner end of the hinge column II is 1-8; 1-9 parts of a crushing rod I; 1-10 parts of a second crushing rod; crushing rods III 1-11; connecting the first sliding rod 1 to 12; connecting a second sliding rod 1-13; 1-14 of a middle slider; 1-15 parts of a slider push spring; 1-16 of a middle slider II; a slider push spring II 1-17; crushing the outer frame 2; a rectangular outer frame 2-1; an arc-shaped chamber 2-2; 2-3 of a rectangular through hole; 2-4 of a rectangular sleeve; 2-5 side wall rectangular chutes; hinge lever a 2-6; rotating the first roller 2-7; 2-8 of a second rotating roller; 2-9 of a fan-shaped hollow cavity; 2-10 of a first annular chute; 2-11 parts of an annular chute II; 2-12 parts of a bevel gear shaft I; 2-13 of a transmission bevel gear I; 2-14 parts of a second transmission bevel gear; 2-15 parts of a bevel gear shaft II; 2-16 parts of material separation slider; the carrying assembly 3; a chassis 3-1; 3-2 of middle-end supporting rod; 3-3 of a middle sliding column; 3-4 of rectangular hollow grooves on the side walls; 3-5 of a first clamping groove; 3-6 of a middle rotating rod; 3-7 of roller rotating column I; 3-8 of a middle connecting rod I; carrying the outer frame 3-9; 3-10 rectangular material conveying holes; 3-11 of a first rotating column; 3-12 of a second rotary column; pressing the first sliding rod 3-13; 3-14 of a sliding clamping rod; a clamping rod push spring I is 3-15; a counterweight rod 3-16; 3-17 of a counterweight clamping rod; 3-18 parts of a counterweight clamping rod push spring; 3-19 of a rectangular sliding block; 3-20 parts of tensioning slider; tensioning slider push springs 3-21; 3-22 parts of a material conveying belt; 3-23 parts of a first belt roller; roller drive shafts 3-24; a second belt roller 3-25; 3-26 of a first hinge connecting rod; a second hinge connecting rod 3-27; closing rods 3-28; auxiliary transverse sliding rods 3-29; 3-30 parts of auxiliary vertical sliding rod; matching with the clamping table 3-31; inner end turning rollers a 3-32; auxiliary transverse pushing springs 3-33; the adjusting assembly 4; adjusting the bottom plate 4-1; a first connecting shaft 4-2; a middle-end hinge rod 4-3; 4-4 parts of a middle end fixing rod; 4-5 of a middle-end rotating column; 4-6 of an upper end clamping groove; inputting a motor 4-7; inputting straight teeth 4-8; 4-9 of a transmission straight tooth I; 4-10 of a transmission conical roller I; 4-11 of middle-end driving rollers; 4-12 of a second transmission conical roller; driving the sliding rod 4-13; inner end rectangular blocks 4-14; a clamping rod A4-15; the clamping rod pushing spring A4-16; matching with a sliding rod 4-17; 4-18 of push spring matched with the sliding rod; matching with sliding rods and sliding columns 4-19; a first transmission belt 5; and a second transmission belt 6.

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 welding; fixing by means of thread fixing and the like, and using different fixing modes by combining 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; the hinge is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 26, and a hardware waste recycling device includes a roller assembly 1, a crushing outer frame 2, a carrying assembly 3, an adjusting assembly 4, a first transmission belt 5, and a second transmission belt 6, and is characterized in that: the roller assembly 1 is connected with the crushing outer frame 2, the carrying assembly 3 is connected with the crushing outer frame 2, the adjusting assembly 4 is connected with the carrying assembly 3, the first transmission belt 5 is connected with the adjusting assembly 4, and the second transmission belt 6 is connected with the roller assembly 1 and the crushing outer frame 2.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 26, and the present embodiment further describes the first embodiment, where the roller assembly 1 includes a roller body 1-1, a rectangular hollow groove 1-2, an inner end hinge post 1-3, a side wall sliding groove 1-4, an inner end sliding post 1-5, an inner end sliding post two 1-6, an inner end sliding post three 1-7, an inner end hinge post two 1-8, a crushing rod one 1-9, a crushing rod two 1-10, a crushing rod three 1-11, a connecting sliding rod one 1-12, a connecting sliding rod two 1-13, a middle end sliding post one 1-14, a slider push spring one 1-15, a middle end sliding post two 1-16, and a slider push spring two 1-17, the rectangular hollow groove 1-2 is connected to the roller body 1-1, and the inner end sliding post one 1-3 is connected to the roller body 1-1, the side wall sliding chutes I1-4 are connected with the roller body 1-1, the inner end sliding columns I1-5 are connected with the roller body 1-1, the inner end sliding columns II 1-6 are connected with the roller body 1-1, the inner end sliding columns III 1-7 are connected with the roller body 1-1, the inner end hinge columns II 1-8 are connected with the roller body 1-1, the crushing rods I1-9 are connected with the inner end sliding columns I1-5, the crushing rods II 1-10 are connected with the inner end sliding columns II 1-6, the inner end sliding columns III 1-7 are connected with the crushing rods III 1-11, the connecting sliding rods I1-12 are connected with the crushing rods I1-9 and the crushing rods II 1-10, the connecting sliding rods II 1-13 are connected with the crushing rods I1-9 and the crushing rods III 1-11, the first middle-end sliders 1-14 are connected with the first connecting sliding rods 1-12, the second middle-end sliders 1-16 are connected with the second connecting sliding rods 1-13, the first slider pushing springs 1-15 are connected with the first middle-end sliders 1-14, the first slider pushing springs 1-15 are connected with the first connecting sliding rods 1-12, the second slider pushing springs 1-17 are connected with the second middle-end sliders 1-16, the second slider pushing springs 1-17 are connected with the second connecting sliding rods 1-13, the first inner-end hinge columns 1-3 are connected with the first middle-end sliders 1-14, and the second inner-end hinge columns 1-8 are connected with the second middle-end sliders 1-16.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 26, and the embodiment further describes the first embodiment, wherein the outer crushing frame 2 comprises a rectangular outer frame 2-1, an arc-shaped chamber 2-2, a rectangular through hole 2-3, a rectangular sleeve 2-4, a side wall rectangular chute 2-5, a hinge rod a2-6, a first rotating roller 2-7, a second rotating roller 2-8, a sector hollow cavity 2-9, a first annular chute 2-10, a second annular chute 2-11, a first bevel gear shaft 2-12, a first transmission bevel gear 2-13, a second transmission bevel gear 2-14, a second bevel gear shaft 2-15 and a material isolating slider 2-16, the rectangular outer frame 2-1 is connected with the arc-shaped chamber 2-2, and the rectangular through hole 2-3 is connected with the rectangular outer frame 2-1, the arc-shaped chamber 2-2 is connected with the rectangular through hole 2-3, the rectangular sleeve 2-4 is connected with the rectangular outer frame 2-1, the side wall rectangular sliding groove 2-5 is connected with the rectangular sleeve 2-4, the hinge rod A2-6 is connected with the rectangular outer frame 2-1, the rotating roller I2-7 is connected with the rectangular sleeve 2-4, the rotating roller II 2-8 is connected with the hinge rod A2-6, the fan-shaped hollow cavity 2-9 is connected with the rotating roller II 2-8, the annular sliding groove I2-10, the annular sliding groove II 2-11 is connected with the rotating roller I2-7, the material isolating slider 2-16 is connected with the side wall rectangular sliding groove 2-5, the material isolating slider 2-16 is connected with the annular sliding groove I2-10, The second annular sliding chute 2-11 is connected, the second conical gear shaft 2-15 is connected with the rectangular outer frame 2-1, the second conical gear shaft 2-15 is connected with the second transmission conical gear 2-14, the second transmission conical gear 2-14 is connected with the first transmission conical gear 2-13, the first transmission conical gear 2-13 is connected with the first conical gear shaft 2-12, the first conical gear shaft 2-12 is connected with the rectangular outer frame 2-1, the first conical gear shaft 2-12 and the second conical gear shaft 2-15 are connected with the roller body 1-1, and the second transmission belt 6 is connected with the second conical gear shaft 2-15 and the first rotating roller 2-7.

The fourth concrete implementation mode:

the first embodiment is further described with reference to fig. 1-26, and the carrying assembly 3 includes a bottom frame 3-1, a middle support rod 3-2, a middle slide post 3-3, a side wall rectangular hollow groove 3-4, a slot I3-5, a middle rotary rod 3-6, a roller rotary post I3-7, a middle connecting rod I3-8, a bearing outer frame 3-9, a rectangular material conveying hole 3-10, a rotary post I3-11, a rotary post II 3-12, a pressing slide rod I3-13, a sliding clamping rod 3-14, a clamping rod pushing spring I3-15, a balance weight rod 3-16, a balance weight clamping rod 3-17, a balance weight clamping rod pushing spring 3-18, a rectangular sliding block 3-19, a tensioning slide 3-20, and a tensioning slide pushing spring 3-21, 3-22 parts of a material conveying belt, 3-23 parts of a belt roller I, 3-24 parts of a roller driving shaft, 3-25 parts of a belt roller II, 3-26 parts of a hinged connecting rod I, 3-27 parts of a hinged connecting rod II, 3-28 parts of a closing rod, 3-29 parts of an auxiliary transverse sliding rod, 3-30 parts of an auxiliary vertical sliding rod, 3-31 parts of a matching clamping table, 3-32 parts of an inner end rotating roller A3-32 and 3-33 parts of an auxiliary transverse pushing spring, 3-1 parts of a bottom frame is connected with a middle end supporting rod 3-2, 3-3 parts of a middle end sliding column is connected with a middle end supporting rod 3-2, 3-4 parts of a side wall rectangular hollow groove is connected with the bottom frame 3-1, 3-5 parts of a clamping groove I is connected with 3-4 parts of a side wall rectangular hollow groove I, 3-8 parts of a middle end connecting rod I, the roller rotary column I3-7 is connected with the middle end connecting rod I3-8, the middle end connecting rod I3-8 is connected with the bearing outer frame 3-9, the rectangular material conveying hole 3-10 is connected with the bearing outer frame 3-9, the rotary column I3-11 and the rotary column II 3-12 are connected with the bearing outer frame 3-9, the pressing slide rod I3-13 is connected with the side wall rectangular hollow groove 3-4, the sliding clamping rod 3-14 is connected with the pressing slide rod I3-13, the clamping rod pushing spring I3-15 is connected with the sliding clamping rod 3-14, the matching clamping platform 3-31 is connected with the clamping groove I3-5, the rectangular sliding block 3-19 is connected with the balance weight rod 3-16, the rectangular sliding block 3-19 is connected with the middle end rotary rod 3-6, the balance weight clamping rod 3-17 is connected with the balance weight rod 3-16, the balance weight clamping rod push spring 3-18 is connected with the balance weight clamping rod 3-17, the tensioning slider 3-20 is connected with the middle end sliding column 3-3, the tensioning slider push spring 3-21 is connected with the tensioning slider 3-20, the belt roller I3-23 is connected with the conveying belt 3-22, the belt roller I3-23 is connected with the roller rotating column I3-7, the conveying belt 3-22 is connected with the belt roller II 3-25, the belt roller II 3-25 is connected with the roller driving shaft 3-24, the roller driving shaft 3-24 is connected with the middle end rotating rod 3-6, the hinge connecting rod I3-26 is connected with the middle end rotating rod 3-6, the second hinged connecting rod 3-27 is connected with the first hinged connecting rod 3-26, the second hinged connecting rod 3-27 is connected with the bearing outer frame 3-9, the second hinged connecting rod 3-27 is connected with the closing rod 3-28, the closing rod 3-28 is connected with the auxiliary vertical sliding rod 3-30, the auxiliary vertical sliding rod 3-30 is connected with the auxiliary transverse sliding rod 3-29, the auxiliary transverse sliding rod 3-29 is connected with the bearing outer frame 3-9, the auxiliary transverse pushing spring 3-33 is connected with the auxiliary transverse sliding rod 3-29, the inner rotary roller A3-32 is connected with the first rotary column 3-11 and the second rotary column 3-12, the bearing outer frame 3-9 is connected with the rectangular outer frame 2-1, the first transmission belt 5 is connected with the roller driving shaft 3-24, the tensioning sliders 3-20 are connected;

the pressing slide rods 3-13 can be manually pushed according to the feeding efficiency of the device for adjusting the actual situation, so that the sliding clamping rods 3-14 drive the matching clamping tables 3-31 to transversely slide in the clamping grooves 3-5, the using positions of the balance weights 3-16 on the middle-end rotating rods 3-6 are changed by pressing the slide rods 3-13, the torque generated by the resistance arms is changed, the torque generated by the gravity of the hardware waste at the right ends of the middle-end rotating rods 3-6 is changed, the feeding efficiency is adjusted, and balance weights with certain mass are arranged between the balance weight clamping rods 3-17.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 26, and the embodiment further describes the first embodiment, where the adjusting assembly 4 includes an adjusting bottom plate 4-1, a connecting shaft i 4-2, a middle end hinge rod 4-3, a middle end fixing rod 4-4, a middle end rotary column 4-5, an upper end slot 4-6, an input motor 4-7, an input straight tooth 4-8, a transmission straight tooth i 4-9, a transmission conical roller i 4-10, a middle end transmission roller i 4-11, a transmission conical roller i 4-12, a driving slide rod 4-13, an inner end rectangular block 4-14, a clamping rod a4-15, a clamping rod push spring a4-16, a matching slide rod 4-17, a matching slide rod push spring 4-18, a matching slide rod slide column 4-19, and a connecting shaft i 4-2 connected to the adjusting bottom plate 4-1, the middle end hinged rod 4-3 is connected with the adjusting bottom plate 4-1, the middle end fixing rod 4-4 is connected with the adjusting bottom plate 4-1, the middle end rotary column 4-5 is connected with the middle end fixing rod 4-4, the upper end clamping groove 4-6 is connected with the middle end fixing rod 4-4, the input motor 4-7 is connected with the adjusting bottom plate 4-1, the input straight tooth 4-8 is connected with the input motor 4-7, the transmission straight tooth I4-9 is connected with the input straight tooth 4-8, the transmission straight tooth I4-9 is connected with the transmission conical roller I4-10, the transmission conical roller I4-10 is connected with the middle end hinged rod 4-3, the matching slide rod 4-17 is connected with the transmission conical roller I4-10, the matching slide rod 4-17 is connected with the transmission conical roller II 4-12, a middle-end driving roller 4-11 is connected with a middle-end rotating column 4-5, a matching slide rod sliding column 4-19 is connected with the middle-end rotating column 4-5, a matching slide rod push spring 4-18 is connected with the matching slide rod sliding column 4-19, a driving slide rod 4-13 is connected with the middle-end driving roller 4-11, an inner-end rectangular block 4-14 is connected with the driving slide rod 4-13, a clamping rod A4-15 is connected with an inner-end rectangular block 4-14, a clamping rod A4-15 is connected with an upper-end clamping groove 4-6, a clamping rod push spring A4-16 is connected with a clamping rod A4-15, a connecting shaft I4-2 is connected with a driving conical roller II 4-12, an adjusting bottom plate 4-1 is connected with a rectangular outer frame 2-1, and a connecting shaft I4-2 is connected with a conical gear shaft II 2-, the transmission belt I5 is connected with the transmission conical roller II 4-12, and the driving slide bar 4-13 is connected with the middle end fixing rod 4-4;

the inner end rectangular blocks 4-14 are manually pushed, the using positions of the driving sliding rods 4-13 are changed through the inner end rectangular blocks 4-14, the using positions of the middle end driving rollers 4-11 on the transmission conical rollers 4-10 and the transmission conical rollers 4-12 are changed through the driving sliding rods 4-13, the rotating speed of the transmission conical rollers 4-12 is changed, when the using positions of the middle end driving rollers 4-11 are changed, the matching sliding rods 4-17 are pushed to be in contact with the transmission conical rollers 4-10 and the transmission conical rollers 4-12 through matching with the sliding rod push springs 4-18, and transmission failure between the middle end driving rollers 4-11 and the transmission conical rollers 4-10 and the transmission conical rollers 4-12 is avoided.

The invention relates to a hardware waste recovery device, which has the working principle that:

when in use, the hardware waste to be treated is poured into the device from the upper end of the crushing outer frame 2, the input motor 4-7 is started, the input straight teeth 4-8 are driven to rotate by the input motor 4-7, the transmission conical roller 4-10 is driven to rotate by the meshing transmission of the input straight teeth 4-8 and the transmission straight teeth 4-9, the transmission conical roller 4-10 rotates and drives the middle-end transmission roller 4-11 to rotate by the matching slide rod 4-17, the middle-end transmission roller 4-11 rotates and drives the transmission conical roller two 4-12 to rotate by the other matching slide rod 4-17, and drives the connecting shaft one 4-2 to rotate, and further drives the conical gear shaft two 2-15 to rotate, further drives the transmission conical gear two 2-14 to rotate, further drives the conical gear shaft one 2-12 to rotate by the transmission conical gear one 2-13, thereby driving the roller body 1-1 to rotate, further driving the crushing rods I1-9, the crushing rods II 1-10 and the crushing rods III 1-11 on the roller body 1-1 to rotate, through the contact of the first crushing rod 1-9, the second crushing rod 1-10 and the third crushing rod 1-11 with the waste of the hardware, the crushing of the hardware waste is finished through the extrusion of the crushing rod I1-9, the crushing rod II 1-10, the crushing rod III 1-11 and the arc-shaped chamber 2-2 to the hardware waste, when the crushing rod II 1-10 and the hardware waste are extruded, the crushing rod I1-9 and the crushing rod III 1-11 are driven to contact with the hardware waste through the connecting slide rod I1-12 and the connecting slide rod II 1-13, so that the hardware waste is prevented from slipping in the crushing process; the broken hardware waste materials fall through the rectangular through holes 2-3, some hardware waste materials fall into the rectangular sleeve 2-4 through the rectangular through holes 2-3, in order to prevent blockage, when the bevel gear shaft II 2-15 rotates, the driving belt II 6 drives the rotating roller I2-7 to rotate, the annular sliding groove I2-10 on the rotating roller I2-7 and the annular sliding groove II 2-11 drive the material separating slider 2-16 to slide back and forth along the rectangular sliding groove 2-5 on the side wall, and the accumulated hardware waste materials are shifted through the material separating slider 2-16, so that the hardware waste materials can fall conveniently; the crushed hardware waste falls into the bearing outer frame 3-9 through the crushing outer frame 2, the hardware waste is enabled to leak out along the rectangular conveying holes 3-10 on the bearing outer frame 3-9 under the action of the inner rotating rollers A3-32 in the bearing outer frame 3-9 and the gravity of the hardware waste, when the transmission conical rollers II 4-12 rotate, the transmission belt I5 drives the roller driving shafts 3-24 to rotate, the belt rollers II 3-25 to rotate, the conveying belts 3-22 to rotate, and the conveying belts 3-22 are contacted with the hardware waste to finish the transportation of the hardware waste; when too much hardware waste falls on the material conveying belts 3-22, the right end of the middle rotating rod 3-6 is turned downwards under the action of the gravity of the hardware waste, the middle rotating rod 3-6 drives the hinge connecting rod two 3-27 to drive the closing rod 3-28 to block the rectangular material conveying hole 3-10 through the hinge connecting rod one 3-26 to prevent the hardware waste from falling, and when the mass of the right end of the middle rotating rod 3-6 is reduced, the closing rod 3-28 is driven reversely through the hinge connecting rod one 3-26 and the hinge connecting rod two 3-27 to drive the closing rod 3-28, so that the closing rod 3-28 is separated from the rectangular material conveying hole 3-10 to enable the hardware waste to fall again, and the feeding efficiency of the device is increased while the protection of the material conveying belts 3-22 is completed; the push slide rods 3-13 can be manually pushed according to the feeding efficiency of the adjusting device in actual conditions, so that the slide clamping rods 3-14 drive the matched clamping tables 3-31 to transversely slide in the clamping grooves 3-5, the use positions of the balance weight rods 3-16 on the middle end rotating rods 3-6 are changed by pushing the slide rods 3-13, the torque generated by the resistance arms is changed, the torque generated by the gravity of the hardware waste at the right ends of the middle end rotating rods 3-6 is changed, the feeding efficiency is adjusted, and balance weight blocks with certain mass are arranged between the balance weight clamping rods 3-17; the inner end rectangular blocks 4-14 are manually pushed, the using positions of the driving sliding rods 4-13 are changed through the inner end rectangular blocks 4-14, the using positions of the middle end driving rollers 4-11 on the transmission conical rollers 4-10 and the transmission conical rollers 4-12 are changed through the driving sliding rods 4-13, the rotating speed of the transmission conical rollers 4-12 is changed, when the using positions of the middle end driving rollers 4-11 are changed, the matching sliding rods 4-17 are pushed to be in contact with the transmission conical rollers 4-10 and the transmission conical rollers 4-12 through matching with the sliding rod push springs 4-18, and transmission failure between the middle end driving rollers 4-11 and the transmission conical rollers 4-10 and the transmission conical rollers 4-12 is avoided.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations can be made by those skilled in the art within the spirit and scope of the present invention; modifying; and the addition or the replacement also belongs to the protection scope of the invention.

Claims

1. The utility model provides a five metals waste recovery device, includes roller assembly (1), smashes frame (2), delivery assembly (3), adjusts assembly (4), driving belt (5), driving belt two (6), its characterized in that: the roller assembly (1) is connected with the crushing outer frame (2), the carrying assembly (3) is connected with the crushing outer frame (2), the adjusting assembly (4) is connected with the carrying assembly (3), the first transmission belt (5) is connected with the adjusting assembly (4), and the second transmission belt (6) is connected with the roller assembly (1) and the crushing outer frame (2).

2. The hardware waste recycling device according to claim 1, characterized in that: the roller assembly (1) comprises a roller body (1-1), a rectangular hollow groove (1-2), an inner end hinge column I (1-3), a side wall sliding groove I (1-4), an inner end sliding column I (1-5), an inner end sliding column II (1-6), an inner end sliding column III (1-7), an inner end hinge column II (1-8), a crushing rod I (1-9), a crushing rod II (1-10), a crushing rod III (1-11), a connecting sliding rod I (1-12), a connecting sliding rod II (1-13), a middle end sliding rod I (1-14), a sliding rod pushing spring I (1-15), a middle end sliding rod II (1-16) and a sliding rod pushing spring II (1-17), wherein the rectangular hollow groove (1-2) is connected with the roller body (1-1), the inner end hinge pillar I (1-3) is connected with the roller body (1-1), the side wall sliding groove I (1-4) is connected with the roller body (1-1), the inner end sliding pillar I (1-5) is connected with the roller body (1-1), the inner end sliding pillar II (1-6) is connected with the roller body (1-1), the inner end sliding pillar III (1-7) is connected with the roller body (1-1), the inner end hinge pillar II (1-8) is connected with the roller body (1-1), the crushing rod I (1-9) is connected with the inner end sliding pillar I (1-5), the crushing rod II (1-10) is connected with the inner end sliding pillar II (1-6), the inner end sliding pillar III (1-7) is connected with the crushing rod III (1-11), the connecting sliding rod I (1-12) is connected with the crushing rod I (1-9), A crushing rod II (1-10) is connected, a connecting slide rod II (1-13) is connected with a crushing rod I (1-9) and a crushing rod III (1-11), a middle end slider I (1-14) is connected with a connecting slide rod I (1-12), a middle end slider II (1-16) is connected with a connecting slide rod II (1-13), a slider push spring I (1-15) is connected with a middle end slider I (1-14), a slider push spring I (1-15) is connected with a connecting slide rod I (1-12), a slider push spring II (1-17) is connected with a middle end slider II (1-16), a slider push spring II (1-17) is connected with a connecting slide rod II (1-13), an inner end hinged column I (1-3) is connected with a middle end slider I (1-14), the inner end hinged column II (1-8) is connected with the middle end slider II (1-16).

3. The hardware waste recycling device according to claim 1, characterized in that: the crushing outer frame (2) comprises a rectangular outer frame (2-1), an arc-shaped cavity (2-2), a rectangular through hole (2-3), a rectangular sleeve (2-4), a side wall rectangular sliding groove (2-5), a hinge rod A (2-6), a first rotating roller (2-7), a second rotating roller (2-8), a fan-shaped hollow cavity (2-9), a first annular sliding groove (2-10), a second annular sliding groove (2-11), a first bevel gear shaft (2-12), a first transmission bevel gear (2-13), a second transmission bevel gear (2-14), a second bevel gear shaft (2-15) and a material isolating slider (2-16), wherein the rectangular outer frame (2-1) is connected with the arc-shaped cavity (2-2), and the rectangular through hole (2-3) is connected with the rectangular outer frame (2-1), the arc-shaped chamber (2-2) is connected with the rectangular through hole (2-3), the rectangular sleeve (2-4) is connected with the rectangular outer frame (2-1), the side wall rectangular sliding groove (2-5) is connected with the rectangular sleeve (2-4), the hinge rod A (2-6) is connected with the rectangular outer frame (2-1), the rotary roller I (2-7) is connected with the rectangular sleeve (2-4), the rotary roller II (2-8) is connected with the hinge rod A (2-6), the fan-shaped hollow cavity (2-9) is connected with the rotary roller II (2-8), the annular sliding groove I (2-10) and the annular sliding groove II (2-11) are connected with the rotary roller I (2-7), the material separating slider (2-16) is connected with the rectangular sliding chute (2-5) on the side wall, the material separating slider (2-16) is connected with the annular sliding chute I (2-10) and the annular sliding chute II (2-11), the bevel gear shaft II (2-15) is connected with the rectangular outer frame (2-1), the bevel gear shaft II (2-15) is connected with the transmission bevel gear II (2-14), the transmission bevel gear II (2-14) is connected with the transmission bevel gear I (2-13), the transmission bevel gear I (2-13) is connected with the bevel gear shaft I (2-12), the bevel gear shaft I (2-12) is connected with the rectangular outer frame (2-1), the bevel gear shaft I (2-12) and the bevel gear shaft II (2-15) are connected with the roller body (1-1), and the transmission belt II (6) is connected with the bevel gear shaft II (2-15), The first rotating rollers (2-7) are connected.

4. The hardware waste recycling device according to claim 1, characterized in that: the carrying assembly (3) comprises an underframe (3-1), a middle-end support rod (3-2), a middle-end sliding column (3-3), a side-wall rectangular hollow groove (3-4), a clamping groove I (3-5), a middle-end rotating rod (3-6), a roller rotating column I (3-7), a middle-end connecting rod I (3-8), a bearing outer frame (3-9), a rectangular material conveying hole (3-10), a rotating column I (3-11), a rotating column II (3-12), a pressing sliding rod I (3-13), a sliding clamping rod (3-14), a clamping rod pushing spring I (3-15), a counterweight rod (3-16), a counterweight clamping rod (3-17), a counterweight clamping rod pushing spring I (3-18), a rectangular sliding block (3-19), a tensioning sliding block (3-20), A tensioning slider push spring (3-21), a material conveying belt (3-22), a belt roller I (3-23), a roller driving shaft (3-24), a belt roller II (3-25), a hinged connecting rod I (3-26), a hinged connecting rod II (3-27), a closing rod (3-28), an auxiliary transverse sliding rod (3-29), an auxiliary vertical sliding rod (3-30), a matching clamping table (3-31), an inner end rotating roller A (3-32) and an auxiliary transverse push spring (3-33), wherein an underframe (3-1) is connected with a middle end supporting rod (3-2), a middle end sliding column (3-3) is connected with a middle end supporting rod (3-2), a side wall rectangular hollow groove (3-4) is connected with the underframe (3-1), a clamping groove I (3-5) is connected with the side wall rectangular hollow groove (3-4), a middle end connecting rod I (3-8) is connected with a middle end supporting rod (3-2), a middle end rotating rod (3-6) is connected with the middle end connecting rod I (3-8), a roller rotating column I (3-7) is connected with the middle end connecting rod I (3-8), the middle end connecting rod I (3-8) is connected with a bearing outer frame (3-9), a rectangular material conveying hole (3-10) is connected with the bearing outer frame (3-9), a rotating column I (3-11) and a rotating column II (3-12) are connected with the bearing outer frame (3-9), a pressing sliding rod I (3-13) is connected with a side wall rectangular hollow groove (3-4), a sliding clamping rod I (3-14) is connected with the pressing sliding rod I (3-13), a clamping rod pushing spring I (3-15) is connected with the sliding clamping rod I (3-14), the matching clamping table (3-31) is connected with a sliding clamping rod (3-14), the matching clamping table (3-31) is connected with a clamping groove I (3-5), the rectangular sliding block (3-19) is connected with a balance weight rod (3-16), the rectangular sliding block (3-19) is connected with a middle end rotating rod (3-6), a balance weight clamping rod (3-17) is connected with the balance weight rod (3-16), a balance weight clamping rod push spring (3-18) is connected with the balance weight clamping rod (3-17), a tensioning slider (3-20) is connected with a middle end sliding column (3-3), a tensioning slider push spring (3-21) is connected with a tensioning slider (3-20), a belt roller I (3-23) is connected with a material conveying belt (3-22), a belt roller I (3-23) is connected with a roller rotary column I (3-7), a material conveying belt (3-22) is connected with a belt roller II (3-25), the belt roller II (3-25) is connected with a roller driving shaft (3-24), the roller driving shaft (3-24) is connected with a middle end rotary rod (3-6), a hinge connecting rod I (3-26) is connected with the middle end rotary rod (3-6), a hinge connecting rod II (3-27) is connected with the hinge connecting rod I (3-26), the hinge connecting rod II (3-27) is connected with a bearing outer frame (3-9), the hinge connecting rod II (3-27) is connected with a closing rod (3-28), the closing rod (3-28) is connected with an auxiliary vertical sliding rod (3-30), the auxiliary vertical sliding rod (3-30) is connected with an auxiliary transverse sliding rod (3-29), the auxiliary transverse sliding rods (3-29) are connected with the bearing outer frames (3-9), the auxiliary transverse push springs (3-33) are connected with the auxiliary transverse sliding rods (3-29), the inner end rotating rollers A (3-32) are connected with the first rotating columns (3-11) and the second rotating columns (3-12), the bearing outer frames (3-9) are connected with the rectangular outer frames (2-1), and the first transmission belts (5) are connected with the roller driving shafts (3-24) and the tensioning sliders (3-20).

5. The hardware waste recycling device according to claim 1, characterized in that: the adjusting assembly (4) comprises an adjusting base plate (4-1), a connecting shaft I (4-2), a middle-end hinged rod (4-3), a middle-end fixing rod (4-4), a middle-end rotary column (4-5), an upper-end clamping groove (4-6), an input motor (4-7), input straight teeth (4-8), transmission straight teeth I (4-9), transmission conical rollers I (4-10), a middle-end transmission roller (4-11), transmission conical rollers II (4-12), a driving sliding rod (4-13), inner-end rectangular blocks (4-14), clamping rods A (4-15), clamping rod pushing springs A (4-16), a matching sliding rod (4-17), a matching sliding rod pushing spring (4-18) and a matching sliding rod sliding column (4-19), wherein the connecting shaft I (4-2) is connected with the adjusting base plate (4-1), the middle-end hinged rod (4-3) is connected with the adjusting base plate (4-1), the middle-end fixed rod (4-4) is connected with the adjusting base plate (4-1), the middle-end rotary column (4-5) is connected with the middle-end fixed rod (4-4), the upper-end clamping groove (4-6) is connected with the middle-end fixed rod (4-4), the input motor (4-7) is connected with the adjusting base plate (4-1), the input straight tooth (4-8) is connected with the input motor (4-7), the transmission straight tooth (4-9) is connected with the input straight tooth (4-8), the transmission straight tooth (4-9) is connected with the transmission conical roller (4-10), the transmission conical roller (4-10) is connected with the middle-end hinged rod (4-3), the matching slide rod (4-17) is connected with the transmission conical roller (4-10), a matching slide rod (4-17) is connected with a second transmission conical roller (4-12), a middle-end transmission roller (4-11) is connected with a middle-end rotating column (4-5), a matching slide rod sliding column (4-19) is connected with the middle-end rotating column (4-5), a matching slide rod push spring (4-18) is connected with the matching slide rod sliding column (4-19), a driving slide rod (4-13) is connected with the middle-end transmission roller (4-11), an inner-end rectangular block (4-14) is connected with the driving slide rod (4-13), a clamping rod A (4-15) is connected with an inner-end rectangular block (4-14), a clamping rod A (4-15) is connected with an upper-end clamping groove (4-6), a clamping rod push spring A (4-16) is connected with a clamping rod A (4-15), a first transmission conical roller (4-2) is connected with the second transmission conical roller (4-12), the adjusting bottom plate (4-1) is connected with the rectangular outer frame (2-1), the connecting shaft I (4-2) is connected with the bevel gear shaft II (2-15), the transmission belt I (5) is connected with the transmission conical roller II (4-12), and the driving slide rod (4-13) is connected with the middle end fixing rod (4-4).