CN111282648A - Processing apparatus of waste material for building - Google Patents

Abstract

The invention relates to the field of buildings, in particular to a treatment device for construction waste. The transmission ratio output by the first rotating shaft can be adjusted according to actual conditions; the grinding of the construction waste can be completed through the contact of the grinding plate at the inner end and the grinding plate I; the adjustment of the grinding effect of the construction waste can be achieved. Including the power supply assembly, grind the assembly, the delivery assembly, and a support, belt one, awl tooth two, belt two, simultaneously when construction waste material falls on the delivery belt, because the effect of construction waste material gravity, make the delivery belt produce the deformation, for guaranteeing the delivery speed of delivery belt, push away the promotion of two elasticity of spring through the traveller, make two along the two upside movements of delivery traveller, and then drive roller rotary column two and drive the roller three movements through two drives of delivery traveller, and then realize the compensation to the delivery belt deformation.

Description

Processing apparatus of waste material for building

Technical Field

The invention relates to the field of buildings, in particular to a treatment device for construction waste.

Background

The treatment device of the construction waste is a common device in the construction field, but the function of the treatment device of the general construction waste is single.

Disclosure of Invention

The invention aims to provide a treatment device for construction waste, which can adjust the transmission ratio output by a rotating shaft according to the actual situation; the grinding of the construction waste can be completed through the contact of the grinding plate at the inner end and the grinding plate I; the adjustment of the grinding effect of the construction waste can be achieved.

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

the utility model provides a processing apparatus of waste material for building, includes power supply assembly, grinds the assembly, delivery assembly, support, belt one, awl tooth two, belt two, the power supply assembly is connected with the grinding assembly, and the power supply assembly is connected with belt one, and awl tooth one is connected with the grinding assembly, and awl tooth one is connected with belt one cooperation, and awl tooth two meshes the transmission with awl tooth one, and awl tooth two is rotated with an end plate and is connected, and awl tooth two is connected with belt two cooperations, and the power supply assembly is connected with the support, and the delivery assembly is connected with the support.

As a further optimization of the technical scheme, the invention relates to a treatment device of waste materials for buildings, wherein a power source assembly comprises a bottom plate assembly, a first upper end support, a second upper end support, a first rotating shaft, a first arc-shaped rod, a middle end sleeve, a second arc-shaped rod, a first straight tooth, a second straight tooth, an input motor, a first inner arc-shaped rod, a second inner arc-shaped rod, a first inner end push spring and a second inner end push spring, wherein the first upper end support is fixedly connected with the bottom plate assembly, the second upper end support is fixedly connected with the bottom plate assembly, the first rotating shaft is rotatably connected with the second upper end support, the first arc-shaped rod is fixedly connected with the first rotating shaft, the first inner arc-shaped rod is matched and connected with the first arc-shaped rod, the first inner arc-shaped rod is connected with the second inner arc-shaped rod in a sleeved manner, the first inner end push spring and the second inner end push spring are both arranged, the inner side arc-shaped rod II is connected with the arc-shaped rod II in a matched mode, the arc-shaped rod II is rotatably connected with the upper end support, the straight tooth I is fixedly connected with the arc-shaped rod II, the straight tooth I is in meshed transmission with the straight tooth II, the straight tooth II is fixedly connected with the input motor, and the input motor is fixedly connected with the bottom plate assembly.

As a further optimization of the technical scheme, the invention relates to a device for treating construction waste, wherein a grinding assembly comprises a roller body, a rectangular boss, a first end plate, a first outlet, a first grinding roller, a rectangular sliding frame at the inner end, a rectangular sliding chute at the inner end, a rectangular block, a first sliding column at the inner end, a first middle rotating rod, a first grinding plate, a second sliding column at the inner end, a third pushing spring at the inner end, a fourth pushing spring at the inner end, a grinding plate at the inner end, a first hinged rod, a second hinged rod, a hinged sliding column, a first hinged pushing spring, a second end plate, a driving rotating rod, a third hinged rod, a limiting groove, a driving sliding rod, a support A, a clamp, a pushing spring, a feeding port and an upper roller, the rectangular boss is fixedly connected with the roller body, the first end plate is fixedly connected with the roller body, the first outlet is fixedly, the inner end rectangular sliding frame is connected with the inner end rectangular sliding groove in a sliding mode, the rectangular block is fixedly connected with the inner end rectangular sliding frame, an inner end sliding column I is connected with the inner end sliding column I in a sliding mode, a spring A is connected to the inner end sliding column I in a sleeved mode and is arranged between the inner end sliding column I and the inner end sliding column I, a middle end rotating rod I is connected with the inner end sliding column I in a rotating mode, an upper end roller is fixedly connected with the middle end rotating rod I, an inner end sliding column II is fixedly connected with the upper end roller, an inner end pushing spring III and an inner end pushing spring IV are arranged between the upper end roller and a grinding plate I, the grinding plate I is connected with the inner end sliding column II in a sliding mode, the hinged sliding column is fixedly connected with the grinding roller I, the hinged pushing spring I is connected with the hinged sliding column, the hinged sliding rod is connected with the hinged sliding column, the first hinge rod push spring is arranged on the first hinge rod, the grinding roller comprises a first grinding roller body, a first hinge rod, a second hinge rod, a first end plate, a second end plate, a driving rotating rod, a third hinge rod, a limiting groove, a driving sliding rod, a support A, a second end plate, a clamp, a push spring, a clamp push spring, a feed opening, a rectangular boss, a bottom plate assembly, a first bevel gear, a first belt, a first bevel gear, a second belt and a third belt, wherein the first hinge rod is connected with the first hinge rod in a sliding mode, the second hinge rod is connected with the second end plate in a sliding mode, the third hinge rod is connected with the driving rotating rod in a hinged mode, the limiting groove is fixedly connected with the second end plate, the driving sliding rod is connected with the third hinge rod in a hinged mode, the support A is fixedly connected with the second end plate, the clamp is connected with the support A in a sliding mode, the clamp push spring is.

As a further optimization of the technical scheme, the invention relates to a device for treating construction waste, which comprises a carrying belt, a carrying bracket, a carrying slider I, a roller rotating column I, a carrying slider I, a slider pushing spring I, a roller II, a roller III, a roller IV, a roller V, a carrying slider II, a slider pushing spring II and a roller rotating column II, wherein the roller I, the roller II, the roller III, the roller IV and the roller V are all rotationally connected with the carrying bracket, the carrying belt is connected with the roller I, the roller II, the roller III, the roller IV and the roller V, the roller rotating column I is fixedly connected with the roller I, the roller rotating column I is rotationally connected with the carrying slider I, the slider pushing spring I is connected with the carrying slider I in a sleeved mode, the roller V is rotationally connected with the carrying slider I, the roller rotating column II is fixedly connected with the roller III, the roller rotating column II is rotatably connected with the carrying sliding column II, the carrying sliding column II is slidably connected with the carrying sliding column II, the carrying sliding column II is fixedly connected with the carrying support, the sliding column push spring II is connected with the carrying sliding column II in a sleeved mode, the carrying support is fixedly connected with the support, and the roller rotating column I is connected with the belt II.

The treatment device for the construction waste has the beneficial effects that:

the invention relates to a device for treating construction waste, which is characterized in that when the construction waste falls on a carrying belt, the carrying belt is deformed under the action of gravity of the construction waste, in order to ensure the carrying speed of the carrying belt, a second carrying slider moves along a second carrying slider in an upward direction under the pushing of the elastic force of a second sliding column pushing spring, and then the second carrying slider drives a second roller rotating column and a third roller to move, so that the deformation compensation of the carrying belt is realized.

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 power source assembly of the present invention;

FIG. 4 is a schematic structural diagram of a power source assembly according to the present invention;

FIG. 5 is a first schematic view of a polishing assembly of the present invention;

FIG. 6 is a second schematic diagram of a polishing assembly according to the present invention;

FIG. 7 is a third schematic view of a polishing assembly of the present invention;

FIG. 8 is a fourth schematic view of the polishing assembly of the present invention;

FIG. 9 is a fifth schematic view of a polishing assembly of the present invention;

FIG. 10 is a sixth schematic view of a polishing assembly of the present invention;

FIG. 11 is a first schematic view of a carrier assembly according to the present invention;

fig. 12 is a schematic structural diagram of a carrying assembly of the present invention.

In the figure: a power source assembly 1; a bottom plate assembly 1-1; 1-2 of an upper end bracket; 1-3 of an upper end bracket II; 1-4 of a first rotating shaft; 1-5 of an arc-shaped rod I; 1-6 of middle-end sleeve; 1-7 of a second arc-shaped rod; 1-8 straight teeth I; 1-9 parts of straight teeth II; inputting motors 1-10; 1-11 parts of an inner arc rod; 1-12 parts of an inner arc rod II; the inner end pushes the spring 1-13; the inner end pushes a spring II 1-14; a polishing assembly 2; a roller body 2-1; 2-2 of a rectangular boss; 2-3 of an end plate I; an outlet I2-4; grinding roller one 2-5; inner end rectangular sliding frames 2-6; 2-7 of rectangular chutes at the inner ends; 2-8 of rectangular blocks; 2-9 of inner end sliding column; 2-10 of an inner end slider; 2-11 of a middle rotating rod; 2-13 parts of a grinding plate I; 2-14 of inner end sliding columns; the inner end pushes a spring III 2-15; the inner end of the push spring is four 2 to 16; inner end grinding plates 2-17; hinge rods one 2-18; hinge rod push spring 2-19; 2-20 parts of a second hinge rod; hinged sliding rods 2-21; hinged sliding columns 2-22; hinged push springs 2-23; 2-24 of a second end plate; driving the rotating rod 2-25; three hinge rods 2-26; 2-27 parts of limiting groove; driving the slide bar 2-28; bracket A2-29; 2-30 parts of clips; 2-31 parts of a clip push spring; 2-32 parts of a feeding port; upper end rollers 2-33; the carrying assembly 3; a carrier belt 3-1; a carrying bracket 3-2; 3-3 of a carrying slider I; 3-4 of roller rotating column I; 3-5 of a carrying sliding column I; 3-6 of a sliding column push spring; 3-7 parts of a first roller; 3-8 parts of a second roller; 3-9 parts of a roller; roller four 3-10; 3-11 parts of a roller; carrying a slider II 3-12; carrying sliding columns II 3-13; a sliding column pushing spring II 3-14; 3-15 parts of roller rotating column II; a bracket 4; a first belt 5; a first bevel gear 6; a second bevel gear 7; and a second belt 8.

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, 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 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 present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and a device for processing construction waste includes a power source assembly 1, a grinding assembly 2, a carrying assembly 3, a support 4, a first belt 5, a first bevel gear 6, a second bevel gear 7, and a second belt 8, where the power source assembly 1 is connected to the grinding assembly 2, the power source assembly 1 is connected to the first belt 5, the first bevel gear 6 is connected to the grinding assembly 2, the first bevel gear 6 is connected to the first belt 5, the second bevel gear 7 is in meshing transmission with the first bevel gear 6, the second bevel gear 7 is rotatably connected to the first end plate 2-3, the second bevel gear 7 is connected to the second belt 8, the power source assembly 1 is connected to the support 4, and the carrying assembly 3 is connected to the support 4.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the embodiment further describes an embodiment, where the power source assembly 1 includes a bottom plate assembly 1-1, a first upper end bracket 1-2, a second upper end bracket 1-3, a first rotating shaft 1-4, a first arc rod 1-5, a middle end sleeve 1-6, a second arc rod 1-7, a first straight tooth 1-8, a second straight tooth 1-9, an input motor 1-10, a first inner arc rod 1-11, a second inner arc rod 1-12, a first inner push spring 1-13, and a second inner push spring 1-14, where the first upper end bracket 1-2 is fixedly connected to the bottom plate assembly 1-1, and the second upper end bracket 1-3 is fixedly connected to the bottom plate assembly 1-1, the rotating shaft I1-4 is rotatably connected with the upper end support II 1-3, the arc-shaped rod I1-5 is fixedly connected with the rotating shaft I1-4, the inner side arc-shaped rod I1-11 is connected with the arc-shaped rod I1-5 in a matching way, the inner side arc-shaped rod I1-11 is connected with the inner side arc-shaped rod II 1-12 in a sleeving way, the inner side push spring I1-13 and the inner side push spring II 1-14 are respectively arranged between the inner side arc-shaped rod I1-11 and the inner side arc-shaped rod II 1-12, the inner side push spring I1-13 and the inner side push spring II 1-14 are both in a compressed state, the inner side arc-shaped rod II 1-12 is connected with the arc-shaped rod II 1-7 in a matching way, the arc-shaped rod II 1-7 is rotatably connected with the upper end support I1-2, the straight tooth I1-8 is fixedly connected with the arc-shaped, the straight teeth II 1-9 are fixedly connected with the input motor 1-10, and the input motor 1-10 is fixedly connected with the bottom plate assembly 1-1.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the embodiment further describes an embodiment, where the grinding assembly 2 includes a roller body 2-1, a rectangular boss 2-2, an end plate one 2-3, an outlet one 2-4, a grinding roller one 2-5, an inner end rectangular sliding frame 2-6, an inner end rectangular sliding slot 2-7, a rectangular block 2-8, an inner end sliding column one 2-9, an inner end sliding column one 2-10, a middle end rotating rod one 2-11, a grinding plate one 2-13, an inner end sliding column two 2-14, an inner end push spring three 2-15, an inner end push spring four 2-16, an inner end grinding plate 2-17, a hinge rod one 2-18, a hinge rod push spring one 2-19, a rod two 2-20, and a, 2-21 parts of hinged sliding rod, 2-22 parts of hinged sliding column, 2-23 parts of hinged pushing spring, 2-24 parts of end plate, 2-25 parts of driving rotating rod, 2-26 parts of hinged rod, 2-27 parts of limiting groove, 2-28 parts of driving sliding rod, 2-29 parts of support, 2-30 parts of clamp, 2-31 parts of clamp pushing spring, 2-32 parts of feeding port, 2-33 parts of upper end roller, 2-2 parts of rectangular boss, 2-1 parts of roller body, 2-3 parts of end plate, 2-1 parts of roller body, 2-4 parts of outlet, 2-3 parts of end plate, 2-5 parts of grinding roller, 2-3 parts of end plate, 2-7 parts of inner end rectangular sliding groove, 2-6 parts of inner end rectangular sliding frame, 2-7 parts of inner end rectangular sliding groove, the rectangular block 2-8 is fixedly connected with the inner end rectangular sliding frame 2-6, the inner end sliding column I2-9 is fixedly connected with the inner end rectangular sliding frame 2-6, the inner end sliding sub I2-10 is slidably connected with the inner end sliding column I2-9, the inner end sliding column I2-9 is connected with a spring A in a sleeved mode, the spring A is arranged between the inner end sliding sub I2-10 and the inner end sliding column I2-9, the middle end rotating rod I2-11 is rotatably connected with the inner end sliding sub I2-10, the upper end roller I2-33 is fixedly connected with the middle end rotating rod I2-11, the inner end sliding column II 2-14 is fixedly connected with the upper end roller I2-33, the inner end pushing spring III 2-15 and the inner end pushing spring IV 2-16 are arranged between the upper end roller I2-33 and the grinding plate I2-13, the grinding plate I2-13 is slidably connected with the inner end sliding column II 2-14, the hinged sliding columns 2-22 are fixedly connected with the first grinding roller 2-5, the hinged push springs 2-23 are connected with the hinged sliding columns 2-22 in a sleeved mode, the hinged sliding rods 2-21 are connected with the hinged sliding columns 2-22 in a sliding mode, the hinged sliding rods 2-21 are connected with the inner end grinding plates 2-17 in a hinged mode, the inner end grinding plates 2-17 are connected with the hinged rods 2-18 in a hinged mode, the hinged rod push springs 2-19 are arranged between the hinged rods 2-18 and the hinged rods 2-20, the hinged rods 2-20 are connected with the hinged rods 2-18 in a sliding mode, the hinged rods 2-20 are connected with the first grinding roller 2-5 in a hinged mode, the end plates 2-24 are fixedly connected with the end plates 2-1, the driving rotating rods 2-25 are connected with the end plates 2-24 in a rotating mode, the hinged rods three 2-26 are connected with the driving rotating rods 2-25 in a hinged mode, the limiting groove 2-27 is fixedly connected with the end plate II 2-24, the driving slide rod 2-28 is hinged with the hinge rod III 2-26, the support A2-29 is fixedly connected with the end plate II 2-24, the clamp 2-30 is connected with the support A2-29 in a sliding manner, the clamp push spring 2-31 is connected with the clamp 2-30 in a sleeved manner, the clamp 2-30 is connected with the driving rotating rod 2-25 in a matched manner, the feed opening 2-32 is arranged on the roller body 2-1, the rectangular boss 2-2 is fixedly connected with the bottom plate assembly 1-1, the conical tooth I6 is fixedly connected with the grinding roller I2-5, the rotating shaft I1-4 is connected with the belt I5 in a matched manner, the conical tooth I6 is connected with the belt I5 in a matched manner, the conical tooth II 7 is in meshed transmission with the conical tooth I6, and the conical tooth II 7 is rotatably connected, the second bevel gear 7 is connected with the second belt 8 in a matching mode.

The fourth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, the present embodiment further describes the first embodiment, wherein the carrying assembly 3 includes a carrying belt 3-1, a carrying frame 3-2, a carrying slide I3-3, a roller rotating column I3-4, a carrying slide I3-5, a slide pushing spring I3-6, a roller I3-7, a roller II 3-8, a roller III 3-9, a roller IV 3-10, a roller V3-11, a carrying slide II 3-12, a carrying slide II 3-13, a slide pushing spring II 3-14, a roller rotating column II 3-15, a roller I3-7, a roller II 3-8, a roller III 3-9, a roller IV 3-10, and a roller V3-11, which are rotatably connected to the carrying frame 3-2, the carrier belt 3-1 is connected with the roller I3-7, the roller II 3-8, the roller III 3-9, the roller IV 3-10 and the roller V3-11, the roller rotating column I3-4 is fixedly connected with the roller I3-7, the roller rotating column I3-4 is rotatably connected with the carrier sliding column I3-3, the carrier sliding column I3-3 is slidably connected with the carrier sliding column I3-5, the sliding column push spring I3-6 is connected with the carrier sliding column I3-5 in a sleeved mode, the roller V3-11 is rotatably connected with the carrier sliding column I3-3, the roller rotating column II 3-15 is fixedly connected with the roller III 3-9, the roller rotating column II 3-15 is rotatably connected with the carrier sliding column II 3-12, the carrier sliding column II 3-12 is slidably connected with the carrier sliding column II 3-13, a second carrying sliding column 3-13 is fixedly connected with a second carrying bracket 3-2, a second sliding column pushing spring 3-14 is in sleeve connection with the second carrying sliding column 3-13, the second carrying bracket 3-2 is fixedly connected with a bracket 4, and a first roller rotating column 3-4 is connected with a second belt 8;

the carrying of the construction waste is realized through the carrying belt 3-1, meanwhile, when the construction waste falls on the carrying belt 3-1, the carrying belt 3-1 deforms under the action of gravity of the construction waste, in order to guarantee the carrying speed of the carrying belt 3-1, the carrying slider II 3-12 moves upwards along the carrying slider II 3-13 through the pushing of the elastic force of the sliding column pushing spring II 3-14, the roller rotating column II 3-15 is driven through the carrying slider II 3-12, the roller III 3-9 is driven to move, and the compensation of the deformation of the carrying belt 3-1 is realized.

The invention relates to a treatment device for construction waste, which has the working principle that: when the device is used, the input motor 1-10 is started, the straight teeth II 1-9 are driven to rotate, the straight teeth I1-8 are driven to rotate, the arc-shaped rods II 1-7 are driven to rotate, the arc-shaped rods I1-5 are driven to rotate through the inner arc-shaped rods II 1-12 and the inner arc-shaped rods I1-11, the rotating shafts I1-4 are driven to rotate, and power output is performed; the transmission ratio output through the rotating shaft I1-4 can be adjusted according to actual conditions, the middle-end sleeve 1-6 is manually rotated, the transmission positions of the inner side arc-shaped rod I1-11 and the inner side arc-shaped rod II 1-12 in the arc-shaped rod II 1-7 and the arc-shaped rod I1-5 are respectively generated through the driving of the middle-end sleeve 1-6, and then the ratio of the distances from the transmission positions of the inner side arc-shaped rod I1-11 and the inner side arc-shaped rod II 1-12 in the arc-shaped rod II 1-7 and the arc-shaped rod I1-5 to the rotating axis of the rotating shaft I1-4 is changed, so that the transmission ratio output through the rotating shaft I1-4 is changed; building waste to be treated is thrown into the roller body 2-1 through the feeding port 2-32, the rotating shaft 1-4 rotates at the same time, the belt 5 drives the bevel gear 6 to rotate, the grinding roller 2-5 rotates, the grinding roller 2-5 drives the inner end grinding plate 2-17 to move, and the inner end grinding plate 2-17 is contacted with the grinding plate 2-13 to complete grinding of the building waste; the grinding effect of the grinding assembly 2 on the construction waste can be adjusted according to actual conditions, the driving rotating rods 2-25 are manually rotated, the driving sliding rods 2-28 are driven to slide in the limiting grooves 2-27 through the three hinged rods 2-26, and then the end rectangular sliding frames 2-6 are driven to slide at the inner ends of the inner end rectangular sliding grooves 2-7 through the driving of the driving sliding rods 2-28, so that the diameter of the construction waste between the inner end grinding plates 2-17 and the first grinding plates 2-13 can be adapted to change, and the grinding effect of the construction waste can be adjusted; the ground construction waste falls onto a carrying belt 3-1 through an outlet I2-4, simultaneously when a bevel gear I6 rotates, a bevel gear II 7 rotates, a roller rotating column I3-4 rotates through a belt II 8, a roller I3-7 rotates, a carrying belt 3-1 is driven to move, carrying of the construction waste is achieved through the carrying belt 3-1, simultaneously when the construction waste falls onto the carrying belt 3-1, the carrying belt 3-1 deforms under the action of gravity of the construction waste, in order to guarantee carrying speed of the carrying belt 3-1, a carrying slider II 3-12 moves upwards along a carrying slider II 3-13 through pushing of a slider II 3-14, and a roller rotating column II 3-15 is driven through the carrying slider II 3-12 and drives a roller III 3-9 to carry And further realizing the compensation of the deformation of the carrier belt 3-1.

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 (4)

1. The utility model provides a processing apparatus of waste material for building, includes power supply assembly (1), grinds assembly (2), delivery assembly (3), support (4), belt (5), awl tooth (6), awl tooth two (7), belt two (8), its characterized in that: the grinding machine is characterized in that the power source assembly (1) is connected with the grinding assembly (2), the power source assembly (1) is connected with the first belt (5), the first bevel gear (6) is connected with the grinding assembly (2), the first bevel gear (6) is connected with the first belt (5) in a matched mode, the second bevel gear (7) is in meshed transmission with the first bevel gear (6), the second bevel gear (7) is rotatably connected with the first end plate (2-3), the second bevel gear (7) is connected with the second belt (8) in a matched mode, the power source assembly (1) is connected with the support (4), and the carrying assembly (3) is connected with the support (4).

2. The apparatus for treating construction waste according to claim 1, wherein: the power source assembly (1) comprises a bottom plate assembly (1-1), an upper end support I (1-2), an upper end support II (1-3), a rotating shaft I (1-4), an arc rod I (1-5), a middle end sleeve (1-6), an arc rod II (1-7), a straight tooth I (1-8), a straight tooth II (1-9), an input motor (1-10), an inner side arc rod I (1-11), an inner side arc rod II (1-12), an inner end push spring I (1-13) and an inner end push spring II (1-14), wherein the upper end support I (1-2) is fixedly connected with the bottom plate assembly (1-1), the upper end support II (1-3) is fixedly connected with the bottom plate assembly (1-1), the rotating shaft I (1-4) is rotatably connected with the upper end support II (1-3), the first arc-shaped rod (1-5) is fixedly connected with the first rotating shaft (1-4), the first inner arc-shaped rod (1-11) is connected with the first arc-shaped rod (1-5) in a matching way, the first inner arc-shaped rod (1-11) is connected with the second inner arc-shaped rod (1-12) in a sleeving way, the first inner push spring (1-13) and the second inner push spring (1-14) are arranged between the first inner arc-shaped rod (1-11) and the second inner arc-shaped rod (1-12), the first inner push spring (1-13) and the second inner push spring (1-14) are in a compressed state, the second inner arc-shaped rod (1-12) is connected with the second arc-shaped rod (1-7) in a matching way, the second arc-shaped rod (1-7) is rotatably connected with the first upper end bracket (1-2), the first straight tooth (1-8) is fixedly connected with the second arc-shaped rod, the first straight teeth (1-8) are in meshing transmission with the second straight teeth (1-9), the second straight teeth (1-9) are fixedly connected with the input motor (1-10), and the input motor (1-10) is fixedly connected with the bottom plate assembly (1-1).

3. The apparatus for treating construction waste according to claim 1, wherein: the grinding assembly (2) comprises a roller body (2-1), a rectangular boss (2-2), an end plate I (2-3), an outlet I (2-4), a grinding roller I (2-5), an inner end rectangular sliding frame (2-6), an inner end rectangular sliding groove (2-7), a rectangular block (2-8), an inner end sliding column I (2-9), an inner end sliding column I (2-10), a middle end rotating rod I (2-11), a grinding plate I (2-13), an inner end sliding column II (2-14), an inner end pushing spring III (2-15), an inner end pushing spring IV (2-16), an inner end grinding plate (2-17), a hinge rod I (2-18), a hinge rod pushing spring I (2-19), a hinge rod II (2-20), a hinge sliding rod (2-21), Hinged sliding columns (2-22), hinged push springs (2-23), end plates (2-24), driving rotating rods (2-25), hinged rods (2-26), limiting grooves (2-27), driving sliding rods (2-28), supports A (2-29), clamps (2-30), clamp push springs (2-31), material inlets (2-32) and upper end rollers (2-33), rectangular bosses (2-2) are fixedly connected with roller bodies (2-1), end plates (2-3) are fixedly connected with the roller bodies (2-1), outlets (2-4) are fixedly connected with end plates (2-3), grinding rollers (2-5) are rotatably connected with the end plates (2-3), inner end rectangular sliding grooves (2-7) are arranged on the roller bodies (2-1), an inner end rectangular sliding frame (2-6) is connected with an inner end rectangular sliding chute (2-7) in a sliding manner, a rectangular block (2-8) is fixedly connected with the inner end rectangular sliding frame (2-6), an inner end sliding column I (2-9) is fixedly connected with the inner end rectangular sliding frame (2-6), an inner end sliding column I (2-10) is connected with the inner end sliding column I (2-9) in a sliding manner, a spring A is connected to the inner end sliding column I (2-9) in a sleeved manner, the spring A is arranged between the inner end sliding column I (2-10) and the inner end sliding column I (2-9), a middle end rotating rod I (2-11) is connected with the inner end sliding column I (2-10) in a rotating manner, an upper end roller (2-33) is fixedly connected with the middle end rotating rod I (2-11), and an inner end sliding column II (2-14) is fixedly connected with an upper end roller (2-33), an inner end pushing spring III (2-15) and an inner end pushing spring IV (2-16) are respectively arranged between an upper end roller (2-33) and a grinding plate I (2-13), the grinding plate I (2-13) is in sliding connection with an inner end sliding column II (2-14), a hinged sliding column (2-22) is fixedly connected with a grinding roller I (2-5), a hinged pushing spring I (2-23) is in sleeve connection with the hinged sliding column (2-22), a hinged sliding rod (2-21) is in sliding connection with the hinged sliding column (2-22), the hinged sliding rod (2-21) is in hinged connection with an inner end grinding plate (2-17), an inner end grinding plate (2-17) is in hinged connection with a hinged rod I (2-18), a hinged rod pushing spring I (2-19) is arranged between the hinged rod I (2-18) and the hinged rod II (2-20), the second hinged rod (2-20) is connected with the first hinged rod (2-18) in a sliding manner, the second hinged rod (2-20) is hinged with the first grinding roller (2-5), the second end plate (2-24) is fixedly connected with the roller body (2-1), the driving rotating rod (2-25) is rotatably connected with the second end plate (2-24), the third hinged rod (2-26) is hinged with the driving rotating rod (2-25), the limiting groove (2-27) is fixedly connected with the second end plate (2-24), the driving sliding rod (2-28) is hinged with the third hinged rod (2-26), the support A (2-29) is fixedly connected with the second end plate (2-24), the clamp (2-30) is connected with the support A (2-29) in a sliding manner, the clamp push spring (2-31) is connected with the clamp (2-30) in a sleeved manner, the clamp (2-30) is connected with the driving rotating rod (2-25) in a matched mode, the feeding port (2-32) is arranged on the roller body (2-1), the rectangular boss (2-2) is fixedly connected with the bottom plate assembly (1-1), the bevel gear I (6) is fixedly connected with the grinding roller I (2-5), the rotating shaft I (1-4) is connected with the belt I (5) in a matched mode, the bevel gear I (6) is connected with the belt I (5) in a matched mode, the bevel gear II (7) is in meshed transmission with the bevel gear I (6), the bevel gear II (7) is connected with the end plate I (2-3) in a rotating mode, and the bevel gear II (7) is connected with the belt II (8) in a matched mode.

4. The apparatus for treating construction waste according to claim 1, wherein: the carrying combination body (3) comprises a carrying belt (3-1), a carrying support (3-2), a carrying slider I (3-3), a roller rotating column I (3-4), a carrying slider I (3-5), a slider pushing spring I (3-6), a roller I (3-7), a roller II (3-8), a roller III (3-9), a roller IV (3-10), a roller V (3-11), a carrying slider II (3-12), a carrying slider II (3-13), a slider pushing spring II (3-14), a roller rotating column II (3-15), a roller I (3-7), a roller II (3-8), a roller III (3-9), a roller IV (3-10) and a roller V (3-11) which are all rotationally connected with the carrying support (3-2), the carrier belt (3-1) is connected with the first roller (3-7), the second roller (3-8), the third roller (3-9), the fourth roller (3-10) and the fifth roller (3-11), the first roller rotating column (3-4) is fixedly connected with the first roller (3-7), the first roller rotating column (3-4) is rotatably connected with the first carrier slider (3-3), the first carrier slider (3-3) is slidably connected with the first carrier slider (3-5), the first slider pushing spring (3-6) is sleeved with the first carrier slider (3-5), the fifth roller (3-11) is rotatably connected with the first carrier slider (3-3), the second roller rotating column (3-15) is fixedly connected with the third roller (3-9), the second roller rotating column (3-15) is rotatably connected with the second carrier slider (3-12), the second carrying slider (3-12) is connected with the second carrying sliding column (3-13) in a sliding mode, the second carrying sliding column (3-13) is fixedly connected with the carrying support (3-2), the second sliding column push spring (3-14) is connected with the second carrying sliding column (3-13) in a sleeved mode, the carrying support (3-2) is fixedly connected with the support (4), and the first roller rotating column (3-4) is connected with the second belt (8).

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