CN112456325A - Energy-concerving and environment-protective construction waste normal position advanced treatment equipment - Google Patents

Abstract

The invention discloses energy-saving and environment-friendly building waste in-situ advanced treatment equipment which comprises a support frame, a pulley, a winding wheel and a traction rope, wherein the pulley is fixedly arranged on the bottom surface of the support frame, a limiting groove is formed in the outer surface of the top end of the support frame, a limiting block is arranged in the limiting groove and penetrates through the limiting groove, a support telescopic mechanism and the winding wheel are arranged between the support frames, the traction rope is wound on the winding wheel, and the bottom end of the traction rope is fixedly connected with a waste traction mechanism. This energy-concerving and environment-protective construction waste material normal position advanced treatment equipment is carrying out the in-process that uses, and staff's accessible removes to the pulling of stopper and supports telescopic machanism inside positioning work, conveniently carries out suitable regulation work to supporting telescopic machanism holistic length, is favorable to the device to adapt to the pot hole of different diameters.

Description

Energy-concerving and environment-protective construction waste normal position advanced treatment equipment

Technical Field

The invention relates to the technical field of buildings, in particular to an energy-saving and environment-friendly in-situ advanced treatment device for construction waste.

Background

The building mainly refers to a building constructed manually, so that the daily life and other requirements of people are met, in the process of constructing the building, different devices and tools are required, for example, when a collecting device for treating underground building waste in a building area is required, the underground waste is extracted, the situation that the subsequent construction work is influenced due to the fact that the waste is accumulated underground is avoided, and the conventional energy-saving and environment-friendly in-situ deep treatment equipment for the building waste still has the following problems;

1. in the using process, the whole device generally cannot be subjected to proper width adjustment, so that proper alignment work cannot be carried out according to the diameter of the pit hole, or the device can be searched on one side, the whole stability is not high, the phenomena of shaking and inclination are easy to generate, and the subsequent processing work is influenced;

2. after the process of collecting and processing the construction waste inside the pot hole, the subsequent waste extraction work of collecting and completing is not convenient enough, or is controlled through other electronic equipment, so that the overall normal cost and energy loss are improved, and the energy-saving and environment-friendly effects are not facilitated.

Therefore, we propose an energy-saving and environment-friendly in-situ advanced treatment device for construction waste so as to solve the problems proposed in the above.

Disclosure of Invention

The invention aims to provide energy-saving and environment-friendly construction waste in-situ advanced treatment equipment, and aims to solve the problems that in the using process of the energy-saving and environment-friendly construction waste in-situ advanced treatment equipment in the prior market, the whole device cannot be subjected to proper width adjustment generally, so that proper alignment work cannot be performed according to the diameter of a pit hole, or the whole device cannot be searched on one side, so that the stability of the whole device is low, the phenomena of shaking and inclining are easily generated, and the subsequent treatment work is influenced.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an energy-concerving and environment-protective construction waste normal position degree of depth treatment facility, includes support frame, pulley, rolling wheel and haulage rope, the bottom surface fixed mounting of support frame has the pulley, and the top surface of support frame has seted up the spacing groove to the internally mounted of spacing groove has the stopper, and the stopper passes the spacing groove simultaneously, install between the support frame and support telescopic machanism and rolling wheel, and the winding takes turns to and twines and install the haulage rope to the bottom and the waste material drive mechanism fixed connection of haulage rope.

Preferably, the support telescopic mechanism comprises a support column, a connecting sleeve, a containing hole, a positioning hole, a limiting column, a containing groove, a connecting spring, a positioning block, a steel wire, a fixing shaft, a through hole and a fixing gear, the support column is connected with the top end of the support frame in a rotating mode, the connecting sleeve is installed outside one end of the support column in a sleeved mode, the connecting sleeve is arranged inside the connecting sleeve, the containing hole and the positioning hole are formed in the connecting sleeve, the limiting column is installed inside the containing hole and fixedly connected with one end of the support column, the containing groove is formed in the limiting column, the connecting spring and the positioning block are installed inside the containing groove respectively, the connecting spring is fixedly connected with the positioning block, the positioning block penetrates through the outer surface of the limiting column and is connected with the positioning hole, a steel wire is fixedly installed at the center of the positioning block, and, The through hole and the support column are connected with the center of the limiting block, the through hole is formed in the center of the limiting column, the fixing shaft is arranged inside the through hole and fixedly connected with the inner wall of the limiting column, and the fixing gear is welded to the outer surface of the support column.

Preferably, the support columns are symmetrically distributed about the longitudinal center line of the connecting sleeve, and the support columns are connected with the connecting sleeve in a sliding manner.

Preferably, the connection mode of the limiting column through the accommodating hole and the connecting sleeve is sliding connection, and the side view of the limiting column is a regular hexagon.

Preferably, the positioning block and the limiting column form a telescopic structure through the accommodating groove and the connecting spring, and the positioning block is symmetrically distributed about the longitudinal center line of the limiting column.

Preferably, the positioning blocks are connected with the positioning holes in a clamping manner, and the positioning holes are distributed in the connecting sleeve at equal intervals.

Preferably, the steel wire is connected for the laminating with the connected mode of fixed axle, and the connected mode of steel wire and stopper is for rotating the connection to the stopper passes through the spacing groove and constitutes sliding construction with the support frame.

Preferably, the waste traction mechanism comprises a circular plate, a fixing column, a magnet, a blocking sleeve, a connecting hole, a connecting shaft, a fixing rod, a connecting plate, a grid net and a stud, the circular plate is fixedly connected with the traction rope, the fixing column is fixedly mounted at the bottom surface of the center of the circular plate, the magnet is embedded and mounted at the bottom surface of the fixing column, the fixing column is located inside the blocking sleeve, the connecting hole is formed in the outer frame of the blocking sleeve, the connecting shaft is mounted inside the connecting hole and penetrates through the top surface of the blocking sleeve and the bottom surface of the circular plate, the fixing rod is fixedly mounted on the inner wall of the bottom end of the blocking sleeve in a welding mode, the tail end of the fixing rod is connected with the connecting plate in a welding mode, the grid net is arranged between the.

Preferably, the inner diameter of the blocking sleeve is larger than the outer diameter of the fixing column, the blocking sleeve is in sliding connection with the connecting shaft through a connecting hole, and the connecting hole is distributed at equal angles on the blocking sleeve.

Preferably, the fixed rods are distributed on the connecting plate at equal angles, the connecting plate is connected with the studs in a rotating mode, and the studs are connected with the fixed columns and the circular plates respectively.

Compared with the prior art, the invention has the beneficial effects that: the energy-saving and environment-friendly construction waste in-situ advanced treatment equipment;

1. in the using process, a worker can release the positioning work inside the supporting and telescoping mechanism by pulling the limiting block, so that the whole length of the supporting and telescoping mechanism can be conveniently and properly adjusted, and the device can be favorably suitable for pits with different diameters;

2. the working personnel can fixedly install an external motor on the top surface of the support frame, and can drive the support telescopic mechanism to integrally rotate through the meshing connection of the upper gear of the motor and the fixed gear, so that the winding wheel is driven to rotate to carry out the winding and unwinding operation, and the integral lifting operation of the waste traction mechanism is conveniently driven;

3. after the waste traction mechanism moves out of the pot hole, the stud can be rotated by the aid of the waste traction mechanism, so that the distance between the grid net and the magnet is increased, the suction force of metal waste on the grid net is weakened conveniently, after the metal waste reaches a proper distance, the metal waste on the grid net can slide down, and manual collection work is conveniently carried out.

Drawings

FIG. 1 is a schematic view of the overall front view structure of the present invention;

FIG. 2 is a schematic sectional view of the connection between the support post and the connection sleeve according to the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 2 according to the present invention;

FIG. 5 is a schematic side view of the limiting post of the present invention;

FIG. 6 is a schematic side view of the limiting block of the present invention;

FIG. 7 is a schematic view of the front cross-sectional structure of the scrap pulling apparatus of the present invention;

fig. 8 is a schematic top sectional view of the scrap pulling apparatus of the present invention.

In the figure: 1. a support frame; 2. a pulley; 3. a limiting groove; 4. a limiting block; 5. a support telescoping mechanism; 51. a support pillar; 52. a connecting sleeve; 53. a receiving hole; 54. positioning holes; 55. a limiting column; 56. a receiving groove; 57. a connecting spring; 58. positioning blocks; 59. a steel wire; 510. a fixed shaft; 511. a through hole; 512. fixing a gear; 6. a winding wheel; 7. a hauling rope; 8. a waste pulling mechanism; 81. a circular plate; 82. fixing a column; 83. a magnet; 84. a blocking sleeve; 85. connecting holes; 86. a connecting shaft; 87. fixing the rod; 88. a connecting plate; 89. a grid mesh; 810. a stud.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides an energy-concerving and environment-protective construction waste normal position advanced treatment equipment, including support frame 1, pulley 2, wind-up pulley 6 and haulage rope 7, the bottom surface fixed mounting of support frame 1 has pulley 2, and the top surface of support frame 1 has seted up spacing groove 3, and the internally mounted of spacing groove 3 has stopper 4, stopper 4 passes spacing groove 3 simultaneously, install between the support frame 1 and support telescopic machanism 5 and wind-up pulley 6, and wind on the wind-up pulley 6 and install haulage rope 7, and the bottom and the 8 fixed connection of waste material haulage mechanism of haulage rope 7.

The supporting telescopic mechanism 5 comprises a supporting column 51, a connecting sleeve 52, a containing hole 53, a positioning hole 54, a limiting column 55, a containing groove 56, a connecting spring 57, a positioning block 58, a steel wire 59, a fixed shaft 510, a through hole 511 and a fixed gear 512, wherein the supporting column 51 is rotatably connected with the top end of the supporting frame 1, the connecting sleeve 52 is sleeved and installed on the outer side of one end of the supporting column 51, the containing hole 53 and the positioning hole 54 are respectively arranged in the connecting sleeve 52, the limiting column 55 is installed in the containing hole 53, the limiting column 55 is fixedly connected with one end of the supporting column 51, the containing groove 56 is arranged in the limiting column 55, the connecting spring 57 and the positioning block 58 are respectively installed in the containing groove 56, the connecting spring 57 is fixedly connected with the positioning block 58, the positioning block 58 penetrates through the outer surface of the limiting column 55 to be mutually connected with the positioning hole 54, the steel wire 59 is fixedly installed in, the steel wire 59 penetrates through the connecting spring 57, the fixing shaft 510, the through hole 511, the supporting column 51 and the limiting block 4 to be connected with each other, the through hole 511 is formed in the center of the limiting column 55, the fixing shaft 510 is installed inside the through hole 511, the fixing shaft 510 is fixedly connected with the inner wall of the limiting column 55, the fixing gear 512 is installed on the outer surface of the supporting column 51 in a welded mode, the supporting column 51 is symmetrically distributed about the longitudinal center line of the connecting sleeve 52, the supporting column 51 is connected with the connecting sleeve 52 in a sliding mode, sliding displacement of the supporting column 51 on the connecting sleeve 52 is facilitated, accordingly, proper adjustment work can be conducted on the extension length of the supporting column 51, and subsequent rotation work is facilitated.

Spacing post 55 is sliding connection through the connected mode of accomodating hole 53 and connecting sleeve 52, and spacing post 55 side regards as regular hexagon, is favorable to through the slip of spacing post 55 in connecting sleeve 52, can restrict the sliding range of support column 51 to make things convenient for support column 51 to drive connecting sleeve 52 through spacing post 55 and carry out rotary work.

The positioning block 58 forms a telescopic structure with the limiting column 55 through the accommodating groove 56 and the connecting spring 57, and the positioning block 58 is symmetrically distributed about the longitudinal center line of the limiting column 55, so that the positioning block 58 can be conveniently contracted and operated under pressure, and meanwhile, the positioning block 58 can automatically reset when not stressed, and is convenient to reuse.

The positioning block 58 is connected with the positioning hole 54 in a clamping manner, the positioning holes 54 are distributed in the connecting sleeve 52 at equal intervals, and the positioning block 58 is connected with the positioning holes 54 in a clamping manner, so that the position of the limiting column 55 can be fixed, the shaking is avoided, and meanwhile, the positioning work can be conveniently carried out in different position areas.

The connected mode of steel wire 59 and fixed axle 510 is connected for the laminating, and the connected mode of steel wire 59 and stopper 4 is connected for rotating to stopper 4 constitutes sliding structure through spacing groove 3 and support frame 1, is favorable to steel wire 59 to carry out steady steering work through fixed axle 510, can avoid simultaneously follow-up when carrying out rotatory work, and steel wire 59 takes place the phenomenon of distortion.

The waste traction mechanism 8 comprises a circular plate 81, a fixed post 82, a magnet 83, a blocking sleeve 84, a connecting hole 85, a connecting shaft 86, a fixed rod 87, a connecting plate 88, a grid net 89 and a stud 810, wherein the circular plate 81 is fixedly connected with the traction rope 7, the fixed post 82 is fixedly installed on the central bottom surface of the circular plate 81, the magnet 83 is embedded and installed on the bottom surface of the fixed post 82, the fixed post 82 is positioned inside the blocking sleeve 84, the connecting hole 85 is formed inside the outer frame of the blocking sleeve 84, the connecting shaft 86 is installed inside the connecting hole 85, the connecting shaft 86 penetrates through the top surface of the blocking sleeve 84 and is fixedly connected with the bottom surface of the circular plate 81, the fixed rod 87 is fixedly installed on the inner wall of the bottom end of the blocking sleeve 84 in a welding mode, the tail end of the fixed rod 87 is connected with, and stud 810 passes fixed column 82 and plectane 81, and the internal diameter of separation sleeve 84 is greater than the external diameter of fixed column 82, and separation sleeve 84 is sliding connection through the connected mode of connecting hole 85 with connecting axle 86 to connecting hole 85 is equiangular distribution on separation sleeve 84, is favorable to separation sleeve 84 to carry out steady slip operation in the outside of fixed column 82, makes things convenient for follow-up holistic material work of getting.

The fixing rods 87 are distributed at equal angles on the connecting plate 88, the connecting plate 88 is connected with the studs 810 in a rotating mode, the studs 810 are respectively connected with the fixing column 82 and the circular plate 81, lifting work of the studs 810 on the fixing column 82 and the circular plate 81 through rotation is facilitated, meanwhile, the studs 810 can push and pull the connecting plate 88, and integral use and operation are facilitated.

The working principle of the embodiment is as follows: according to the figure 1, firstly, a worker can move the energy-saving and environment-friendly construction waste in-situ advanced treatment equipment to a proper position through a pulley 2 at the bottom of a support frame 1 and then position the equipment, so that a waste traction mechanism 8 is positioned at the center of a pit needing waste treatment;

according to the figures 1-6, according to the diameter of the on-site pot hole, the length of the support telescoping mechanism 5 can be properly adjusted, the limiting block 4 is manually pulled to enable the limiting block 4 to slide and shift in the limiting groove 3, meanwhile, the limiting block 4 pulls the steel wire 59 to enable the steel wire 59 to stably turn through the fixing shaft 510 in the through hole 511, so that the steel wire 59 pulls the positioning block 58, the positioning block 58 is then separated from the positioning hole 54 in a sliding manner after being stressed, the positioning block 58 is completely slid into the accommodating groove 56, the positioning block 58 pushes the connecting spring 57 to contract and operate, the positioning work of the limiting column 55 is released, then the support frame 1 is manually shifted, the support frame 1 slides and shifts through the pulley 2, the support frame 1 drives the support column 51 to slide and shift in the connecting sleeve 52, and the support column 51 drives the limiting column 55 to slide and shift in the accommodating hole 53, after the proper position is adjusted, the limiting block 4 is manually loosened, so that the positioning block 58 is pushed by the elastic force of the connecting spring 57 to perform reset operation, the positioning block 58 is clamped and fixed with other positioning holes 54, the overall stability is improved, the phenomenon that the supporting column 51 slides in the center of the connecting sleeve 52 is avoided, and the proper adjustment operation of the distance between the supporting frames 1 is facilitated;

according to fig. 1-2, 5 and 7-8, an external motor can be fixedly mounted on the top surface of the support frame 1, a connecting gear on the motor is engaged with the fixed gear 512, so that the motor drives the fixed gear 512 to rotate during the starting process, the fixed gear 512 drives the supporting column 51 to rotate on the supporting frame 1, thereby enabling the support post 51 to drive the connecting sleeve 52 to rotate through the limiting post 55, simultaneously the connecting sleeve 52 drives the winding wheel 6 to rotate, facilitating the winding and unwinding work of the traction rope 7 by the winding wheel 6, thereby the whole waste material traction mechanism 8 is lifted and lowered, the waste material traction mechanism 8 is convenient to fall into the pot hole, and the waste material traction mechanism 8 can be conveniently lifted and lowered into the pot hole through the magnet 83, the metal waste can be adsorbed on the grid mesh 89 for collection and treatment, which is beneficial to collecting the metal waste deep in the building pit;

according to fig. 1 and 7-8, after the whole waste traction mechanism 8 is lifted up and moved out of the pit hole, a worker can integrally translate the energy-saving and environment-friendly construction waste in-situ advanced treatment equipment, then manually rotate the stud 810, respectively rotate and descend the stud 810 on the fixed column 82 and the circular plate 81, simultaneously rotate the stud 810 on the connecting plate 88, enable the stud 810 to push the blocking sleeve 84 through the connecting plate 88 and the fixed rod 87, so that the blocking sleeve 84 can stably slide through the connecting hole 85 and the connecting shaft 86, then drive the metal waste adsorbed on the grid net 89 to slide downwards, increase the distance between the metal waste and the magnet 83, when the metal waste is increased to a proper position, the metal waste slides down from the grid net 89, so as to facilitate collection work of the metal waste which slides down, and then reversely rotate the stud 810, according to the principle, the blocking sleeve 84 is enabled to slide and reset, so that repeated use is facilitated, and a series of work is completed.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides an energy-concerving and environment-protective construction waste normal position advanced treatment equipment, includes support frame (1), pulley (2), wind-up pulley (6) and haulage rope (7), its characterized in that: the bottom surface fixed mounting of support frame (1) has pulley (2), and the top surface of support frame (1) has seted up spacing groove (3) to the internally mounted of spacing groove (3) has stopper (4), and stopper (4) pass spacing groove (3) simultaneously, install between support frame (1) and support telescopic machanism (5) and wind-up pulley (6), and wind on wind-up pulley (6) and install haulage rope (7), and the bottom and waste material drive mechanism (8) fixed connection of haulage rope (7).

2. The energy-saving and environment-friendly construction waste in-situ advanced treatment equipment as claimed in claim 1, wherein: the support telescopic mechanism (5) comprises a support column (51), a connecting sleeve (52), an accommodating hole (53), a positioning hole (54), a limiting column (55), an accommodating groove (56), a connecting spring (57), a positioning block (58), a steel wire (59), a fixed shaft (510), a through hole (511) and a fixed gear (512), wherein the support column (51) is rotatably connected with the top end of the support frame (1), the connecting sleeve (52) is sleeved outside one end of the support column (51), the accommodating hole (53) and the positioning hole (54) are respectively arranged inside the connecting sleeve (52), the limiting column (55) is arranged inside the accommodating hole (53), the limiting column (55) is fixedly connected with one end of the support column (51), the accommodating groove (56) is arranged inside the limiting column (55), the connecting spring (57) and the positioning block (58) are respectively arranged inside the accommodating groove (56), and coupling spring (57) and locating piece (58) fixed connection to locating piece (58) pass the surface and locating hole (54) interconnect of spacing post (55), the center fixed mounting of locating piece (58) has steel wire (59), and steel wire (59) pass coupling spring (57), fixed axle (510), through-hole (511) and support column (51) and the center interconnect of stopper (4), through-hole (511) set up the center at spacing post (55), and the internally mounted of through-hole (511) has fixed axle (510), and fixed axle (510) and the inner wall fixed connection of spacing post (55), fixed gear (512) are installed in the surface welding of support column (51).

3. The energy-saving and environment-friendly construction waste in-situ advanced treatment equipment as claimed in claim 2, wherein: the supporting columns (51) are symmetrically distributed about the longitudinal center line of the connecting sleeve (52), and the connecting mode of the supporting columns (51) and the connecting sleeve (52) is sliding connection.

4. The energy-saving and environment-friendly construction waste in-situ advanced treatment equipment as claimed in claim 2, wherein: the limiting column (55) is connected with the connecting sleeve (52) in a sliding mode through the accommodating hole (53), and the side view of the limiting column (55) is in a regular hexagon shape.

5. The energy-saving and environment-friendly construction waste in-situ advanced treatment equipment as claimed in claim 2, wherein: the positioning block (58) and the limiting column (55) form a telescopic structure through the accommodating groove (56) and the connecting spring (57), and the positioning block (58) is symmetrically distributed relative to the longitudinal center line of the limiting column (55).

6. The energy-saving and environment-friendly construction waste in-situ advanced treatment equipment as claimed in claim 2, wherein: the positioning blocks (58) and the positioning holes (54) are connected in a clamping mode, and the positioning holes (54) are distributed in the connecting sleeve (52) at equal intervals.

7. The energy-saving and environment-friendly construction waste in-situ advanced treatment equipment as claimed in claim 2, wherein: the connecting mode of steel wire (59) and fixed axle (510) is for laminating the connection, and the connecting mode of steel wire (59) and stopper (4) is for rotating the connection to stopper (4) pass through spacing groove (3) and support frame (1) constitution sliding construction.

8. The energy-saving and environment-friendly construction waste in-situ advanced treatment equipment as claimed in claim 1, wherein: the waste traction mechanism (8) comprises a circular plate (81), a fixing column (82), a magnet (83), a blocking sleeve (84), a connecting hole (85), a connecting shaft (86), a fixing rod (87), a connecting plate (88), a grid net (89) and a stud (810), the circular plate (81) is fixedly connected with the traction rope (7), the fixing column (82) is fixedly installed on the bottom surface of the center of the circular plate (81), the magnet (83) is embedded and installed on the bottom surface of the fixing column (82), the fixing column (82) is located inside the blocking sleeve (84), the connecting hole (85) is formed inside the outer frame of the blocking sleeve (84), the connecting shaft (86) is installed inside the connecting hole (85), the connecting shaft (86) penetrates through the top surface of the blocking sleeve (84) and is fixedly connected with the bottom surface of the circular plate (81), and the fixing rod (87) is fixedly installed on the inner wall, the tail ends of the fixing rods (87) are connected with the connecting plates (88) in a welding mode, grid nets (89) are arranged among the fixing rods (87), the centers of the connecting plates (88) are connected with the bottom ends of the studs (810) in an interconnecting mode, and the studs (810) penetrate through the fixing columns (82) and the circular plates (81).

9. The energy-saving and environment-friendly construction waste in-situ advanced treatment equipment as claimed in claim 8, wherein: the inner diameter of the blocking sleeve (84) is larger than the outer diameter of the fixing column (82), the blocking sleeve (84) is connected with the connecting shaft (86) in a sliding mode through the connecting hole (85), and the connecting hole (85) is distributed on the blocking sleeve (84) at equal angles.

10. The energy-saving and environment-friendly construction waste in-situ advanced treatment equipment as claimed in claim 8, wherein: the fixing rods (87) are distributed on the connecting plate (88) at equal angles, the connecting plate (88) is connected with the studs (810) in a rotating mode, and the studs (810) are respectively connected with the fixing column (82) and the circular plate (81).

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