CN112024083B - Building rubbish reducing mechanism based on high pressure water jet - Google Patents

Abstract

The invention provides a construction waste crushing device based on high-pressure water jet, which comprises a shell, wherein supporting legs are fixed at four corners of the bottom of the shell, a top cover is installed at the top of the shell, and a crushing groove is formed in the shell. This building rubbish reducing mechanism, throw into the inside in crushing groove with building rubbish through the dog-house, inject high-pressure rivers to the rotating tube in through the inlet tube, high-pressure rivers are when the turbine, high-pressure rivers drive the turbine and rotate, the inside at the rotating tube is fixed to the turbine, make the turbine can drive the rotating tube and produce the rotation, later high-pressure water jet jets passes through the fluidic head and jets out, cut building rubbish through high-pressure water jet, the harder material of part is impacted the inner wall, smash the material through colliding the inner wall, the material is at crushing in-process, smash the material to a certain degree and fall through the screen frame, great material is driven by stirring vane and is produced the flow, continue to smash, be convenient for thoroughly smash the material.

Description

Building rubbish reducing mechanism based on high pressure water jet

Technical Field

The invention relates to the technical field of building rubbish cleaning, in particular to a building rubbish smashing device based on high-pressure water jet.

Background

The construction waste refers to residue soil, waste materials, residual mud and other wastes generated in the process of construction, laying, dismantling and repairing of various buildings, structures, pipe networks and the like of construction units or personal teams, after the construction waste is cleaned, the construction waste needs to be crushed by a crushing device, and the construction waste is crushed by a crushing device based on high-pressure water jet.

Present building rubbish reducing mechanism based on high-pressure water jet is when using, can only once smash the material, drive the material through the water jet and collide crushing board, smash, it directly drops to smash the back, nevertheless can't smash repeatedly to not thoroughly kibbling material, make the smashing of material not thorough, and go on the back to building rubbish, the inconvenience separates material and water, inconvenient use, so we have proposed a building rubbish reducing mechanism based on high-pressure water jet, so that solve the problem that proposes in the aforesaid.

Disclosure of Invention

The invention aims to provide a construction waste smashing device based on high-pressure water jet, and the device is used for solving the problems that when the existing construction waste smashing device based on high-pressure water jet is used, materials can only be smashed once, the materials are driven by the water jet to collide with a smashing plate for smashing, the smashed materials directly fall down after smashing, but the materials which are not smashed completely cannot be smashed repeatedly, so that the smashing of the materials is not complete, and the materials and water are not conveniently separated after the construction waste is smashed, and the use is inconvenient.

In order to achieve the purpose, the invention provides the following technical scheme: a construction waste crushing device based on high-pressure water jet comprises a shell, supporting legs are fixed at four corners of the bottom of the shell, a top cover is installed at the top of the shell, a crushing groove is formed in the shell, wherein,

an open slot penetrates through the middle part of the top cover, a feed inlet is formed in the top part, close to the side, of the top cover, a water outlet penetrates through the middle part of the bottom end of the shell, a screening frame is fixed inside the crushing slot, a connecting frame is fixed in the middle of the screening frame, a bearing is fixed in the middle of the connecting frame, and a rotating pipe penetrates through the bearing;

limiting plates are fixed at the upper end and the lower end of the rotating pipe close to the bearing, a water inlet pipe is rotatably connected to the top of the rotating pipe, one end, far away from the rotating pipe, of the water inlet pipe penetrates through the inside of the open slot and extends to the outside, a rotating slot is formed in one side, close to the rotating pipe, of the water inlet pipe, and a rotating block is fixed at one side, close to the rotating slot, of the rotating pipe;

the inside that the rotating tube is close to the inlet tube is fixed with the turbine, the outside equidistance that the rotating tube is located crushing groove middle part installs the efflux head, the outside that the rotating tube is close to the screen frame is fixed with stirring vane, the inside that the shell is close to the screen frame below is fixed with the filter screen, the bin outlet has been seted up to one side that the shell is close to the filter screen top.

Preferably, the top cover is fixedly connected with the top of the shell through bolts.

Preferably, the screening rack is umbrella-shaped, the sieve pores of the screening rack are larger than the filter pores of the filter screen, and the screening rack is fixedly connected with the inner wall of the crushing tank through welding.

Preferably, the rotating pipe is in rotating connection with the water inlet pipe through a rotating block, and the rotating pipe is communicated with the water inlet pipe.

Preferably, the outer diameter of the limit plates is greater than the inner diameter of the bearing, the inner diameter of the bearing is equal to the outer diameter of the rotating pipe, and the interval between the limit plates is equal to the height of the bearing.

Preferably, the turbine is fixed inside the rotating pipe by welding, and the turbine blades are arranged in an inclined curved surface.

Preferably, the jet head is communicated with the rotating pipe.

Preferably, the stirring blade is a spiral blade, and the stirring blade is fixedly connected with the outer side of the rotating pipe through welding.

Preferably, the motor is installed in the middle of the bottom end of the filter screen, and an eccentric block is installed at the shaft end of the motor.

Preferably, the filter screen is the slope setting, and the filter screen sets up towards the bin outlet direction slope downwards.

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

1. this a building rubbish reducing mechanism based on high pressure water jet, throw into the inside in crushing groove with building rubbish through the dog-house, inject high-pressure rivers to the rotating tube through the inlet tube, high-pressure rivers are when the turbine, high-pressure rivers drive the turbine and rotate, the inside at the rotating tube is fixed to the turbine, make the turbine can drive the rotating tube and produce the rotation, later high pressure water jet passes through the fluidic head and jets out, cut building rubbish through high pressure water jet, the harder material of part is impacted the inner wall, smash the material through colliding the inner wall, the material is at crushing in-process, smash the material to a certain degree and fall through the screening frame, great material is driven by stirring vane and is produced the flow, continue to smash, be convenient for thoroughly smash the material.

2. This building rubbish reducing mechanism based on high pressure water jet when the rotating tube rotates, the rotating tube passes through the bearing and reduces the resistance that receives of rotation to carry on spacingly through the limiting plate to the position of rotating tube, avoid the rotating tube drunkenness from top to bottom.

3. This building rubbish reducing mechanism based on high pressure water jet when filtering the material through the filter screen, the motor drives the eccentric block and rotates, drives the filter screen through the eccentric block and produces the vibration, makes the material can flow smoothly on the filter screen, avoids the material card inside the filtration pore of filter screen.

4. This building rubbish reducing mechanism based on high pressure water jet drops filter screen top through the material that the screen frame fell, separates material and water through the filter screen, makes water flow out from the outlet after passing through the filter screen, and the crushed aggregates removes towards the bin outlet direction at the filter screen that the slope set up, is convenient for make the material pass through the bin outlet and discharges.

This building rubbish reducing mechanism based on high pressure water jet, when partial crushed aggregates can't pass through the screen frame, can drive the material upflow through spiral helicine stirring vane, make the material intensive mixing, continue to be smashed by high pressure water jet, be convenient for make the material continue to smash.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the screening frame of the present invention;

FIG. 3 is a schematic view of the connection structure of the rotating pipe and the water inlet pipe according to the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 1A;

FIG. 5 is an enlarged view of a portion B of FIG. 1 according to the present invention.

Wherein the figures include the following reference numerals:

1. a housing; 2. a support leg; 3. a top cover; 4. a crushing tank; 5. an open slot; 6. a feeding port; 7. a water outlet; 8. a screening rack; 9. a connecting frame; 10. a bearing; 11. rotating the tube; 12. a limiting plate; 13. a water inlet pipe; 14. a rotating groove; 15. rotating the block; 16. a turbine; 17. a jet head; 18. a stirring blade; 19. a filter screen; 1901. a motor; 1902. an eccentric block; 20. a discharge outlet.

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. 1-5, the present invention provides a technical solution: a construction waste smashing device based on high-pressure water jet comprises a shell 1, supporting legs 2, a top cover 3, a smashing groove 4, an open groove 5, a feed opening 6, a water outlet 7, a screening frame 8, a connecting frame 9, a bearing 10, a rotating pipe 11, a limiting plate 12, a water inlet pipe 13, a rotating groove 14, a rotating block 15, a turbine 16, a jet head 17, stirring blades 18, a filter screen 19 and a discharge opening 20, wherein the supporting legs 2 are fixed at four corners of the bottom of the shell 1, the top cover 3 is installed at the top of the shell 1, the top cover 3 is fixedly connected with the top of the shell 1 through bolts, when the top cover 3 and the shell 1 are required to be assembled, the top cover 3 is aligned with screw holes of the shell 1 and then fixed with the shell 1 through the bolts, the smashing groove 4 is formed in the shell 1, wherein,

an open slot 5 penetrates through the middle part of the top cover 3, a feed inlet 6 is arranged at the top part of the top cover 3 close to the side, a water outlet 7 penetrates through the middle part of the bottom end of the shell 1, a screening frame 8 is fixed inside the crushing tank 4, the screening frame 8 is umbrella-shaped, the sieve mesh of the screening frame 8 is larger than the filter hole of the filter screen 19, the screening frame 8 is fixedly connected with the inner wall of the crushing tank 4 through welding, after the materials are crushed through high-pressure water jet, the materials are screened through the screening frame 8, the crushed materials fall into the filter screen 19 through the screening frame 8 to a certain degree, then the materials and water are separated through the filter screen 19, simultaneously the completely crushed materials can be continuously crushed, the materials are conveniently and thoroughly crushed, a connecting frame 9 is fixed at the middle part of the screening frame 8, a bearing 10 is fixed at the middle part of the connecting frame 9, a rotating pipe 11 penetrates through the bearing 10, the rotating pipe 11 is in rotating connection with a water inlet pipe 13 through a rotating block 15, the rotating pipe 11 is communicated with the water inlet pipe 13, when high-pressure water flow is injected into the rotating pipe 11 through the water inlet pipe 13, the high-pressure water flow drives the rotating pipe 11 to rotate through a turbine 16, the rotating pipe 11 drives the rotating block 15 to rotate in a rotating groove 14, and the rotating block 15 is in rotating connection with the rotating groove 14, so that the rotating pipe 11 and the water inlet pipe 13 can rotate relatively;

the upper end and the lower end of the rotating pipe 11, which are close to the bearing 10, are both fixed with limiting plates 12, the outer diameter of each limiting plate 12 is larger than the inner diameter of the bearing 10, the inner diameter of each bearing 10 is equal to the outer diameter of the rotating pipe 11, the distance between every two limiting plates 12 is equal to the height of the bearing 10, when the rotating pipe 11 rotates, the rotating pipe 11 reduces the resistance received by rotation through the bearing 10, the position of the rotating pipe 11 is limited through the limiting plates 12, the rotating pipe 11 is prevented from moving up and down, the top of the rotating pipe 11 is rotatably connected with a water inlet pipe 13, one end, which is far away from the rotating pipe 11, of the water inlet pipe 13 penetrates through the inside of the open slot 5 and extends to the outside, one side, which is close to the rotating pipe 11, of the water inlet pipe 13 is provided with a rotating slot 14, and one side, which is close to the rotating slot 14, of the rotating pipe 11 is fixed with a rotating block 15;

the inside that the rotating tube 11 is close to inlet tube 13 is fixed with turbine 16, turbine 16 passes through welded fastening in the inside of rotating tube 11, and the turbine 16 blade sets up for the slope curved surface, and when high-pressure rivers passed through turbine 16, high-pressure rivers drove turbine 16 and rotate, and turbine 16 fixes in the inside of rotating tube 11, makes turbine 16 can drive rotating tube 11 and produce the rotation, the outside equidistance that rotating tube 11 is located crushing groove 4 middle part installs jet head 17, jet head 17 is linked together with rotating tube 11, and when high-pressure rivers were jetted out through jet head 17, can assault building rubbish through the high-pressure water jet, smashes, makes the drive material violent motion in crushing groove 4, makes the material bump shell 1 inner wall, is convenient for smash the material, the outside that rotating tube 11 is close to screening frame 8 is fixed with stirring vane 18, stirring vane 18 is the heliciform blade, and stirring vane 18 is fixedly connected with the outer side of rotating pipe 11 by welding, when partial crushed aggregates can not pass through screening frame 8, spiral stirring vane 18 can drive materials to flow upwards to fully mix the materials, and the materials are continuously crushed by high-pressure water jet, so that the materials are continuously crushed, a filter screen 19 is fixed inside the shell 1 close to the lower part of the screening frame 8, a motor 1901 is installed in the middle of the bottom end of the filter screen 19, an eccentric block 1902 is installed at the shaft end of the motor 1901, when the motor 1901 drives the eccentric block 1902 to rotate, the filter screen 19 is driven by the eccentric block 1902 to vibrate, so that the materials can smoothly flow on the filter screen 19, the materials are prevented from being clamped inside the filter holes of the filter screen 19, the filter screen 19 is obliquely arranged, and the filter screen 19 is obliquely arranged downwards towards the direction of a discharge port 20, and after the crushed materials fall through the filtering of the screening frame 8, separate crushed aggregates and water through filter screen 19, make water flow out from outlet 7 behind the filter screen 19, the crushed aggregates moves towards bin outlet 20 direction at the filter screen 19 that the slope set up, is convenient for make the material discharge through bin outlet 20, bin outlet 20 has been seted up to one side that shell 1 is close to filter screen 19 top.

The working principle is as follows: when the building garbage smashing device based on the high-pressure water jet is used, firstly, the building garbage is thrown into the smashing groove 4 through the material inlet 6, the high-pressure water flow is injected into the rotating pipe 11 through the water inlet pipe 13, when the high-pressure water flow passes through the turbine 16, the high-pressure water flow drives the turbine 16 to rotate, the turbine 16 is fixed inside the rotating pipe 11, the turbine 16 can drive the rotating pipe 11 to rotate, the rotating pipe 11 drives the rotating block 15 to rotate in the rotating groove 14, the rotating connection formed by the rotating block 15 and the rotating groove 14 is convenient for enabling the rotating pipe 11 and the water inlet pipe 13 to rotate relatively, when the rotating pipe 11 rotates, the rotating pipe 11 reduces the resistance received by rotation through the bearing 10, the position of the rotating pipe 11 is limited through the limiting plate 12, the rotating pipe 11 is prevented from moving up and down, then the high-pressure water jet is ejected through the jet head 17, the building garbage is cut through the high-pressure water jet, part of harder material is impacted to the inner wall, the material is crushed by colliding with the inner wall, the material crushed to a certain degree falls through the screening frame 8 in the crushing process, when part of crushed material can not pass through the screening frame 8, the material can be driven to flow upwards through the spiral stirring blade 18, the material is fully mixed and continuously crushed by high-pressure water jet, the material is conveniently crushed continuously, the material falling through the screening frame 8 falls to the top of the filter screen 19, the material is separated from water through the filter screen 19, the water flows out from the water outlet 7 after passing through the filter screen 19, the crushed material moves towards the discharge port 20 direction in the filter screen 19 which is arranged obliquely, the material is conveniently discharged through the discharge port 20, when the material is filtered through the filter screen 19, the motor 1901 drives the eccentric block 1902 to rotate, the filter screen 19 is driven to vibrate through the eccentric block 1902, the materials can flow smoothly on the filter screen 19, and the materials are prevented from being clamped in the filter holes of the filter screen 19.

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 (8)

1. The utility model provides a building rubbish reducing mechanism based on high pressure water jet, includes shell (1), its characterized in that: the four corners of the bottom of the shell (1) are fixed with supporting legs (2), the top of the shell (1) is provided with a top cover (3), the inside of the shell (1) is provided with a crushing groove (4), wherein,

an open slot (5) penetrates through the middle part of the top cover (3), a feed inlet (6) is formed in the top part, close to the side, of the top cover (3), a water outlet (7) penetrates through the middle part of the bottom end of the shell (1), a screening frame (8) is fixed inside the crushing slot (4), a connecting frame (9) is fixed in the middle part of the screening frame (8), a bearing (10) is fixed in the middle part of the connecting frame (9), and a rotating pipe (11) penetrates through the bearing (10);

limiting plates (12) are fixed at the upper end and the lower end of the rotating pipe (11) close to the bearing (10), a water inlet pipe (13) is rotatably connected to the top of the rotating pipe (11), one end, far away from the rotating pipe (11), of the water inlet pipe (13) penetrates through the inside of the open slot (5) and extends to the outside, a rotating slot (14) is formed in one side, close to the rotating pipe (11), of the water inlet pipe (13), and a rotating block (15) is fixed on one side, close to the rotating slot (14), of the rotating pipe (11);

a turbine (16) is fixed in the rotating pipe (11) close to the water inlet pipe (13), jet heads (17) are equidistantly installed on the outer side, located in the middle of the crushing tank (4), of the rotating pipe (11), stirring blades (18) are fixed on the outer side, close to the screening rack (8), of the rotating pipe (11), a filtering net (19) is fixed in the shell (1) close to the lower portion of the screening rack (8), and a discharge hole (20) is formed in one side, close to the upper portion of the filtering net (19), of the shell (1);

the rotating pipe (11) is in rotating connection with the water inlet pipe (13) through a rotating block (15), and the rotating pipe (11) is communicated with the water inlet pipe (13); the jet head (17) is communicated with the rotating pipe (11).

2. The construction waste crushing device based on the high-pressure water jet as claimed in claim 1, wherein: the top cover (3) is fixedly connected with the top of the shell (1) through bolts.

3. The construction waste crushing device based on the high-pressure water jet as claimed in claim 1, wherein: the screening frame (8) is umbrella-shaped, the sieve pores of the screening frame (8) are larger than the filter pores of the filter screen (19), and the screening frame (8) is fixedly connected with the inner wall of the crushing groove (4) through welding.

4. The construction waste crushing device based on the high-pressure water jet as claimed in claim 1, wherein: the outer diameter of the limiting plates (12) is larger than the inner diameter of the bearing (10), the inner diameter of the bearing (10) is equal to the outer diameter of the rotating pipe (11), and the distance between the limiting plates (12) is equal to the height of the bearing (10).

5. The construction waste crushing device based on the high-pressure water jet as claimed in claim 1, wherein: the turbine (16) is fixed inside the rotating pipe (11) through welding, and blades of the turbine (16) are arranged in an inclined curved surface.

6. The construction waste crushing device based on the high-pressure water jet as claimed in claim 1, wherein: the stirring blades (18) are helical blades, and the stirring blades (18) are fixedly connected with the outer side of the rotating pipe (11) through welding.

7. The construction waste crushing device based on the high-pressure water jet as claimed in claim 1, wherein: the bottom mid-mounting of filter screen (19) has motor (1901), eccentric piece (1902) is installed to the axle head of motor (1901).

8. The construction waste crushing device based on the high-pressure water jet as claimed in claim 1, wherein: the filter screen (19) is arranged in an inclined mode, and the filter screen (19) is arranged downwards in an inclined mode towards the direction of the discharge opening (20).

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