CN117483401A - Energy-saving and environment-friendly construction waste treatment equipment - Google Patents

Abstract

The invention discloses energy-saving and environment-friendly construction waste treatment equipment, which relates to the technical field of construction engineering and comprises a box body and a separation assembly, wherein the separation assembly is arranged at the left upper part of the box body and comprises a feed inlet, a pressure chamber, a limit groove, a limit rod, a pressure plate, a pressure spring, a cam, the separation chamber, a hollow wheel shaft, a separation plate, a magnet, a magnetism isolating plate and a discharge groove, the feed inlet is arranged at the left upper part of the box body, the pressure chamber is arranged below the feed inlet, the limit grooves are symmetrically arranged at the left side and the right side of the pressure chamber, and the limit rod is fixedly connected in the limit groove. When the waste material recycling device is used, the waste material can be primarily crushed, so that metals in the waste material are separated, the separated waste material is further crushed and compressed, automatic discharging can be performed after compression is finished, water spraying and dust settling can be performed on the waste material during crushing, and solid-liquid separation is completed during separation, so that water recycling is completed, and waste of water resources is avoided.

Description

Energy-saving and environment-friendly construction waste treatment equipment

Technical Field

The invention relates to the technical field of constructional engineering, in particular to energy-saving and environment-friendly construction waste treatment equipment.

Background

The construction waste refers to dregs, waste soil, waste materials, sludge and other wastes generated in the construction process of the construction engineering, and the waste materials, the sludge and other wastes are required to be recycled by a recycling device.

When demolishing former building, often can produce the large-scale waste material that has the metal, be inconvenient for when handling it directly retrieve the metal in handling the in-process, and can not compress the waste material after broken waste material in most, the circumstances that the waste material scattered probably can appear when loading transportation.

Accordingly, in view of the above, research and improvement are made on the existing structure and the existing defects, and an energy-saving and environment-friendly construction waste treatment device is provided.

Disclosure of Invention

The invention aims to provide energy-saving and environment-friendly construction waste treatment equipment for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an energy-concerving and environment-protective construction waste treatment facility, includes box and separation subassembly, box upper left portion is provided with separation subassembly, separation subassembly includes feed inlet, pressure chamber, spacing groove, gag lever post, pressure plate, pressure spring, cam, separation chamber, hollow shaft, division board, magnet, magnetism isolating plate and blown down tank, the feed inlet has been seted up on box upper left portion, and the feed inlet below is provided with the pressure chamber, the spacing groove has been seted up to pressure chamber left and right sides symmetry, and fixedly connected with gag lever post in the spacing groove, gag lever post one end fixedly connected with pressure plate, and the gag lever post outside is provided with pressure spring, the pressure chamber rotates in one side that the pressure plate kept away from each other and is connected with the cam, and is provided with the separation chamber below the pressure chamber, it is connected with hollow shaft to rotate in the separation chamber, and hollow shaft periphery fixedly connected with division board, hollow shaft inboard is provided with magnet, and magnet one side is provided with magnetism isolating plate, the blown down tank has been seted up in the separation chamber left side.

Further, the pressure spring both ends respectively with pressure plate and pressure chamber inner wall fixed connection, and pressure plate passes through pressure spring and pressure chamber elastic connection, the gag lever post passes through spacing groove and pressure chamber sliding connection, and magnet, magnetism isolating plate all with pressure chamber inner wall fixed connection, pass through gear connection between the cam front end.

Further, the left middle part of the box body is provided with a water tank, the rear of the water tank is connected with a water pump, the front of the water tank is provided with a filter, a communicating vessel is arranged above the filter, spray heads are symmetrically arranged on the left side and the right side of the feed inlet, and the spray heads are communicated with the water pump through water pipes.

Furthermore, a communicating cavity is formed in the communicating vessel, one-way valves are arranged at the rear part and the lower part of the communicating cavity, the communicating cavity is Y-shaped, and the rear end and the lower end of the communicating cavity are respectively connected with the hollow wheel shaft and the filter through pipelines.

Further, the separation chamber right side is provided with the splitter box, and the symmetry rotates about the splitter box and is connected with crushing axle, the splitter box is smashing axle bilateral symmetry fixedly connected with scraper blade, and the splitter box right-hand compression room that is provided with, the intercommunication chamber front end is through pipeline and compression room upper portion intercommunication, smash through gear connection between the axle front end.

Further, the upper left side of the compression chamber is provided with a chute, a sliding plate is connected in the chute in a sliding manner, the lower end of the sliding plate is fixedly connected with a compression plate, and a compression rod is fixedly connected above the compression plate.

Further, the connecting rod is rotationally connected to the upper portion of the pressure rod, the flywheel shaft is rotationally connected to the upper portion of the connecting rod, the motor is fixedly connected to the rear of the flywheel shaft, and the flywheel shaft is connected with the hollow wheel shaft, the crushing shaft and the cam through the belt and the belt pulley.

Further, the right part of the compression plate is rotationally connected with a winding wheel, the surface of the winding wheel is wound with a pull rope, and the front end and the rear end of the winding wheel are symmetrically and fixedly connected with torsion springs.

Furthermore, return springs are symmetrically and fixedly connected below the compression chamber, the upper ends of the return springs are fixedly connected with material receiving plates, and the material receiving plates are elastically connected with the compression chamber through the return springs.

Further, the compression chamber left side fixedly connected with liftout spring, and liftout spring right side fixedly connected with liftout frame, liftout frame and box block sliding connection, and liftout frame pass through liftout spring and compression chamber elastic connection, stay cord and liftout frame upper right-hand member fixed connection.

The invention provides energy-saving and environment-friendly construction waste treatment equipment, which has the following beneficial effects: when the waste material recycling device is used, waste materials can be primarily crushed, so that metals in the waste materials are separated, the separated waste materials are further crushed and compressed, automatic discharging can be performed after compression is finished, and when the waste materials are crushed, water spraying and dust fall can be performed on the waste materials, and solid-liquid separation is finished during separation, so that water recycling is finished, and waste of water resources is avoided.

1. When the metal separator is used, waste is fed into the pressure chamber from the feed inlet, the cam rotates in the pressure chamber, the pressure plate can be pushed to press the waste, so that the waste is primarily crushed, metal falls off from the waste, the waste after the primary crushing falls into the separating chamber, the separating plate can carry the waste, meanwhile, the hollow wheel shaft rotates to transport the waste through the separating plate, when the waste moves to the position of the splitter box, the magnet can adsorb the metal, the metal is prevented from entering the splitter box, when the waste moves to the position of the discharge box, the magnet does not adsorb the metal, the metal can leave the box body through the discharge box to finish the separation of the metal, the crushing shaft can secondarily crush the waste after entering the splitter box, so that the waste is convenient to compress, and when secondarily crushed, the scraping plate can prevent the waste from adhering to the crushing shaft, so that the waste is accumulated in the splitter box and is difficult to clean, and when the waste is used, the waste can be crushed in a double way, and the metal is separated when crushed and transported.

2. According to the invention, after crushed materials enter the compression chamber from the shunt tank, the motor can drive the connecting rod to rotate through the flywheel shaft, so that the compression plate is driven by the compression rod to compress the waste materials, the compression plate can drive the sliding plate to slide in the sliding groove during compression, so that the waste materials are prevented from falling above the compression plate, the torsion spring can drive the winding wheel to wind the pull rope to prevent the pull rope from being pressed into the waste materials when the compression plate moves, the material receiving plate can compress the return spring along with the increase of the waste materials, when the weight of the waste materials is matched with the pressure of the compression plate to fully compress the return spring, the material pushing spring can drive the material pushing frame to pop up leftwards, the compressed waste materials are pushed out of the compression chamber, the pull rope is pulled out of the winding wheel, the material pushing frame can be blocked by the material pushing frame when the return spring drives the material receiving plate to rise, the material pushing frame can not be retracted, and the flywheel shaft can not be synchronously rotated when the compression shaft is driven to automatically grind the flywheel shaft after the compression shaft is pushed out.

3. When the compression plate rises in the pressure chamber, the pressure plate can press the water from the communicating cavity into the filter for filtration and then enter the water tank for circulation, and the one-way valve can prevent the water from flowing back into the hollow wheel shaft, so that the water can enter the waste again.

Drawings

FIG. 1 is a schematic view of the overall front view of an energy-saving and environment-friendly construction waste treatment device according to the present invention;

FIG. 2 is a schematic cross-sectional front view of an energy-saving and environment-friendly construction waste treatment apparatus according to the present invention;

FIG. 3 is a schematic cross-sectional side view of an energy-saving and environment-friendly construction waste treatment device according to the present invention;

FIG. 4 is a schematic cross-sectional front view of a hollow axle of an energy-saving and environment-friendly construction waste treatment device according to the present invention;

FIG. 5 is an enlarged schematic view of the construction waste treatment apparatus of FIG. 2A according to the present invention;

FIG. 6 is a schematic cross-sectional side view of a communicating vessel of an energy-saving and environment-friendly construction waste treatment apparatus of the present invention;

fig. 7 is a schematic view of a partially cut-away front view of a platen of an energy-saving and environment-friendly construction waste treatment apparatus of the present invention.

In the figure: 1. a case; 2. a separation assembly; 201. a feed inlet; 202. a pressure chamber; 203. a limit groove; 204. a limit rod; 205. a pressure plate; 206. a pressure spring; 207. a cam; 208. a separation chamber; 209. a hollow axle; 210. a partition plate; 211. a magnet; 212. a magnetism isolating plate; 213. a discharge chute; 3. a water tank; 4. a water pump; 5. a filter; 6. a communicating vessel; 7. a spray head; 8. a communication chamber; 9. a one-way valve; 10. a shunt channel; 11. a crushing shaft; 12. a scraper; 13. a compression chamber; 14. a chute; 15. a slide plate; 16. a compression plate; 17. a compression bar; 18. a connecting rod; 19. flywheel shaft; 20. a motor; 21. a winding wheel; 22. a pull rope; 23. a torsion spring; 24. a return spring; 25. a receiving plate; 26. a liftout spring; 27. and (5) a material ejection frame.

Detailed Description

Referring to fig. 1 to 7, the present invention provides the following technical solutions: the utility model provides an energy-concerving and environment-protective construction waste treatment facility, including box 1 and separation subassembly 2, box 1 upper left portion is provided with separation subassembly 2, separation subassembly 2 includes feed inlet 201, pressure chamber 202, spacing groove 203, the gag lever post 204, pressure plate 205, pressure spring 206, cam 207, separation chamber 208, hollow shaft 209, division board 210, magnet 211, magnetism separation plate 212 and blown down tank 213, feed inlet 201 has been seted up to box 1 upper left portion, and feed inlet 201 below is provided with pressure chamber 202, spacing groove 203 has been seted up to pressure chamber 202 left and right sides symmetry, and spacing groove 203 internal fixation has gag lever post 204, gag lever post 204 one end fixedly connected with pressure plate 205, and the gag lever post 204 outside is provided with pressure spring 206, pressure chamber 202 is at the one side rotation that pressure plate 205 kept away from each other is connected with cam 207, and pressure chamber 202 below is provided with separation chamber 208, separation chamber 208 internal rotation is connected with hollow shaft 209, and hollow shaft 209 periphery fixedly connected with division board 210, the inside of hollow shaft 209 is provided with magnet 211, and magnet 211 one side is provided with magnetism separation plate 212, and left side of the blown down tank 213 has been seted up to separation chamber 213.

Referring to fig. 1-2 and 4-6, two ends of a pressure spring 206 are fixedly connected with a pressure plate 205 and an inner wall of a pressure chamber 202 respectively, the pressure plate 205 is elastically connected with the pressure chamber 202 through the pressure spring 206, a limit rod 204 is slidably connected with the pressure chamber 202 through a limit groove 203, a magnet 211 and a magnetism isolating plate 212 are fixedly connected with the inner wall of the pressure chamber 202, the front ends of cams 207 are connected through gears, a water tank 3 is arranged in the left middle of a box body 1, a water pump 4 is connected to the rear of the water tank 3, a filter 5 is arranged in the front of the water tank 3, a communicating vessel 6 is arranged above the filter 5, spray heads 7 are symmetrically arranged at the left side and the right side of a feed inlet 201 and are communicated with the water pump 4 through water pipes, a communicating cavity 8 is formed in the communicating vessel 6, a one-way valve 9 is arranged at the rear and the lower side of the communicating cavity 8, the communicating cavity 8 is connected with a hollow 209 and the filter 5 through a pipeline, a splitter box 10 is arranged at the right side of a separating chamber 208, a crushing shaft 11 is symmetrically connected to the upper side and the lower side of the splitter box 10 through a rotary shaft, a crushing shaft 11 is symmetrically connected to the front of the crushing shaft 11 through a compression shaft 13 through a pipeline 13, and the front end is symmetrically connected to the compression shaft 13 through a compression shaft 13;

the operation is that when the waste is used, the waste is sent into the pressure chamber 202 from the feeding hole 201, the cam 207 rotates in the pressure chamber 202, the pressure plate 205 can be pushed to press the waste, so that the waste is primarily crushed, metal falls off from the waste, after the primarily crushed waste falls into the separating chamber 208, the separating plate 210 can receive the waste, meanwhile, the hollow wheel shaft 209 rotates, the waste is transported through the separating plate 210, when the waste moves to the position of the splitter box 10, the magnet 211 can adsorb the metal, the metal is prevented from entering the splitter box 10, when the waste moves to the position of the discharging box 213, the magnet 211 does not adsorb the metal, the metal can leave the box body 1 through the discharging box 213, the metal separation is completed, after the waste enters the splitter box 10, the crushing shaft 11 can secondarily crush the waste, so that the waste is conveniently compressed, and when secondarily crushed, the scraper 12 can avoid the adhesion of the waste materials on the crushing shaft 11, so that the waste materials are accumulated in the shunt tank 10 and are difficult to clean, in sum, during use, the waste materials can be crushed twice, metals are separated during crushing and transferring, during crushing, the water in the water tank 3 can be pumped out by the water pump 4, the water is sprayed into the pressure chamber 202 through the spray nozzle 7 to reduce dust, pollution caused by dust scattering is avoided, after the waste materials fall between the separation plates 210, the pressure plate 205 descends in the compression chamber 13, the compression plate 16 can pump the water mixed in the waste materials into the hollow wheel shaft 209 from micropores on the surface of the hollow wheel shaft 209 through air pressure, then the water enters the communicating vessel 6 through a pipeline to complete solid-liquid separation, when the compression plate 16 ascends in the pressure chamber 202, the pressure plate 205 can press the water into the filter 5 from the communicating chamber 8 through air pressure to filter, the reentrant water tank 3 is interior to accomplish the circulation, and in the check valve 9 can avoid moisture backward flow to hollow shaft 209, leads to moisture reentrant waste material, in sum, can carry out the dust fall to the waste material when using to carry out solid-liquid separation when transporting, thereby carry out cyclic utilization to water, reduce the waste of water resource.

Referring to fig. 1 to 3 and 7, a chute 14 is arranged at the upper left of a compression chamber 13, a sliding plate 15 is connected in the chute 14 in a sliding manner, a compression plate 16 is fixedly connected at the lower end of the sliding plate 15, a compression rod 17 is fixedly connected at the upper side of the compression plate 16, a connecting rod 18 is connected at the upper side of the compression rod 17 in a rotating manner, a flywheel shaft 19 is connected at the upper side of the connecting rod 18 in a rotating manner, a motor 20 is fixedly connected at the rear of the flywheel shaft 19, the flywheel shaft 19 is connected with a hollow shaft 209, a crushing shaft 11 and a cam 207 through a belt and a belt pulley, a winding wheel 21 is connected at the right part of the compression plate 16 in a rotating manner, a pull rope 22 is wound on the surface of the winding wheel 21, torsion springs 23 are symmetrically and fixedly connected at the front end and rear end of the winding wheel 21, a return spring 24 is symmetrically and fixedly connected at the lower side of the compression chamber 13, a material connecting plate 25 is elastically connected with the compression chamber 13 through the return spring 24, a top material spring 26 is fixedly connected at the left side of the compression chamber 13, a top material frame 27 is fixedly connected at the right side of the top material frame 27 with the top material frame 27, the top material frame 27 is in a sliding manner and the top material frame 1 is connected at the top material frame 27 is fixedly connected with the top material frame 27 through the top material spring 26 at the top material spring 26 and the top material end of the top material 22 and the top material 13 in a front end is fixedly connected at the top material end of the top material frame 27.

The method comprises the following specific operations that after crushed materials enter a compression chamber 13 from a shunt tank 10, a motor 20 can drive a connecting rod 18 to rotate through a flywheel shaft 19, thereby a compression plate 16 is driven by a compression rod 17 to compress the waste materials, during compression, the compression plate 16 can drive a sliding plate 15 to slide in a chute 14, thereby the waste materials are prevented from falling above the compression plate 16, when the compression plate 16 moves, a torsion spring 23 can drive a winding wheel 21 to wind a pull rope 22, the pull rope 22 is prevented from being pressed into the waste materials, as the waste materials increase, a material receiving plate 25 can compress a reset spring 24, when the weight of the waste materials is matched with the pressure of the compression plate 16 to fully compress the reset spring 24, the top spring 26 can drive a top frame 27 to pop up leftwards, the compressed waste materials are pushed out of the compression chamber 13, and pull rope 22 is pulled out from the winding wheel 21, during pushing out the waste materials, the top frame 27 can prevent the reset spring 24 from driving the material receiving plate 25 to retract, and after the waste materials are pushed out, the compression plate 17 drives the compression plate 16 to lift the compression plate 16, the compression plate 16 can drive the top frame 22 to push the top frame 27 to pull the material receiving plate 27 to retract, and the flywheel shaft 27 can rotate synchronously, and the flywheel shaft 19 can not be pushed out, and the compression shaft 19 can be prevented from rotating and the flywheel shaft 19 to rotate and can be synchronously pushed and the compression plate 19 to rotate and the top frame 27 to push the top frame to rotate.

In summary, when the energy-saving and environment-friendly construction waste treatment device is used, firstly, waste is sent into a pressure chamber 202 from a feed inlet 201, a cam 207 rotates in the pressure chamber 202, a pressure plate 205 can be pushed to press the waste, so that the waste is primarily crushed, metal falls off from the waste, after the primarily crushed waste falls into a separation chamber 208, a separation plate 210 can carry the waste, a hollow wheel shaft 209 rotates, the waste is transported through the separation plate 210, when the waste moves to a shunt tank 10, a magnet 211 can adsorb the metal to avoid the metal from entering the shunt tank 10, when the waste moves to a discharge tank 213, the magnet 211 does not adsorb the metal, the metal can leave a box body 1 through the discharge tank 213, the separation of the metal is completed, after the waste enters the shunt tank 10, a crushing shaft 11 can secondarily crush the waste, thereby being convenient for compress the waste materials, when the secondary crushing, the scraping plate 12 can avoid the waste materials to adhere to the crushing shaft 11, thereby causing the waste materials to be piled up in the diversion tank 10 and difficult to clean, after the crushed material enters the compression chamber 13 from the diversion tank 10, the motor 20 can drive the connecting rod 18 to rotate through the flywheel shaft 19, thereby driving the compression plate 16 to compress the waste materials through the compression rod 17, when in compression, the compression plate 16 can drive the sliding plate 15 to slide in the sliding groove 14, thereby avoiding the waste materials falling above the compression plate 16, and when the compression plate 16 moves, the torsion spring 23 can drive the winding wheel 21 to wind the stay cord 22, thereby avoiding the stay cord 22 to be pressed into the waste materials, along with the increase of the waste materials, the material receiving plate 25 can compress the return spring 24, when the weight of the waste materials is matched with the pressure of the compression plate 16 to completely compress the return spring 24, the material ejecting spring 26 can drive the material ejecting frame 27 to the left, the compressed waste is pushed out of the compression chamber 13, pull ropes 22 are pulled out of winding wheels 21, when the waste is pushed out, ejector frames 27 can block the material receiving plates 25, the phenomenon that the ejector frames 27 cannot be retracted due to the fact that return springs 24 drive the material receiving plates 25 to rise is avoided, after the waste is pushed out, when compression plates 16 are driven to rise by pressure rods 17, the ejector frames 27 are pulled back to the compression chamber 13 through the pull ropes 22 and the ejector springs 26 are compressed by the compression plates 16, after the ejector frames 27 are reset, the return springs 24 can drive the material receiving plates 25 to rise back and block the ejector frames 27, the phenomenon that the ejector frames 27 are ejected out to cause the material receiving plates 25 to fall is avoided, when a motor 20 drives the flywheel shafts 19 to rotate, the flywheel shafts 19 can drive cams 207, hollow shafts 209 and the crushing shafts 11 to synchronously rotate, during crushing, water in the water pump 4 can be pumped out of the water tank 3, and spray the pressure chamber 202 through spray heads 7 to reduce dust, pollution caused by dust overflow is avoided, after the waste falls into the partition plates 210, the partition plates 205 are lowered in the compression chamber 13, the hollow shafts 16 can be pumped into the hollow shafts 209 through the hollow shafts 209, and the hollow shafts 9 can be pumped into the hollow shafts 9 to enter the water tank through the hollow shafts 9, and the hollow shafts 9 to be connected with the water tank through the hollow shafts, and the water tank is completely separated into the hollow shafts 9, and the water tank is completely connected with the hollow shafts, and the water tank is completely separated from the hollow shafts and the water tank is separated from the hollow tanks.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The utility model provides an energy-concerving and environment-protective construction waste treatment facility, its characterized in that includes box (1) and separation subassembly (2), upper left portion of box (1) is provided with separation subassembly (2), separation subassembly (2) are including feed inlet (201), pressure chamber (202), spacing groove (203), spacing pole (204), pressure plate (205), pressure spring (206), cam (207), separation chamber (208), hollow shaft (209), division board (210), magnet (211), magnetism isolating plate (212) and blown down tank (213), feed inlet (201) have been seted up to upper left portion of box (1), and feed inlet (201) below is provided with pressure chamber (202), spacing groove (203) have been seted up to pressure chamber (202) left and right sides symmetry, and fixedly connected with spacing pole (204) in spacing groove (203), spacing pole (204) one end fixedly connected with pressure plate (205), and the spacing pole (204) outside is provided with pressure spring (206), pressure chamber (202) are at one side that pressure plate (205) are kept away from each other rotates and are connected with pressure chamber (207), and hollow shaft (208) are connected with separation chamber (209), and hollow shaft (209) periphery fixedly connected with division board (210), hollow shaft (209) inboard is provided with magnet (211), and magnet (211) one side is provided with magnet separation board (212), blown down tank (213) have been seted up in separation chamber (208) left side.

2. The energy-saving and environment-friendly construction waste treatment equipment according to claim 1, wherein two ends of the pressure spring (206) are fixedly connected with the pressure plate (205) and the inner wall of the pressure chamber (202) respectively, the pressure plate (205) is elastically connected with the pressure chamber (202) through the pressure spring (206), the limit rod (204) is slidably connected with the pressure chamber (202) through the limit groove (203), the magnet (211) and the magnetism isolating plate (212) are fixedly connected with the inner wall of the pressure chamber (202), and the front ends of the cams (207) are connected through gears.

3. The energy-saving and environment-friendly construction waste treatment equipment according to claim 1, wherein a water tank (3) is arranged at the left middle part of the box body (1), a water pump (4) is connected to the rear of the water tank (3), a filter (5) is arranged in front of the water tank (3), a communicating vessel (6) is arranged above the filter (5), spray heads (7) are symmetrically arranged at the left side and the right side of the feed inlet (201), and the spray heads (7) are communicated with the water pump (4) through water pipes.

4. The energy-saving and environment-friendly construction waste treatment equipment according to claim 3, wherein the communicating vessel (6) is internally provided with a communicating cavity (8), the rear part and the lower part of the communicating cavity (8) are provided with one-way valves (9), the communicating cavity (8) is Y-shaped, and the rear end and the lower end of the communicating cavity (8) are respectively connected with the hollow wheel shaft (209) and the filter (5) through pipelines.

5. The energy-saving and environment-friendly construction waste treatment equipment according to claim 3, wherein the right side of the separation chamber (208) is provided with a splitter box (10), the upper side and the lower side of the splitter box (10) are symmetrically and rotationally connected with a crushing shaft (11), the splitter box (10) is symmetrically and fixedly connected with scraping plates (12) on the two sides of the crushing shaft (11), the right side of the splitter box (10) is provided with a compression chamber (13), the front end of the communication chamber (8) is communicated with the upper part of the compression chamber (13) through a pipeline, and the front ends of the crushing shafts (11) are connected through gears.

6. The energy-saving and environment-friendly construction waste treatment equipment according to claim 5, wherein a chute (14) is arranged at the upper left of the compression chamber (13), a sliding plate (15) is connected in the chute (14) in a sliding manner, a compression plate (16) is fixedly connected to the lower end of the sliding plate (15), and a compression rod (17) is fixedly connected to the upper side of the compression plate (16).

7. The energy-saving and environment-friendly construction waste treatment equipment according to claim 6 is characterized in that a connecting rod (18) is rotatably connected above the pressure rod (17), a flywheel shaft (19) is rotatably connected above the connecting rod (18), a motor (20) is fixedly connected behind the flywheel shaft (19), and the flywheel shaft (19) is connected with a hollow wheel shaft (209), a crushing shaft (11) and a cam (207) through a belt and a belt pulley.

8. The energy-saving and environment-friendly construction waste treatment equipment according to claim 7, wherein the right part of the compression plate (16) is rotatably connected with a winding wheel (21), a pull rope (22) is wound on the surface of the winding wheel (21), and torsion springs (23) are symmetrically and fixedly connected to the front end and the rear end of the winding wheel (21).

9. The energy-saving and environment-friendly construction waste treatment equipment according to claim 8, wherein return springs (24) are symmetrically and fixedly connected below the compression chamber (13), a material receiving plate (25) is fixedly connected to the upper end of each return spring (24), and the material receiving plate (25) is elastically connected with the compression chamber (13) through the return springs (24).

10. The energy-saving and environment-friendly construction waste treatment equipment according to claim 9, wherein the left side of the compression chamber (13) is fixedly connected with a material ejection spring (26), the right side of the material ejection spring (26) is fixedly connected with a material ejection frame (27), the material ejection frame (27) is in clamping sliding connection with the box body (1), the material ejection frame (27) is elastically connected with the compression chamber (13) through the material ejection spring (26), and the pull rope (22) is fixedly connected with the right upper end of the material ejection frame (27).