CN216150650U

CN216150650U - Inorganic matter automatic separation squeezes device

Info

Publication number: CN216150650U
Application number: CN202122146395.4U
Authority: CN
Inventors: 韩跃国; 江星
Original assignee: Suzhou Hanbo Environmental Technology Co ltd
Current assignee: Suzhou Hanbo Environmental Technology Co ltd
Priority date: 2021-09-07
Filing date: 2021-09-07
Publication date: 2022-04-01
Anticipated expiration: 2031-09-07

Abstract

An automatic inorganic matter sorting and pressing device comprises: the crusher comprises a crusher, a roller screening device, an inorganic matter discharge port, a squeezer and a rack, wherein the roller screening device comprises a screening feed port, a roller, a screening outer cover, a spiral feeder, a first driving device and a second driving device, the roller screening device is in rolling contact with the rack, and the inorganic matter discharge port and the squeezer are respectively positioned at a first discharge end and a second discharge end below the roller; the squeezer comprises a speed reducer assembly, a squeezer shell, a water filtering net, a spiral squeezing shaft, a material receiving box and a variable pitch assembly, wherein the variable pitch assembly can move left and right to control squeezing and blanking of materials. The advantages are as follows: the integrated treatment of crushing, screening and squeezing has high efficiency and automation degree and low labor intensity; the structure is simple, and the maintenance is convenient; can meet the treatment requirements of garbage with different scales and is flexible to adjust.

Description

Inorganic matter automatic separation squeezes device

Technical Field

The utility model relates to the technical field of garbage screening devices, in particular to an automatic inorganic matter sorting and squeezing device.

Background

The kitchen waste is an important component of household waste and accounts for about 6 percent of the household waste. The kitchen waste contains more oil stains, water and inorganic wastes, most of the inorganic wastes are mainly thin-film plastics, the regeneration times of the plastics are few, the quality is good, the plastic is the most ideal raw material for oil refining or granulation of plastics, and the market supply is short due to the advantages of price and quality.

The kitchen waste needs to be screened and crushed before fermentation treatment, the existing equipment generally firstly sorts the waste, then crushes the sorted waste, and the separated organic matter is fermented to prepare the organic fertilizer. The following drawbacks exist:

(1) the treatment mode of first screening and then crushing can prolong the garbage treatment time and increase the labor intensity;

(2) the garbage treatment efficiency is low;

(3) the processes of screening, sorting, deoiling, dewatering and the like of the garbage are independently carried out;

the utility model provides an automatic inorganic matter sorting and squeezing device, which solves the technical problems.

SUMMERY OF THE UTILITY MODEL

An inorganic matter automatic separation squeezing device comprises a pulverizer, a roller screening device, an inorganic matter discharge port, a squeezer and a rack, wherein the pulverizer, the roller screening device, the inorganic matter discharge port and the squeezer are all fixed with the rack, the roller screening device comprises a screening feed port, a roller, a screening outer cover, a spiral feeder, a first driving device and a second driving device, a gear is arranged outside the roller, a gear at the output end of the second driving device is connected with a gear chain outside the roller, the spiral feeder is positioned in a spiral feeder cover body, the spiral feeder and the spiral feeder cover body extend into an inner cavity of the roller, the spiral feeder cover body is fixed with a fixing plate of the first driving device, the power output end of the first driving device is connected with one end of the spiral feeder, one end of the spiral feeder cover body is provided with a feed hole communicated with the feed port, the upper end of the feeding hole is connected with a discharging hole of the pulverizer, a sealing baffle plate of a cover body of the spiral feeder is sealed with the feeding end of the roller, and the inorganic matter discharging hole is formed in the first discharging end of the roller; the squeezer sets up the second discharge end of cylinder below, the screening dustcoat sets up the outside of cylinder and with the frame is fixed, the cylinder processing has the screening hole just the cylinder with the frame rolling contact.

Preferably, the inorganic matter automatic separation squeezes the device, the cylinder screening plant still includes spiral guide strip, spiral guide strip sets up the inner wall of cylinder.

Preferably, the inorganic matter automatic separation squeezing device and the roller screening device further comprise a limiting rolling assembly, the limiting rolling assembly comprises wear-resistant rings and rolling wheels, the two groups of rolling wheels are respectively installed at the positions of the racks at the front end and the rear end of the roller, the wear-resistant rings are fixed on the outer side of the roller, and the wear-resistant rings are in rolling contact with the rolling wheels.

Preferably, the inorganic matter automatic separation squeezes the device, cylinder screening plant still includes the shower, inside the shower extends to the screening dustcoat, a plurality of spray holes towards the cylinder have been seted up to the shower.

Preferably, the inorganic matter automatic separation squeezing device is characterized in that fixing ribs are arranged on two sides of the inorganic matter discharge port, the fixing ribs are fixed to the rack through a U-shaped frame, a U-shaped groove is formed in the side surface of the upper plate of the U-shaped frame, and the U-shaped groove is clamped outside the fixing ribs.

Preferably, inorganic matter automatic separation squeezes device, the squeezer includes speed reducer subassembly, squeezer shell, strainer, the crowded material axle of spiral, connects workbin, displacement subassembly, upper end open-ended be provided with in the material receiving box and connect the flitch, speed reducer subassembly the output with the crowded material of spiral shaft drive is connected, the strainer sets up in the squeezer shell, the crowded material axle of spiral extends to in the strainer, the one end and the strainer fixed plate of strainer, the other end and the outer wall of material receiving box are fixed, the strainer fixed plate with the frame is fixed, the displacement subassembly pass through the displacement realize with opening and shutting of strainer fixed plate, connect the material hole of workbin upper end with the second discharge end of screening dustcoat lower extreme is connected, connect the workbin with the frame is fixed.

Preferably, the inorganic matter automatic separation squeezing device is provided with water leakage holes in the material receiving plate.

Preferably, inorganic matter automatic separation squeezes the device, the one end of the crowded material axle of spiral is provided with the gear box, the one end of the crowded material axle of spiral pass the gear box and with the crowded material axle of spiral passes through antifriction bearing rotary type and is connected, the other end of the crowded material axle of spiral passes strainer fixed plate, displacement subassembly and the crowded material axle fixed plate antifriction bearing of spiral are connected, the crowded material axle fixed plate of spiral with the frame is fixed, the displacement subassembly with the crowded material axle fixed plate of spiral is fixed, the gear box with the frame is fixed, the speed reducer subassembly with the gear box is fixed, the output shaft of speed reducer subassembly passes gear box and the inside output shaft of gear box, the crowded material axle of spiral and all installs through chain pivoted gear.

Preferably, the inorganic matter automatic separation squeezes the device, the displacement subassembly includes pneumatic cylinder, spring thrust plate, spring, putty board, the both ends of spring respectively with spring thrust plate, putty board are fixed, the pneumatic cylinder is fixed screw extrusion material axle fixed plate face and output shaft are fixed with the thrust plate, water strainer fixed plate face processing has the discharge opening just putty board and putty board centering set up.

Preferably, the inorganic matter automatic separation squeezing device further comprises a water receiving hopper, the water receiving hopper is arranged below the shell of the squeezing machine and the material receiving box, the water outlets of the shell of the squeezing machine and the material receiving box are communicated with the inner cavity of the water receiving hopper, and a water outlet pipe is arranged below the water receiving hopper.

The working principle is as follows:

the kitchen waste is crushed by the crusher, inorganic matters (plastics) are not easy to crush, after entering the drum screening device, the crushed organic matters pass through holes in the drum wall through centrifugal force by high-speed rotation of the drum and then fall into the squeezer, and larger plastics cannot pass through the drum and enter the inorganic matter discharge port along with the conveying of the spiral feeder to the first discharge end, so that the purpose of separating the organic matters from the inorganic matters is achieved; after entering the squeezer, the speed reducer subassembly drives the crowded material axle of spiral and rotates and pass the material, and the axle diameter grow gradually of the crowded material axle of spiral squeezes rubbish, and liquid spills from the water strainer and discharges through the outlet pipe, and the drier after squeezing discharges from displacement subassembly.

The advantages are as follows:

(1) the automatic inorganic matter sorting and squeezing device integrates crushing, screening and squeezing, is high in efficiency and automation degree, and reduces labor intensity;

(2) the automatic inorganic matter sorting and squeezing device has simple structure and convenient maintenance;

(3) the automatic inorganic matter sorting and squeezing device can meet the treatment requirements of garbage of different scales by changing the treatment capacity of crushing, screening and squeezing, and is flexible to adjust.

Description of the drawings:

the embodiments are further described with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view of the structure of an automatic inorganic material sorting and pressing apparatus according to the present invention;

FIG. 2 is a schematic view of a portion of the drum screening device, press, to which the present invention relates;

FIG. 3 is a schematic view of a portion of a drum screening device in accordance with the present invention;

the specific structure corresponding to the number is as follows:

the crusher 1, the roller screening device 2, the screening feed inlet 21, the roller 22, the screening outer cover 23, the screw feeder 24, the screw feeder cover 241, the sealing baffle 2411, the first driving device 25, the second driving device 26, the screw guide strip 27, the wear-resistant ring 28, the rolling wheel 29, the spray pipe 210, the inorganic material discharge port 3, the fixing rib 31, the U-shaped frame 32, the U-shaped groove 321, the presser 4, the speed reducer assembly 41, the presser housing 42, the water strainer 43, the water strainer fixing plate 431, the screw extrusion shaft 44, the screw extrusion shaft fixing plate 441, the material receiving box 45, the material receiving plate 451, the variable pitch assembly 46, the hydraulic cylinder 461, the spring thrust plate 462, the spring 463, the blocking plate 464, the gear box 47, the frame 5 and the water receiving hopper 6,

the following detailed description will further illustrate the utility model in conjunction with the above-described figures.

Detailed Description

Specific embodiment example 1:

an automatic inorganic matter sorting and pressing device comprises: the crusher 1, the roller screening device 2, the inorganic material outlet 3, the squeezer 4 and the frame 5 are all fixed to the frame 5, the roller screening device 2 includes a screening inlet 21, a roller 22, a screening outer cover 23, a screw feeder 24, a first driving device 25 and a second driving device 26, a gear is arranged outside the roller 22, a gear at an output end of the second driving device 26 is connected with a gear chain outside the roller 22, the screw feeder 24 is located in a screw feeder cover 241, the screw feeder 24 and the screw feeder cover 241 extend into an inner cavity of the roller 22, the screw feeder cover 241 is fixed to a fixing plate of the first feeder driving device 25, a power output end of the first driving device 25 is connected to one end of the screw feeder 24, a feeding hole communicated with the feeding hole 21 is processed at one end of the spiral feeder cover body 241, the upper end of the feeding hole 21 is connected with a discharging hole of the pulverizer 1, a sealing baffle 2411 of the spiral feeder cover body 241 is sealed with the feeding end of the roller 22, and the inorganic matter discharging hole 3 is arranged at the first discharging end of the roller 22; the presser 4 is arranged at the second discharge end below the drum 22, the screening cover 23 is arranged outside the drum 22 and fixed to the frame 5, the drum 22 is provided with screening holes, and the drum 22 is in rolling contact with the frame 5.

Further, the drum screening device 2 further comprises a spiral guide strip 27, and the spiral guide strip 27 is arranged on the inner wall of the drum 22. Facilitating the directional rearward transfer of the material in the drum 2.

Further, the roller screening device 2 further comprises a limiting rolling assembly, the limiting rolling assembly comprises wear-resistant rings 28 and rolling wheels 29, the two groups of rolling wheels 29 are respectively installed at the front end and the rear end of the roller 22 on the machine frame 5, the wear-resistant rings 28 are fixed on the outer side of the roller 22, and the wear-resistant rings 28 are in rolling contact with the rolling wheels 29.

Further, the drum screening device 2 further comprises a spray pipe 210, the spray pipe 210 extends into the screening outer cover 23, and the spray pipe 210 is provided with a plurality of spray holes facing the drum 22. The shower pipe 210 is used for spraying water to wash oil stains in the garbage.

Further, fixing ribs 31 are arranged on two sides of the inorganic material outlet 3, the fixing ribs 31 are fixed to the frame 5 through a U-shaped frame 32, a U-shaped groove 321 is formed in the upper plate side of the U-shaped frame 32, and the U-shaped groove 321 is clamped outside the fixing ribs 31.

Specific embodiment example 2:

Wherein, squeezer 4 includes speed reducer subassembly 41, squeezer shell 42, water strainer 43, spiral extrusion axle 44, connects workbin 45, displacement subassembly 46, upper end open-ended be provided with in the material strainer 45 and connect flitch 451, speed reducer subassembly 41's output with spiral extrusion axle 44 transmission is connected, water strainer 43 sets up in squeezer shell 42, spiral extrusion axle 44 extends to in the water strainer 43, the one end of water strainer 43 and water strainer fixed plate 431 are fixed, the other end with the outer wall of material strainer 45 is fixed, water strainer fixed plate 431 with frame 5 is fixed, displacement subassembly 46 through the displacement realize with the opening and shutting of water strainer fixed plate 431, connect the material receiving hole of workbin 45 upper end with the second discharge end of screening dustcoat 23 lower extreme is connected, material strainer 45 with frame 5 is fixed.

Further, the material receiving plate 451 is provided with water leakage holes.

Further, one end of the spiral extrusion shaft 44 is provided with a gear box 47, one end of the spiral extrusion shaft 44 penetrates through the gear box 47 and is rotatably connected with the spiral extrusion shaft 44 through a rolling bearing, the other end of the spiral extrusion shaft 44 penetrates through the water strainer fixing plate 431 and the variable pitch assembly 46 and is connected with the spiral extrusion shaft fixing plate 441 through a rolling bearing, the spiral extrusion shaft fixing plate 441 is fixed with the rack 5, the variable pitch assembly 46 is fixed with the spiral extrusion shaft fixing plate 441, the gear box 47 is fixed with the rack 5, the speed reducer assembly 41 is fixed with the gear box 47, an output shaft of the speed reducer assembly 41 penetrates through the gear box 47, and gears rotating through chains are mounted on the output shaft inside the gear box 47 and the spiral extrusion shaft 44.

Further, the variable pitch assembly 46 includes a hydraulic cylinder 461, a spring thrust plate 462, a spring 463, and a blocking plate 464, two ends of the spring 463 are respectively fixed to the spring thrust plate 462 and the blocking plate 464, the hydraulic cylinder 461 is fixed to the surface of the spiral extrusion shaft fixing plate 441, an output shaft is fixed to the thrust plate 462, a discharge hole is processed on the surface of the strainer fixing plate 431, and the blocking plate 464 and the blocking plate are arranged in a centering manner; an extension shaft at the end of the screw extrusion shaft 44 passes through the blocking plate 464, the spring 463 and the spring thrust plate 462 to be rotatably connected with the screw extrusion shaft fixing plate 441. When squeezing is needed, the hydraulic cylinder 461 works to push the spring thrust plate 462 to enable the blocking plate 464 to block the discharge hole in the surface of the water strainer fixing plate 431, after the compression is completed, the hydraulic cylinder 461 retracts to enable the blocking plate 464 to leave the water strainer fixing plate 431, and squeezed dry materials fall from the discharge hole.

Further, the automatic squeezing machine further comprises a water receiving hopper 6, wherein the water receiving hopper 6 is arranged below the shell 42 of the squeezing machine and the material receiving box 45, the water outlets of the shell 42 of the squeezing machine and the material receiving box 45 are communicated with the inner cavity of the water receiving hopper 6, and a water outlet pipe is arranged below the water receiving hopper 6 and used for discharging squeezed and separated liquid.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides an inorganic matter automatic separation squeezes device, includes rubbing crusher, drum screening plant, inorganic matter discharge gate, squeezer, frame, rubbing crusher, drum screening plant, inorganic matter discharge gate, squeezer all with the frame is fixed, its characterized in that: the roller screening device comprises a screening feed inlet, a roller, a screening outer cover, a spiral feeder, a first driving device and a second driving device, wherein a gear is arranged outside the roller, the gear at the output end of the second driving device is connected with a gear chain outside the roller, the spiral feeder is positioned in a spiral feeder cover body, the spiral feeder and the spiral feeder cover body extend into an inner cavity of the roller, the spiral feeder cover body is fixed with a fixing plate of the first driving device, the power output end of the first driving device is connected with one end of the spiral feeder, one end of the spiral feeder cover body is provided with a feed hole communicated with the feed inlet, the upper end of the feed inlet is connected with a discharge hole of the pulverizer, and a sealing baffle plate of the spiral feeder cover body is sealed with the feed end of the roller, the inorganic matter discharge port is arranged at the first discharge end of the roller; the squeezer sets up the second discharge end of cylinder below, the screening dustcoat sets up the outside of cylinder and with the frame is fixed, the cylinder processing has the screening hole just the cylinder with the frame rolling contact.

2. The automatic separation press apparatus for inorganic substances according to claim 1, wherein: the drum screening device further comprises a spiral material guiding strip, and the spiral material guiding strip is arranged on the inner wall of the drum.

3. The automatic separation press apparatus for inorganic substances according to claim 1, wherein: the roller screening device further comprises a limiting rolling assembly, the limiting rolling assembly comprises wear-resistant rings and rolling wheels, the two groups of rolling wheels are respectively installed at the positions of the racks at the front end and the rear end of the roller, the wear-resistant rings are fixed on the outer side of the roller, and the wear-resistant rings are in rolling contact with the rolling wheels.

4. The automatic separation press apparatus for inorganic substances according to claim 1, wherein: the roller screening device further comprises a spraying pipe, the spraying pipe extends to the inside of the screening outer cover, and a plurality of spraying holes facing the roller are formed in the spraying pipe.

5. The automatic separation press apparatus for inorganic substances according to claim 1, wherein: the two sides of the inorganic material discharge port are provided with fixing ribs, the fixing ribs are fixed with the rack through a U-shaped frame, the side surface of the upper plate of the U-shaped frame is provided with a U-shaped groove, and the U-shaped groove is clamped outside the fixing ribs.

6. The automatic separation press apparatus for inorganic substances according to claim 1, wherein: the squeezer includes speed reducer subassembly, squeezer shell, strainer, the crowded material axle of spiral, connects workbin, displacement subassembly, upper end open-ended be provided with in connecing the workbin and connect the flitch, the output of speed reducer subassembly with the transmission of the crowded material axle of spiral is connected, the strainer sets up in the squeezer shell, the crowded material axle of spiral extends to in the strainer, the one end and the strainer fixed plate of strainer are fixed, the other end with the outer wall that connects the workbin is fixed, the strainer fixed plate with the frame is fixed, the displacement subassembly pass through the displacement realize with opening and shutting of strainer fixed plate, connect the material hole of workbin upper end with the second discharge end of screening dustcoat lower extreme is connected, connect the workbin with the frame is fixed.

7. The automatic separation press apparatus for inorganic substances according to claim 6, wherein: and the material receiving plate is provided with a water leakage hole.

8. The automatic separation press apparatus for inorganic substances according to claim 6, wherein: the one end of crowded material axle of spiral is provided with the gear box, the one end of crowded material axle of spiral pass the gear box and with crowded material axle of spiral passes through antifriction bearing rotary type and is connected, the other end of crowded material axle of spiral passes strainer fixed plate, displacement subassembly and the crowded material axle fixed plate antifriction bearing of spiral are connected, crowded material axle fixed plate of spiral with the frame is fixed, the displacement subassembly with crowded material axle fixed plate of spiral is fixed, the gear box with the frame is fixed, the speed reducer subassembly with the gear box is fixed, the output shaft of speed reducer subassembly passes gear box and the inside output shaft of gear box, the crowded material axle of spiral and all installs through chain pivoted gear.

9. The automatic separation press apparatus for inorganic substances according to claim 8, wherein: the variable pitch assembly comprises a hydraulic cylinder, a spring thrust plate, a spring and a blocking plate, wherein two ends of the spring are fixed with the spring thrust plate and the blocking plate respectively, the hydraulic cylinder is fixed to the surface of the spiral extrusion shaft fixing plate and an output shaft of the spiral extrusion shaft fixing plate are fixed to the thrust plate, a discharge hole is formed in the surface of the water strainer fixing plate, and the blocking plate are arranged in a centering mode.

10. The automatic separation press apparatus for inorganic substances according to claim 6, wherein: the water receiving hopper is arranged below the shell of the press and the material receiving box, the water outlets of the shell of the press and the material receiving box are communicated with the inner cavity of the water receiving hopper, and a water outlet pipe is arranged below the water receiving hopper.