CN210045581U

CN210045581U - Garbage sorting and processing system

Info

Publication number: CN210045581U
Application number: CN201920631049.5U
Authority: CN
Inventors: 李华宾
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-05-05
Filing date: 2019-05-05
Publication date: 2020-02-11
Anticipated expiration: 2029-05-05

Abstract

The utility model relates to a refuse separation processing system belongs to refuse treatment technical field. Comprises a winnowing structure and a screening structure which are arranged in sequence; the air separation structure comprises a feeding device, a feeding hopper is arranged below an outlet of the feeding device, a discharging device A is arranged below the feeding hopper, a first side of the feeding hopper is communicated with an air inlet, the air inlet is communicated with an air blower, a second side of the feeding hopper is communicated with an air outlet, the air outlet comprises a buffering part arranged above the buffering part, the buffering part is set to be circular arc-shaped, the air outlet further comprises a lower material plate arranged below the air outlet, the lower material plate is arranged in a downward inclined mode, the buffering part and the lower material plate are connected through a. The utility model discloses to the rubbish of preparing the landfill, select separately the back and burn and retrieve, realized energy make full use of, reduced the landfill volume greatly, reduced environmental pollution.

Description

Garbage sorting and processing system

Technical Field

The utility model relates to a refuse separation processing system belongs to refuse treatment technical field.

Background

The garbage generation is continuous, the treatment difficulty is high, and the main treatment means at present mainly comprises crushing, dehydration, compression and landfill. Burning part of organic garbage and burying the rest of garbage. Can reduce the landfill amount of the garbage by 30 percent, namely after the garbage is treated, 70 percent of the garbage still needs to be buried, and the influence on the environmental pollution is great.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a refuse separation processing system to the rubbish of being equipped with the landfill, selects separately postcombustion and recovery, has realized energy make full use of, has reduced the landfill volume greatly, has reduced environmental pollution.

The garbage sorting and processing system comprises a winnowing structure and a screening structure which are arranged in sequence; the air separation structure comprises a feeding device, the feeding device is a feeding belt, a discharging opening of the feeding belt is arranged in an upward inclined mode, a feeding hopper is arranged below an outlet of the feeding device, a discharging device A is arranged below the feeding hopper, a first side of the feeding hopper is communicated with an air inlet, the air inlet is communicated with an air blower, a second side of the feeding hopper is communicated with an air outlet, the air outlet comprises a buffering part arranged above the buffering part, the buffering part is arranged in an arc shape, the air outlet further comprises a blanking plate arranged below the blanking plate, the blanking plate is arranged in a downward inclined mode, the buffering part and the blanking plate are connected through a.

The garbage that prepares the landfill is sent into the feeding funnel through loading attachment and is fallen down, and wind gets into the feeding funnel from the air intake, and the rubbish that gets into the feeding funnel is bloied and is selected separately, and lighter rubbish gets into the screening structure from the air outlet along with wind, and heavier rubbish passes through discharging device A ejection of compact.

Air separation is generally used in dry grinding, and is widely applied to dry material separation, but the moisture content of garbage is very high, and the humidity generally reaches more than 50%, in this case, the materials are generally difficult to separate under the adhesion of water, and organic matters cannot be extracted from the garbage. Repeated research shows that the garbage has high water content and high humidity, and the winnowing is easy to block and the wind power must be maintained continuously, otherwise, the material sinks, and the winnowing cannot be realized.

The utility model adopts the blanking plate, which realizes the smooth gliding of the garbage along with the blanking plate and avoids the blockage; the upper portion of the air inlet adopts the air buffering portion, so that the wind power is prevented from being reduced due to the fact that the wind power changes the direction, the continuity and the continuity of the wind power are kept, and the garbage is guaranteed to smoothly sort and then enter the air outlet from the feeding hopper.

The lower end of the air retarding part is connected with the air outlet plate, and the air retarding part is tangent to the air outlet plate; the horizontal line of the joint of the air-buffering part and the feeding hopper is tangent to the air-buffering part.

The included angle between the blanking plate and the vertical line is 25-45 degrees.

The blanking plate extends into the upper hopper and is provided with a material receiving plate.

The width of the connecting plate is the height of the air outlet, the width of the air buffering part is the width of the air outlet, the width of the air outlet is larger than the height, and the length-width ratio of the air outlet is 3:1-2: 1.

The air inlet comprises an air inlet plate which is arranged in parallel up and down, the air inlet plate is horizontally arranged, two sides of the air inlet plate are connected through side plates, the air inlet is connected with a blower through an air inlet pipe, the width of each side plate is the height of the air inlet, the width of the air inlet plate is the width of the air inlet, the width of the air inlet is larger than the height, and the length-width ratio of the air inlet is 3:1-2: 1; the air inlet is correspondingly arranged in the air outlet.

The upper portion of the feeding hopper is provided with an adjusting plate, the adjusting plate is arranged between a discharge port of the feeding device and the air inlet, and the bottom of the adjusting plate is not lower than the top end of the air inlet.

The screening structure comprises a drum screen, an outlet of the drum screen is arranged in a downward inclined manner, a first end of the drum screen is communicated with the air outlet, a discharge chute B is arranged at a second end of the drum screen, and a discharge device B is arranged below the discharge chute B; a discharge chute A is arranged below the drum screen;

the rotary screen comprises a screen body, a protective shell is arranged outside the screen body, a fixed seat is arranged on the inner wall of the screen body, a connecting shaft is arranged on the fixed seat, a connecting rod which is vertically connected is arranged on the connecting shaft, and a vibrating hammer is arranged at the other end of the connecting rod.

the drum sieve comprises a sieve body, a protective shell is arranged outside the sieve body, a hairbrush is arranged on the inner wall of the protective shell in a manner of corresponding to the sieve body along the axial direction, the hairbrush is arranged on one side of the sieve body, which rotates upwards, and the length of the hairbrush is greater than the width of a gap between the sieve body and the protective shell.

The effective working length of the brush is consistent with that of the screen body.

And a discharging device C is arranged below the discharging groove.

An air return port is arranged above the protective shell along the axial direction of the drum screen and is communicated with the blower through an air return pipe; the width of the air return opening is greater than 1/3 of the effective sieving length of the sieve body, and the ratio of the length to the width of the air return opening is 3:1-2: 1.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a set up selection by winnowing structure and screening structure, through adopting the mode that selection by winnowing mode and screening mode combine, carry out further sorting to the rubbish after handling, realized higher rate of recovery to rubbish, saved the energy, reduced the rubbish landfill volume, reduced environmental pollution;

2. the problem of blockage and continuous winnowing is solved by arranging the air buffering part of the air outlet and the blanking plate, the moisture content of the garbage is high, the humidity is high, the blanking plate is adopted in the garbage winnowing machine, the garbage can smoothly slide down along the blanking plate, and the blockage is avoided; the upper part of the air inlet adopts the air buffering part, so that the wind force is prevented from being reduced due to the change of the wind force, the continuity and the continuity of the wind force are kept, and the garbage is ensured to enter the air outlet from the feeding hopper after being smoothly sorted;

3. the air-buffering part is in an arc shape, and the joint of the air-buffering part and the feeding hopper is horizontally arranged; when wind enters the wind slowing part from the feeding hopper, the horizontal entering state is kept, then the direction is gradually changed, the descending speed of the wind power is slow, and the continuous air separation can be kept.

4. The air inlet plate of air intake downward sloping arranges, and make full use of action of gravity is favorable to utilizing the material to fall into the air outlet downwards, reduces wind-force energy loss, promotes separation efficiency.

5. The material loading belt discharge gate tilt up arranges, has increased the material loading resistance, ensures that the material loading is more even, and the material is more even when falling into the material loading hopper from the material loading belt, more is favorable to selecting separately, ensures to select separately the effect.

6. The adjusting plate is used for adjusting the sorting effect, and the amount of the organic matters subjected to air sorting is reduced when the adjusting plate is close to the air inlet; the adjusting plate is close to the air outlet, so that the amount of organic matters in air separation is increased, and the air separation effect is adjusted to be suitable for different materials.

7. Through the arrangement of the rotary screen with the vibrating hammer, the power does not need to be provided, and the vibrating hammer beats the rotary screen along with the normal rotation work of the rotary screen, so that firstly, the screening efficiency of the rotary screen is improved through vibration, the screening specification of the rotary screen can be improved, the screening classification is improved, and finer material particles are screened; and secondly, the blockage of the drum screen is prevented.

8. Through the drum sieve that sets up and have the brush, realize the screening in-process and wash the clearance to the drum sieve at any time, keep the effect of sieving.

Drawings

Figure 1 is a schematic structural view of an embodiment of the present invention,

figure 2 is a schematic top view of the loading belt of figure 1 with the loading belt removed,

figure 3 is a schematic structural view of one embodiment of a trommel,

figure 4 is a schematic structural view of another embodiment of the drum screen,

figure 5 is a schematic view of the air outlet and the air inlet,

figure 6 is a schematic view of the cross-sectional structure a-a of figure 5,

figure 7 is a schematic view of the cross-sectional structure B-B of figure 5,

figure 8 is a schematic cross-sectional view of C-C of figure 5,

FIG. 9 is a schematic cross-sectional view of C-C of FIG. 5.

In the figure: 1. a winnowing structure 2 and a screening structure;

1.1, a feeding belt 1.2, an air outlet 1.3, an adjusting plate 1.4, a feeding hopper 1.5, an air inlet 1.6, an air inlet pipe 1.7, an air blower 1.8, a discharging belt A1.11 and a material receiving plate;

1.21, a joint 1.22, a wind retarding part 1.23, a blanking plate 1.24, a connecting plate 1.25 and a wind outlet plate;

1.51, an air inlet plate 1.52 and a side plate;

2.1, a discharge belt B2.2, a discharge groove B2.4, a drum screen 2.5, a discharge groove A2.6, a discharge belt C2.7, an air return inlet 2.8 and an air return pipe;

2.41, protective housing 2.42, screen frame 2.43, vibratory hammer 2.44, connecting rod 2.45, connecting shaft 2.46, fixing base 2.47, brush.

In the figure, a represents an extension line of the blanking plate;

b represents a horizontal line at the joint of the air buffer part and the feeding hopper;

c represents the length of the air outlet;

d represents the width of the air outlet

e represents the length of the air inlet;

f represents the width of the air inlet;

g represents the width of the return air inlet;

h represents the length of the return air inlet;

i represents the height of an air outlet connected with the feeding hopper in the vertical direction;

j represents the height of an air inlet connected with the feeding hopper in the vertical direction;

the arrows in fig. 4 indicate the direction of rotation of the screen body.

Detailed Description

The technical solution in the embodiments of the present invention will be further clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention:

example 1

As shown in fig. 1-3 and fig. 5-8, the garbage sorting system of the present invention comprises an air separation structure 1 and a screening structure 2, which are arranged in sequence;

the winnowing structure 1 comprises a feeding device, the feeding device can be a feeding belt 1.1, a feeding hopper 1.4 is arranged below an outlet of the feeding device, a discharging device A is arranged below the feeding hopper 1.4, and the discharging device A can be a discharging belt A1.8; first side intercommunication air intake 1.5 of feeding funnel 1.4, air intake 1.5 intercommunication air-blower 1.7, feeding funnel 1.4 second side intercommunication air outlet 1.2, air outlet 1.2 is including locating the gentle wind portion 1.22 of top, it is circular-arc to establish to slow wind portion 1.22, air outlet 1.2 is still including locating the lower flitch 1.23 of below, lower flitch 1.23 downward sloping is arranged, it connects through connecting plate 1.24 to slow wind portion 1.22 and lower flitch 1.23 between, air outlet 1.2 intercommunication screening structure 2.

The fan can be connected with a variable frequency motor, and the wind speed of the fan is adjusted by adjusting the rotating speed of the variable frequency motor, so that the wind power is adjusted. If the wind power is high, more light materials enter the air outlet, and less heavy materials enter the discharging device; and the wind power is low, so that light materials entering the air outlet are few, and heavy materials entering the discharging device are more. When the humidity of the material is high, the amount of the light material entering the air outlet is reduced, and the wind power needs to be increased; on the contrary, when the humidity of the material is low, the wind power needs to be reduced. Usually, the wind power is properly adjusted according to the humidity of the materials, so that a better sorting effect is realized.

As shown in fig. 1 and 8, the feeding hopper is vertically arranged with a panel connecting the air inlet and the air outlet; the other two panels of the feeding hopper, the upper part of the top end of the air outlet is obliquely arranged from top to bottom inwards, and the lower part of the top end of the air outlet is square.

The lower end of the air retarding part 1.22 is connected with an air outlet plate 1.25, and the air retarding part 1.22 is tangent to the air outlet plate 1.25; the horizontal line of the joint 1.21 of the air buffer part 1.22 and the feeding hopper 1.4 is tangent to the air buffer part 1.22. Ensure that the wind power smoothly enters the wind-slowing part and ensure the winnowing effect. a represents an extension line of the blanking plate; b represents a horizontal line at the joint of the air buffer part and the feeding hopper; two ends of the air-buffering part are respectively tangent to a and b.

The included angle between the blanking plate 1.23 and the vertical line is 25-45 degrees. Preferably, the included angle between the blanking plate 1.23 and the vertical line is 25-35 degrees; preferably, the angle between the blanking plate and the vertical line can be 25 degrees, 30 degrees, 35 degrees, 40 degrees or 45 degrees.

The blanking plate 1.23 extends into the upper hopper 1.4 and is provided with a receiving plate 1.11. The material receiving plate can assist in receiving materials, and materials which are close to the air outlet and fall to the bottom end of the air outlet are received and sent into the air outlet.

The width of the connecting plate 1.24 is the height of the air outlet, the width of the air inlet buffering part 1.22 is the width of the air outlet 1.2, the width of the air outlet 1.2 is larger than the height, and the length-width ratio of the air outlet 1.2 is 3:1-2: 1. The ratio of the length c of the air outlet 1.2 to the width d of the air outlet can be 3:1, 2:1 or 2.5:1, the wide and flat air outlet is kept for a certain length, the wind energy is mainly ensured to be uniformly discharged, the wind speed is kept uniform, the wind is uniformly distributed in the feeding hopper and the air outlet, and the winnowing is facilitated. After a certain length is met, the air outlet pipe can be connected through the reducing air outlet pipe.

The air inlet 1.5 comprises air inlet plates 1.51 which are arranged in parallel up and down, the air inlet plates 1.51 are horizontally arranged, two sides of the air inlet plates 1.51 are connected through side plates 1.52, the air inlet 1.5 is connected with an air blower 1.7 through an air inlet pipe 1.6, the width of each side plate 1.52 is the height of the air inlet 1.5, the width of each air inlet plate 1.51 is the width of the air inlet 1.5, the width of each air inlet 1.5 is larger than the height, and the length-width ratio of each air inlet 1.5 is 3:1-2: 1; the ratio of the length e of the air inlet 1.5 to the width f of the air inlet can be 3:1, 2:1 or 2.5:1, and the air inlet is correspondingly arranged in the air outlet in the feeding hopper. As shown in fig. 8, the width of the air inlet may be the same as the width of the air outlet, and the width of the air inlet may be smaller than the width of the air outlet; the height j of the air inlet is smaller than the height i of the air outlet, the top end of the air inlet is lower than the top end of the air outlet, and the bottom end of the air inlet is higher than the bottom end of the air outlet. The air inlet is arranged to be wide and flat, so that air inlet uniformity can be kept, the air speed is stable and uniform, the air distribution is uniform, and the material winnowing effect is ensured.

The upper portion of the feeding hopper 1.4 is provided with an adjusting plate 1.3, the adjusting plate 1.3 is arranged between a discharge port of the feeding device and an air inlet 1.5, and the bottom of the adjusting plate 1.3 is not lower than the top end of the air inlet 1.2.

The discharge hole of the feeding belt 1.1 can be arranged in an upward inclined way. The material loading resistance has been increased, and the material loading can be more even, and the material is more even when falling to the feeding funnel from the material loading belt, and the selection by winnowing effect is better.

The screening structure 2 comprises a drum screen 2.4, an outlet of the drum screen 2.4 is arranged in a downward inclined manner, a first end of the drum screen 2.4 is communicated with an air outlet 1.2, a second end of the drum screen 2.4 is provided with a discharge chute B2.2, a discharge device B is arranged below the discharge chute B2.2, and the discharge device B can be a discharge belt B2.1; a discharge chute A2.5 is arranged below the drum screen 2.4; the drum screen 2.4 comprises a screen body 2.42, a protective shell 2.41 is arranged outside the screen body 2.42, a fixed seat 2.46 is arranged on the inner wall of the screen body 2.42, a connecting shaft 2.45 is arranged on the fixed seat 2.46, a connecting rod 2.44 which is vertically connected is arranged on the connecting shaft 2.45, and a vibration hammer 2.43 is arranged at the other end of the connecting rod 2.44. Discharging device C is arranged below the discharging groove 2.5, and the discharging device C can be a discharging belt C2.6. The vibration hammer 2.43 and the connecting rod 2.44 can rotate in the fixed seat 2.46 along with the connecting shaft 2.45, and the connecting shaft 2.45 can be connected with the fixed seat 2.46 through a bearing. The rotary screen can be provided with a gear ring outside, the driving motor is connected with a gear, and the gear is meshed with the gear ring. The driving motor drives the drum screen to rotate. The connection of the driving motor and the drum screen and the driving of the drum screen by the driving motor belong to the conventional prior art and are not described in detail.

An air return opening 2.7 is arranged above the protective shell 2.41 along the axial direction of the drum screen, and the air return opening 2.7 is communicated with a blower 1.7 through an air return pipe 2.8; the width of the air return opening is greater than 1/3 of the effective sieving length of the drum sieve, and the ratio of the length to the width of the air return opening is 3:1-2: 1. On the section of the air return opening, the width of the air return opening is larger than the height of the air return opening, and the width g of the air return opening is larger than 1/3 of the effective sieving length of the sieve body; the ratio of the length h of the air return opening to the width g of the air return opening can be 3:1, 2:1 or 2.5: 1.

Working process or working principle:

the method comprises the following steps that (1) garbage to be buried is conveyed into a feeding hopper through a feeding belt and falls down, an air blower blows air into the feeding hopper through an air inlet pipe and an air inlet, lighter materials are blown into an air outlet by the air, and then the materials fall into a drum screen along a blanking plate; the heavier materials fall onto a discharging belt A from a feeding hopper, the main components of the materials are inorganic matters or inert matters, and the materials can be continuously treated, recovered or buried; a part of materials entering the drum screen fall into the discharge chute A after being screened by the drum screen, enter the discharge belt C and can be used as plant base fertilizer or greening base fertilizer for recycling; the other lighter materials are discharged from the discharge chute B after passing through the drum screen and enter the discharge belt B, and the lighter materials are mainly organic materials and can be recycled and combusted, so that the heat energy of the lighter materials is utilized.

The vibrating hammer continuously beats and vibrates the rotary screen in the rotation of the rotary screen, so that the screening effect of the rotary screen is improved, fine particles are fully screened, organic matters and base fertilizer particles are fully utilized, and the combustion efficiency of the organic matters is improved.

Example 2

As shown in fig. 1-2 and 4, the screening structure 2 includes a drum screen 2.4, an outlet of the drum screen 2.4 is arranged in a downward inclination manner, a first end of the drum screen 2.4 is communicated with the air outlet 1.2, a second end of the drum screen 2.4 is provided with a discharge chute B2.2, a discharge device B is arranged below the discharge chute B2.2, and the discharge device B can be a discharge belt B2.1; a discharge chute A2.5 is arranged below the drum screen 2.4; the drum sieve 2.4 includes screen frame 2.42, and the screen frame 2.42 outside is equipped with protective housing 2.41, corresponds screen frame 2.42 on the protective housing 2.41 inner wall and is equipped with brush 2.47 along the axial, and brush 2.47 is located the screen frame 2.42 and upwards rotates one side, and brush 2.47 length is greater than the clearance width between screen frame 2.42 and the protective housing 2.41. The brush 2.47 is in accordance with the effective working length of the screen body 2.42. Discharging device C is arranged below the discharging groove 2.5, and the discharging device C can be a discharging belt C2.6. When the rotary screen rotates, the brush can go deep into the holes of the rotary screen to clean the rotary screen, and the good working state of the rotary screen is kept. A transmission shaft can be arranged in the drum screen and is connected with an output shaft of the driving motor. The driving motor drives the drum screen to rotate. The connection of the driving motor and the drum screen and the driving of the drum screen by the driving motor belong to the conventional prior art and are not described in detail. The rest is the same as example 1.

Example 3

As shown in fig. 1 and 9, the discharge hopper is trapezoidal, and the panel of the feeding hopper connected with the air inlet 1.5 and the air outlet 1.2 is vertically arranged; the other two panels of the feeding hopper are arranged in an inward inclined mode from top to bottom. The width of the air inlet 1.5 is smaller than that of the air outlet 1.2. The rest is the same as example 1.

The utility model discloses in to the direction of structure and the description of relative position relation, it is right not to constitute like the description from top to bottom all around the utility model discloses a restriction only is the description convenient.

Claims

1. A garbage sorting treatment system is characterized by comprising an air separation structure (1) and a screening structure (2) which are sequentially arranged;

winnowing structure (1) includes loading attachment, loading attachment is loading belt (1.1), loading belt (1.1) discharge gate tilt up arranges, loading attachment export below is equipped with feeding funnel (1.4), feeding funnel (1.4) below is equipped with discharging device A, feeding funnel (1.4) first side intercommunication air intake (1.5), air intake (1.5) intercommunication air-blower (1.7), feeding funnel (1.4) second side intercommunication air outlet (1.2), air outlet (1.2) is including the gentle breeze portion (1.22) of locating the top, gentle breeze portion (1.22) are established to circular-arcly, air outlet (1.2) still including lower flitch (1.23) of locating the below, flitch (1.23) downward sloping is arranged, connect through connecting plate (1.24) between gentle breeze portion (1.22) and lower flitch (1.23), air outlet (1.2) intercommunication screening structure (2).

2. The garbage sorting and processing system according to claim 1, wherein the lower end of the air buffering part (1.22) is connected with the air outlet plate (1.25), and the air buffering part (1.22) is tangent to the air outlet plate (1.25);

the horizontal line of the joint of the air-buffering part (1.22) and the feeding hopper (1.4) is tangent to the air-buffering part (1.22).

3. A waste sorting and disposal system according to claim 1, wherein the angle between the blanking plate (1.23) and the vertical line is 25-45 degrees.

4. Waste sorting and disposal system according to claim 1, characterized in that the blanking plate (1.23) is provided with a receiving plate (1.11) extending into the upper hopper (1.4).

5. The garbage sorting and processing system according to claim 1, wherein the width of the connecting plate (1.24) is the height of the air outlet, the width of the air inlet part (1.22) is the width of the air outlet (1.2), the width of the air outlet (1.2) is larger than the height, and the length-width ratio of the air outlet (1.2) is 3:1-2: 1.

6. The garbage sorting treatment system according to claim 5, wherein the air inlet (1.5) comprises air inlet plates (1.51) arranged in parallel up and down, the air inlet plates (1.51) are arranged horizontally, two sides of the air inlet plates (1.51) are connected through side plates (1.52), the air inlet (1.5) is connected with the air blower (1.7) through an air inlet pipe (1.6), the width of each side plate (1.52) is the height of the air inlet (1.5), the width of each air inlet plate (1.51) is the width of the air inlet (1.5), the width of the air inlet (1.5) is larger than the height, and the length-width ratio of the air inlet (1.5) is 3:1-2: 1; in the feeding hopper, the air inlet is correspondingly arranged in the air outlet.

7. The garbage sorting and processing system according to claim 1, wherein the upper part of the feeding hopper (1.4) is provided with an adjusting plate (1.3), the adjusting plate (1.3) is arranged between the discharge port of the feeding device and the air inlet (1.5), and the bottom of the adjusting plate (1.3) is not lower than the top end of the air inlet (1.2).

8. The waste sorting and processing system according to claim 1, wherein the screening structure (2) comprises a drum screen (2.4), an outlet of the drum screen (2.4) is arranged in a downward inclined manner, a first end of the drum screen (2.4) is communicated with the air outlet (1.2), and a second end of the drum screen (2.4) is provided with a discharge chute B (2.2); a discharge chute A (2.5) is arranged below the drum screen (2.4);

drum sieve (2.4) are equipped with protective housing (2.41) including screen frame (2.42) outside screen frame (2.42), are equipped with fixing base (2.46) on screen frame (2.42) inner wall, are equipped with connecting axle (2.45) on fixing base (2.46), are equipped with connecting rod (2.44) of perpendicular connection on connecting axle (2.45), and the connecting rod (2.44) other end is equipped with vibration hammer (2.43).

9. The waste sorting and processing system according to claim 1, wherein the screening structure (2) comprises a drum screen (2.4), an outlet of the drum screen (2.4) is arranged in a downward inclined manner, a first end of the drum screen (2.4) is communicated with the air outlet (1.2), and a second end of the drum screen (2.4) is provided with a discharge chute B (2.2); a discharge chute A (2.5) is arranged below the drum screen (2.4);

drum sieve (2.4) are equipped with protective housing (2.41) including screen frame (2.42), screen frame (2.42) outside, correspond screen frame (2.42) on protective housing (2.41) inner wall and be equipped with brush (2.47) along the axial, and screen frame (2.42) one side of upwards rotating is located in brush (2.47), and brush (2.47) length is greater than the clearance width between screen frame (2.42) and protective housing (2.41).

10. The garbage sorting and processing system according to claim 8 or 9, wherein an air return opening (2.7) is arranged above the protective shell (2.41) along the axial direction of the drum screen, and the air return opening (2.7) is communicated with the blower (1.7) through an air return pipe (2.8); the width of the air return opening (2.7) is larger than 1/3 of the effective sieving length of the sieve body (2.42), and the ratio of the length to the width of the air return opening (2.7) is 3:1-2: 1.