CN114832456A - Intelligent treatment equipment for antibiotic-containing livestock and poultry wastewater - Google Patents

Abstract

The invention discloses intelligent treatment equipment for antibiotic-containing livestock and poultry wastewater, which relates to the related technical field of wastewater treatment and comprises a filter pressing plate, a main guide rail, a rack and a push plate trolley, wherein the filter pressing plate is arranged in a sliding area formed between the main guide rail and the rack, the push plate trolley can do linear motion along the main guide rail under the action of power, and a side extension plate is arranged outside the filter pressing plate. According to the invention, the extrusion assembly is pressed to different degrees according to the weight of the un-separated sludge attached to the surface of the filter pressing plate, the extrusion assembly is pushed to move forwards to jack the impact assembly upwards to different heights, impact forces with different degrees are applied to the side extension plate through the impact assembly, so that the sludge attached to the surface of the filter pressing plate is convenient to fall off due to vibration, and furthermore, a plurality of linear groups of matching areas of the extrusion assembly and the impact assembly can be arranged on the secondary guide rail during use, so that the sludge on the filter pressing plate can be promoted to fall off completely through multiple vibration strikes with different degrees of the impact assembly.

Description

Intelligent treatment equipment for antibiotic-containing livestock and poultry wastewater

Technical Field

The invention relates to the technical field related to wastewater treatment, in particular to intelligent treatment equipment for antibiotic-containing livestock wastewater.

Background

The invention patent of the inventor's license publication No. CN 113501631B discloses a treatment process of antibiotic-containing livestock and poultry wastewater, wherein in the filter pressing process, the sludge is subjected to filter pressing treatment by using the existing plate filter press during the filter pressing treatment of sludge anaerobic digestion process mixed liquor.

However, the sludge formed by the antibiotic-containing livestock and poultry wastewater contains livestock and poultry manure or manure fermentation conversion substances (the livestock and poultry feed is mostly a soybean meal mixture) with a low proportion compared with the common river sludge, so the sludge formed by the antibiotic-containing livestock and poultry wastewater has high viscosity, the separation of a filter cake under the action of gravity is incomplete, the filter cake needs to be manually knocked by a filter plate with incomplete separation, and the use is very inconvenient.

Therefore, it is necessary to provide an intelligent treatment device for antibiotic-containing livestock wastewater to solve the above problems.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides intelligent treatment equipment for antibiotic-containing livestock and poultry wastewater, which solves the problems that when the existing plate-type filter press is used for carrying out filter pressing on sludge formed by antibiotic-containing livestock and poultry wastewater, a filter cake is not completely separated, a filter plate needs to be knocked by follow-up manpower, and the use is inconvenient.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

an intelligent treatment device for antibiotic-containing livestock and poultry wastewater comprises a filter pressing plate, a main guide rail, a rack and a push plate trolley, wherein the filter pressing plate is arranged in a sliding area formed between the main guide rail and the rack, the push plate trolley can do linear motion along the main guide rail under the action of power, a side extension plate is arranged outside the filter pressing plate, an auxiliary guide rail is fixedly connected to the inner side of the main guide rail, a sliding groove and a matching hole are formed in the upper surface of the auxiliary guide rail, a cavity is formed by communicating adjacent sliding grooves and matching holes, an extrusion assembly and an impact assembly are arranged inside the cavity, and referring to figure 10, the lower end of the side extension plate protrudes downwards to a height which is about one impact ring block left between the side extension plate and the auxiliary guide rail, so that the impact assembly and the side extension plate can be matched more smoothly;

the push plate trolley is provided with a push plate, an induction spring is arranged between the push plate and the inner wall of the push plate trolley, the inner side surface of the push plate is provided with a pushing induction component, and the lower end of the pushing induction component is provided with a pushing plate;

when the push plate pushes the filter pressing plate and the side extension plate to move forwards, the push induction assembly is stressed to change the angle, so that pressure is generated between the push plate and the extrusion assembly, so that the push plate pushes the extrusion assembly to move forwards along the sliding groove, and the extrusion assembly moves forwards along the sliding groove, so that the impact assembly is extruded to pop out outwards from the matching hole to collide with the side extension plate.

Optionally, one side of the push plate, which is far away from the induction spring, is fixedly connected with a tension spring, and one end of the tension spring, which is far away from the push plate, is fixedly connected to the right end inside the push plate trolley;

the push plate trolley is characterized in that guide notches are formed in two sides of the push plate trolley, guide rods are connected to the inner portions of the guide notches in a sliding mode and are rotatably connected with the push plate.

Optionally, the extrusion assembly comprises a friction plate, a connecting frame, an arc-shaped extrusion frame and a return spring, the return spring is fixedly arranged on the right side wall of the cavity, the return spring is fixedly connected with the arc-shaped extrusion frame, the arc-shaped extrusion frame is fixedly connected with the connecting frame, and the connecting frame is far away from the friction plate fixedly connected with one end of the arc-shaped extrusion frame.

Optionally, the friction coefficient of the upper surface of the friction plate is much greater than that of the upper surface of the secondary guide rail, and the upper surface of the friction plate is flush with the upper surface of the sliding groove.

Optionally, the impact assembly includes an extrusion end block, a guide connecting rod, an impact ring block and a connecting spring, the extrusion end block is in movable contact with the surface of the arc-shaped extrusion frame, the upper surface of the extrusion end block is fixedly connected with the guide connecting rod, one end of the guide connecting rod, which is far away from the extrusion end block, is fixedly connected with the connecting spring, one end of the connecting spring, which is far away from the guide connecting rod, is fixedly connected with the impact ring block, the upper end of the impact ring block is also fixedly connected with the connecting spring, and the upper end of the connecting spring is fixedly connected with the impact ring block.

Optionally, the pushing and pressing sensing assembly comprises a first connecting rod, a second connecting rod, an extrusion spring, a center pin, a first adjusting frame, a second adjusting frame, a third adjusting frame, a telescopic connecting rod and an extrusion spring, the first adjusting frame is arranged on the side surface, close to the auxiliary guide rail, of the push plate, the first adjusting frame is movably connected with the upper end of the first connecting rod, the second adjusting frame is arranged on the side surface, close to the auxiliary guide rail, of the push plate trolley, the second adjusting frame is movably connected with the upper end of the second connecting rod, and the center pin is fixedly arranged on the outer side surface of the push plate trolley;

the utility model discloses a push pedal's telescopic link, including first connecting rod and second connecting rod, the body of rod centre bore of first connecting rod and second connecting rod is downthehole all to rotate and is connected with the core pin, the equal fixedly connected with telescopic link of lower extreme of first connecting rod and second connecting rod, the cover is equipped with the extrusion spring on telescopic link of telescopic link, telescopic link's telescopic link lower extreme is articulated end, the bilateral symmetry of push pedal is provided with the third adjustment frame, and the third adjustment frame is through articulated end and telescopic link swing joint.

Optionally, the pushing and pressing induction assembly further comprises a first magnetic ring and a second magnetic ring, the first magnetic ring is arranged below the fixed rod body of the telescopic connecting rod, the second magnetic ring is arranged above the hinged end, and the magnetism of the opposite surface of the first magnetic ring is opposite to that of the opposite surface of the second magnetic ring.

Optionally, the outer dimensions of the friction plate and the pushing plate are the same, and the width of the friction plate is matched with the width of the sliding groove.

Optionally, when the friction plate moves the maximum distance along the sliding groove, the arc-shaped extrusion frame extrudes and pushes the impact assembly to the maximum height.

(III) advantageous effects

The invention provides an intelligent treatment device for antibiotic-containing livestock and poultry wastewater, which has the following beneficial effects: according to the invention, by arranging the side extension plate, the extrusion component, the impact component, the induction spring and the pushing induction component, in the process that the push plate trolley pushes the filter pressing plate and the side extension plate to move forwards through the push plate, the pushing induction component generates different degrees of pressure on the extrusion component according to the weight of un-detached sludge attached to the surface of the filter pressing plate and pushes the extrusion component to move forwards to jack the impact component upwards to different heights, so that different degrees of impact force is applied to the side extension plate through the impact component, so that the sludge attached to the surface of the filter pressing plate is vibrated to fall off, further, a plurality of linear groups of matching areas of the extrusion component and the impact component can be arranged on the secondary guide rail during use, and therefore, the sludge on the filter pressing plate can be enabled to fall off completely through multiple times of vibration impact of the impact component in different degrees.

Drawings

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

FIG. 2 is a schematic view of the structure of the push plate trolley and the push sensing assembly of the present invention;

FIG. 3 is a schematic view of the internal structure of the push plate trolley of the invention;

FIG. 4 is a schematic view of a push sensing assembly according to the present invention;

FIG. 5 is an enlarged view of a portion of the structure of FIG. 4;

FIG. 6 is an enlarged view of the structure at A in FIG. 1;

FIG. 7 is a schematic view of the construction of the extrusion assembly of the present invention;

FIG. 8 is a schematic view of the construction of the impact assembly of the present invention;

FIG. 9 is a schematic view of the friction plate and the pressing plate in a press-fit state according to the present invention;

FIG. 10 is a schematic diagram of a side extension panel structure according to the present invention.

In the figure: 1. pressing the filter plate; 2. a main guide rail; 3. a frame; 4. a push plate trolley; 5. a side extension plate; 6. a secondary guide rail; 7. a chute; 8. a mating hole; 9. an extrusion assembly; 901. a friction plate; 902. a connecting frame; 903. an arc-shaped extrusion frame; 904. a return spring; 10. an impact assembly; 1001. extruding an end block; 1002. a guide link; 1003. impacting a ring block; 1004. a connecting spring; 11. pushing the plate; 12. an induction spring; 13. pushing the sensing component; 1301. a first link; 1302. a second link; 1303. a compression spring; 1304. a center pin; 1305. a first adjusting bracket; 1306. a second adjusting bracket; 1307. a third adjusting bracket; 1308. a telescopic connecting rod; 1309. a second magnetic ring; 1310. a first magnetic ring; 14. a push plate; 15. a tension spring; 16. a guide slot opening; 17. a guide rod.

Detailed Description

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

According to the present invention, as shown in fig. 1-10, there is provided a technical solution: an intelligent treatment device for antibiotic-containing livestock and poultry wastewater comprises a pressure filter plate 1, a main guide rail 2, a machine frame 3 and a push plate trolley 4, wherein the pressure filter plate 1 is arranged in a sliding area formed between the main guide rail 2 and the machine frame 3, the push plate trolley 4 can do linear motion along the main guide rail 2 under the action of power, a side extension plate 5 is arranged outside the pressure filter plate 1, an auxiliary guide rail 6 is fixedly connected to the inner side of the main guide rail 2, a chute 7 and a matching hole 8 are formed in the upper surface of the auxiliary guide rail 6, a cavity is formed between the adjacent chute 7 and the matching hole 8 in a communicating mode, an extrusion assembly 9 and an impact assembly 10 are arranged inside the cavity, the extrusion assembly 9 comprises a friction plate 901, a connecting frame 902, an arc extrusion frame 903 and a reset spring 904, the reset spring 904 is fixedly arranged on the right side wall of the cavity, the reset spring 904 is fixedly connected with the arc extrusion frame 903, the arc extrusion frame 903 is fixedly connected with the connecting frame 902, a friction plate 901 is fixedly connected to one end, far away from the arc-shaped extrusion frame 903, of the connecting frame 902, the friction coefficient of the upper surface of the friction plate 901 is far larger than that of the upper surface of the auxiliary guide rail 6, the upper surface of the friction plate 901 is flush with the upper surface of the sliding chute 7, the outline dimensions of the friction plate 901 and the pushing plate 14 are the same, the width of the friction plate 901 is matched with the width of the sliding chute 7, and when the friction plate 901 moves along the sliding chute 7 for the maximum distance, the arc-shaped extrusion frame 903 extrudes and pushes the impact assembly 10 to the maximum height;

the impact assembly 10 comprises an extrusion end block 1001, a guide link 1002, an impact ring block 1003 and a connecting spring 1004, wherein the extrusion end block 1001 is movably contacted with the surface of an arc-shaped extrusion frame 903, the upper surface of the extrusion end block 1001 is fixedly connected with the guide link 1002, one end of the guide link 1002 far away from the extrusion end block 1001 is fixedly connected with the connecting spring 1004, one end of the connecting spring 1004 far away from the guide link 1002 is fixedly connected with the impact ring block 1003, the upper end of the impact ring block 1003 is also fixedly connected with the connecting spring 1004, the upper end of the connecting spring 1004 is fixedly connected with the impact ring block 1003,

a push plate 11 is arranged on the push plate trolley 4, a sensing spring 12 is arranged between the push plate 11 and the inner wall of the push plate trolley 4, a pushing sensing component 13 is arranged on the inner side surface of the push plate 11, a pushing plate 14 is arranged at the lower end of the pushing sensing component 13, a tension spring 15 is fixedly connected to one side of the push plate 11 away from the sensing spring 12, and one end of the tension spring 15 away from the push plate 11 is fixedly connected to the right end in the push plate trolley 4;

the pushing sensing assembly 13 comprises a first connecting rod 1301, a second connecting rod 1302, an extrusion spring 1303, a center pin 1304, a first adjusting frame 1305, a second adjusting frame 1306, a third adjusting frame 1307, a telescopic connecting rod 1308 and an extrusion spring 1309, wherein the first adjusting frame 1305 is arranged on the side surface of the push plate 11 close to the secondary guide rail 6, the first adjusting frame 1305 is movably connected with the upper end of the first connecting rod 1301, the second adjusting frame 1306 is arranged on the side surface of the push plate trolley 4 close to the secondary guide rail 6, the second adjusting frame 1306 is movably connected with the upper end of the second connecting rod 1302, the center pin 1304 is fixedly arranged on the outer side surface of the push plate trolley 4, the center pins 1304 are rotatably connected in the central holes of the rod bodies of the first connecting rod 1301 and the second connecting rod 1302, the lower ends of the first connecting rod 1301 and the second connecting rod 1302 are fixedly connected with the telescopic connecting rod 1308, the extrusion spring 1303 is sleeved on the telescopic rod of the telescopic connecting rod 1308, the lower end of the telescopic connecting rod 1308 is a hinged end, the third adjusting brackets 1307 are symmetrically arranged on both sides of the pushing plate 14, the third adjusting brackets 1307 are movably connected with the telescopic links 1308 through hinged ends, and the third adjusting brackets 1307 are symmetrically arranged on both ends of the pushing plate 14 in order to disperse the pressure of the first link 1301 and the second link 1302 to act on the pushing plate 14, so that when the contact area between the pushing plate 14 and the friction plate 901 is changed, the pressure is changed.

Two sides of the push plate trolley 4 are provided with guide notches 16, the guide notches 16 are connected with guide rods 17 in a sliding manner, and the guide rods 17 are rotationally connected with the push plate 11;

when the push plate 11 pushes the filter pressing plate 1 and the side extension plate 5 to move forward, the push sensing assembly 13 is stressed to change the angle, so that pressure is generated between the push plate 14 and the extrusion assembly 9, so that the push plate 14 pushes the extrusion assembly 9 to move forward along the sliding groove 7, and the extrusion assembly 9 moves forward along the sliding groove 7, so that the impact assembly 10 is extruded to pop out from the matching hole 8 and collide with the side extension plate 5.

As an optional technical scheme of the invention: the push sensing assembly 13 further comprises a first magnetic ring 1310 and a second magnetic ring 1309, wherein the first magnetic ring 1310 is arranged below the fixed rod body of the telescopic link 1308, the second magnetic ring 1309 is arranged above the hinged end, and the magnetic polarities of the opposite surfaces of the first magnetic ring 1310 and the second magnetic ring 1309 are opposite, wherein the first magnetic ring 1310 and the second magnetic ring 1309 are arranged to compensate the pressure applied to the telescopic link 1308 by the first link 1301 and the second link 1302, and as the telescopic link 1308 contracts, the elastic deformation of the compression spring 1303 is increased, the elastic force is increased, and the direction of the elastic force is opposite to the pressure applied to the telescopic link 1308 by the first link 1301 and the second link 1302, so that the pressure actually applied to the upper side of the push plate 14 is reduced, and by arranging the first magnetic ring 1310 and the second magnetic ring 1309, despite the contraction of the telescopic link 1308, the elastic force of the pressing spring 1303 is continuously increased, but at the same time, the first magnetic ring 1310 and the second magnetic ring 1309 approach each other, the magnetic attraction force between each other is increased, and the magnetic force direction is opposite to the elastic force of the pressing spring 1303, so as to achieve the purpose of compensating the pressure applied to the telescopic link 1308 by the first link 1301 and the second link 1302.

The working principle is as follows: during operation, under the action of the power guide mechanism, the push plate trolley 4 moves towards one side close to the filter pressing plate 1 along the main guide rail 2, when the side extension plate 5 is contacted with the push plate 11, the tension spring 15 is stretched, the push plate 11 rotates around the guide rod 17, the side extension plate 5 is positioned in front of the push plate 11, and at the moment, the power guide mechanism changes the driving direction and moves towards one end far away from the filter pressing plate 1;

at this time, the push plate cart 4 pushes the side extension plate 5 and the filter press plate 1 to move through the push plate 11, the inductive spring 12 is compressed, the more sludge on the filter press plate 1 is not removed, the more the inductive spring 12 is compressed, the push plate 11 moves backward relative to the push plate cart 4, the push plate 11 moves backward to make the first link 1301 and the second link 1302 rotate around the central pin 1304, the angle between the upper and lower parts of the first link 1301 and the second link 1302 decreases, the telescopic link 1308 contracts, the compression spring 1303 is compressed, the pressure between the push plate 14 and the secondary guide rail 6 increases, and as the push plate cart 4 moves forward, the push plate 14 starts to contact with the friction plate 901 and gradually slides forward against the elastic force of the return spring 904, so that the contact area between the push plate 14 and the friction plate 901 increases to the fit between the push plate 14 and the friction plate 901 (the contact area is the largest at this time, the pressure of the pushing plate 14 against the friction plate 901 reaches the maximum value, and the pressures at both ends of the pushing plate 14 completely act on the friction plate 901);

and then the friction plate 901 drives the connecting frame 902 and the arc-shaped extrusion frame 903 to move forwards, so that under the action of the arc-shaped extrusion frame 903, the extrusion end block 1001 is stressed to move outwards along the direction of the matching hole 8, so that the extrusion end block 1001 drives the guide connecting rod 1002, the impact ring block 1003 and the connecting spring 1004 to move outwards, the impact ring block 1003 pops outwards, at the moment, the side extension plate 5 collides with the popped impact ring block 1003 to enable the surfaces of the side extension plate 5 and the pressure filter plate 1 to vibrate, and under the vibration action, sludge is automatically separated from the pressure filter plate 1, the pressure filter plate does not need to be knocked manually, so that the use is convenient, and the intelligent degree is high.

In the operation process of the device, the weight of the un-detached sludge attached to the filter press plate 1 is sensed by the deformation of the sensing spring 12, and then the angle change of the push sensing assembly 13 causes the vertical distance between the first link 1301 and the second link 1302 and the secondary guide rail 6 to be gradually reduced, so that the telescopic link 1308 is compressed, the pressure of the push plate 14 on the secondary guide rail 6 is gradually increased, and then when the push plate 14 moves forwards along with the push trolley 4 until the push plate 14 contacts with the friction plate 901, the pressure applied to the friction plate 901 is gradually increased, the friction force between the friction plate 901 and the push plate 14 is also gradually increased, so that the push plate 14 can push the friction plate 901 to move forwards for increasing the distance by overcoming the elastic force of the return spring 904, so that the arc-shaped extrusion frame 903 can gradually increase the jacking height of the impact assembly 10, and then the number of the impact ring blocks 1003 extending outwards from the matching holes 8 is increased, as the number of the impact ring blocks 1003 increases, greater vibration may be generated when impact occurs between the side extension plate 5 and the impact assembly 10, so as to automatically provide greater vibration acting force when more sludge is attached to the surface of the filter press plate 1, so as to facilitate the sludge attached to the surface of the filter press plate 1 to fall off;

it should be noted that, when the maximum friction force between the pushing plate 14 and the friction plate 901 is not enough to push the friction plate 901 to move to the limit position along the sliding chute, along with the forward movement of the pushing plate 14, the friction force between the pushing plate 14 and the friction plate 901 is gradually reduced, so that the return spring 904 is gradually returned, and the striking assembly 10 gradually moves down along the matching hole 8, however, since the moving speed of the push plate trolley 4 is greater than the falling speed of the striking assembly 10, when the side extension plate 5 moves to the position above the matching hole 8, the striking assembly 10 only falls a small distance, so that the side extension plate 5 and the striking assembly 10 collide with each other, after collision, the connecting spring 1004 drives the striking ring block 1003 to deflect in the same direction as the moving direction of the push plate trolley 4, which is beneficial for the push plate trolley 4 to pass forward, and when the maximum friction force between the pushing plate 14 and the friction plate 901 is enough to push the friction plate 901 to move to the limit position along the sliding chute, the height of the impact assembly 10 extending outwards is the highest at this time, so that after the impact with the side extension plate 5 occurs, the connecting spring 1004 drives the impact ring block 1003 to deflect more, and the time required for the deflection to the limit position is longer, so that the push plate trolley 4 can drive the side extension plate 5 to pass forwards.

Further, several linear sets of the matching areas of the pressing assemblies 9 and the striking assemblies 10 can be arranged on the secondary guide rail 6 during use, so that the sludge on the filter press plate 1 can be promoted to completely fall off through multiple different degrees of vibration striking of the striking assemblies 10.

In summary, the following steps: through setting up the side extension board, the extrusion subassembly, the striking subassembly, response spring and bulldoze the response subassembly, push pedal dolly passes through push pedal 11 and promotes the filter pressing board and the in-process of 5 forward motion of side extension board, bulldoze the response subassembly and produce the pressure of different degrees and promote extrusion subassembly 9 forward motion with striking subassembly 10 jack-up to different heights to extrusion subassembly 9 according to the weight of the attached not detached mud on the filter pressing board surface, then exert the impact of different degrees through striking subassembly to the side extension board, so that the mud of filter pressing board surface adhesion receives vibrations and drops, furtherly, can set up linear a plurality of groups's extrusion subassembly 9 and the cooperation region of striking subassembly 10 on secondary rail 6 when using, thereby the vibrations of the different degrees of a lot of that accessible struck subassembly 10 are hit and are beaten and make the mud on the filter pressing board 1 drop completely.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides an intelligent processing equipment who contains antibiotic beasts and birds waste water, includes filter-pressing board (1), leading rail (2), frame (3), push pedal dolly (4), and in the sliding region that constitutes between leading rail (2) and frame (3) was arranged in filter-pressing board (1), linear motion, its characterized in that can be along leading rail (2) in push pedal dolly (4) under the power action: a side extension plate (5) is arranged outside the pressure filter plate (1), an auxiliary guide rail (6) is fixedly connected to the inner side of the main guide rail (2), a sliding groove (7) and a matching hole (8) are formed in the upper surface of the auxiliary guide rail (6), a cavity is formed by communicating the adjacent sliding groove (7) and the matching hole (8), and an extrusion assembly (9) and an impact assembly (10) are arranged inside the cavity;

a push plate (11) is arranged on the push plate trolley (4), an induction spring (12) is arranged between the push plate (11) and the inner wall of the push plate trolley (4), a push induction component (13) is arranged on the inner side surface of the push plate (11), and a push plate (14) is arranged at the lower end of the push induction component (13);

when the push plate (11) pushes the filter pressing plate (1) and the side extension plate (5) to move forwards, the push sensing assembly (13) is stressed to change the angle, so that pressure is generated between the push plate (14) and the extrusion assembly (9), so that the push plate (14) pushes the extrusion assembly (9) to move forwards along the sliding groove (7), and the extrusion assembly (9) moves forwards along the sliding groove (7) so that the impact assembly (10) is extruded to pop out outwards from the matching hole (8) and collide with the side extension plate (5).

2. The intelligent treatment equipment for the antibiotic-containing livestock and poultry wastewater according to claim 1, which is characterized in that:

one side of the push plate (11) far away from the induction spring (12) is fixedly connected with a tension spring (15), and one end of the tension spring (15) far away from the push plate (11) is fixedly connected to the right end of the interior of the push plate trolley (4);

guide notches (16) are formed in two sides of the push plate trolley (4), guide rods (17) are connected to the inner portions of the guide notches (16) in a sliding mode, and the guide rods (17) are rotatably connected with the push plate (11).

3. The intelligent treatment equipment for the antibiotic-containing livestock and poultry wastewater according to claim 1, which is characterized in that:

the extrusion assembly (9) comprises a friction plate (901), a connecting frame (902), an arc extrusion frame (903) and a return spring (904), wherein the return spring (904) is fixedly arranged on the right side wall of the cavity, the return spring (904) is fixedly connected with the arc extrusion frame (903), the arc extrusion frame (903) is fixedly connected with the connecting frame (902), and one end, far away from the arc extrusion frame (903), of the connecting frame (902) is fixedly connected with the friction plate (901).

4. The intelligent treatment equipment for the antibiotic-containing livestock and poultry wastewater according to claim 3, which is characterized in that:

the friction coefficient of the upper surface of the friction plate (901) is far larger than that of the upper surface of the auxiliary guide rail (6), and the upper surface of the friction plate (901) is flush with the upper surface of the sliding groove (7).

5. The intelligent treatment equipment for the antibiotic-containing livestock and poultry wastewater according to claim 1, which is characterized in that:

the impact assembly (10) comprises an extrusion end block (1001), a guide connecting rod (1002), an impact ring block (1003) and a connecting spring (1004), wherein the extrusion end block (1001) is movably contacted with the surface of an arc-shaped extrusion frame (903), the upper surface of the extrusion end block (1001) is fixedly connected with the guide connecting rod (1002), the guide connecting rod (1002) is far away from one end of the extrusion end block (1001) and is fixedly connected with the connecting spring (1004), the connecting spring (1004) is far away from one end of the guide connecting rod (1002) and is fixedly connected with the impact ring block (1003), the upper end of the impact ring block (1003) is also fixedly connected with the connecting spring (1004), and the upper end of the connecting spring (1004) is fixedly connected with the impact ring block (1003).

6. The intelligent treatment equipment for the antibiotic-containing livestock and poultry wastewater according to claim 1, which is characterized in that:

the push sensing assembly (13) comprises a first connecting rod (1301), a second connecting rod (1302), an extrusion spring (1303), a center pin (1304), a first adjusting frame (1305), a second adjusting frame (1306), a third adjusting frame (1307), a telescopic connecting rod (1308) and an extrusion spring (1309), wherein the first adjusting frame (1305) is arranged on the side surface, close to the secondary guide rail (6), of the push plate (11), the first adjusting frame (1305) is movably connected with the upper end of the first connecting rod (1301), the second adjusting frame (1306) is arranged on the side surface, close to the secondary guide rail (6), of the push plate trolley (4), the second adjusting frame (1306) is movably connected with the upper end of the second connecting rod (1302), and the center pin (1304) is fixedly arranged on the outer side surface of the push plate trolley (4);

the lower end of the telescopic connecting rod (1308) is hinged to a hinged end, third adjusting frames (1307) are symmetrically arranged on two sides of the pushing plate (14), and the third adjusting frames (1307) are movably connected with the telescopic connecting rod (1308) through the hinged end.

7. The intelligent treatment equipment for the antibiotic-containing livestock and poultry wastewater according to claim 6, which is characterized in that: the push-press induction assembly (13) further comprises a first magnetic ring (1310) and a second magnetic ring (1309), the first magnetic ring (1310) is arranged below the fixed rod body of the telescopic connecting rod (1308), the second magnetic ring (1309) is arranged above the hinged end, and the magnetism of the opposite surfaces of the first magnetic ring (1310) and the second magnetic ring (1309) is opposite.

8. The intelligent treatment equipment for the antibiotic-containing livestock and poultry wastewater according to claim 3 or 6, which is characterized in that: the outer dimensions of the friction plate (901) and the outer dimensions of the pushing plate (14) are the same, and the width of the friction plate (901) is matched with the width of the sliding groove (7).

9. The intelligent treatment equipment for the antibiotic-containing livestock and poultry wastewater according to claim 8, which is characterized in that: when the friction plate (901) moves for the maximum distance along the sliding groove (7), the arc-shaped extrusion frame (903) extrudes and pushes the impact assembly (10) to the maximum height.

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