CN112264129A

CN112264129A - Integrative equipment of feed cutting

Info

Publication number: CN112264129A
Application number: CN202011073916.1A
Authority: CN
Inventors: 迟国臣
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-09
Filing date: 2020-10-09
Publication date: 2021-01-26

Abstract

The invention relates to feeding equipment, in particular to feeding and cutting integrated equipment, which comprises a vibration hopper mechanism, a vibration power mechanism and a vibration seat mechanism, wherein the equipment can feed materials, can screen materials, can switch working modes, can adjust the polarization force, is connected with the vibration power mechanism, and is connected with the vibration seat mechanism.

Description

Integrative equipment of feed cutting

Technical Field

The invention relates to feeding equipment, in particular to feeding and cutting integrated equipment.

Background

In the feeding field, when feeding is carried out by traditional feeding equipment, feeding is carried out intelligently, the function is single, the occupied area is large, and therefore the feeding and cutting integrated equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a feeding and cutting integrated device, wherein the device can feed materials, screen materials, switch working modes and adjust the polarization force.

In order to solve the technical problems, the invention relates to feeding equipment, in particular to feeding and cutting integrated equipment.

The vibration bucket mechanism is connected with the vibration power mechanism, and the vibration bucket mechanism is connected with the vibration seat mechanism.

As a further optimization of the technical scheme, the vibration hopper mechanism of the feeding and cutting integrated equipment comprises a step rod, a spring, a vibration hopper body, a belt shaft switching plate, a switching wheel, a limiting hole, a sieve plate, a gear, a special-shaped rack, a lead screw, a limiting rod, a bearing seat, a coupler, a servo motor, a crushing box, a transmission wheel, a power transmission hole, a connecting rod, a brake rod, a limiting plate, a spring, a belt hole seat, a hollow strip seat, a swing arm with a waist groove, a partition plate, a material sliding cavity, a communication port, a discharge port, a belt shaft crushing wheel, a driving rod, a supporting shell, a hydraulic cylinder and a hinge joint, wherein the spring is sleeved on the step rod, the step rod is connected with the vibration hopper body, the belt shaft switching plate is connected with the vibration hopper body in a bearing manner, the belt shaft switching plate is connected with the switching wheel, the limiting hole is arranged on the switching wheel, the sieve plate is connected with the vibration hopper, the gear is meshed with the special-shaped rack, the special-shaped rack is in threaded connection with the screw rod, the special-shaped rack is in sliding connection with the limiting rod, the limiting rod is connected with the bearing seat, the bearing seat is connected with the screw rod in a bearing mode, the screw rod is connected with the servo motor through a coupler, the servo motor is connected with the vibration hopper body, the vibration hopper body is connected with the crushing box, a power transmission hole is formed in the driving wheel, two ends of the limiting plate are respectively connected with the brake rod and the connecting rod, the brake rod is in sliding connection with the limiting hole, the spring is sleeved on the connecting rod and abuts against the limiting plate and the hole seat, the hole seat is connected with the vibration hopper body, the hole seat is in sliding connection with the connecting rod, the hollow long strip seat is connected with the connecting rod, the swing arm with the waist groove is hinged with the vibration hopper body, the swing arm with the waist groove is hinged, the baffle links to each other with vibrations fill body, and swift current material chamber sets up this internal at vibrations fill, and the intercommunication mouth sets up on vibrations fill body, and the intercommunication mouth feeds through swift current material chamber, crushing case mutually, and the belt axle is smashed the wheel and is linked to each other with the drive wheel, and the belt axle is smashed the wheel and is connected for the bearing with the connected mode that the belt axle was smashed the wheel, and the actuating lever links to each other with cavity rectangular seat, actuating lever and belt waist groove swing arm sliding connection.

As a further optimization of the technical scheme, the vibration power mechanism of the feeding and cutting integrated equipment comprises a double-side belt convex wheel, a movable bearing seat, a driving wheel I, a sliding rail, a bearing seat I, a rotating wheel, a groove, a fixed wheel with a hole, a hydraulic rod I, a rotating shaft, a coupling I, a motor I, a belt shaft eccentric wheel, a pushing hydraulic cylinder, a step groove, a matching hole, a hydraulic cylinder A and an embedding cavity, wherein the double-side belt convex wheel is connected with a power transmission hole in a sliding mode, the double-side belt convex wheel is connected with the movable bearing seat in a bearing mode, the driving wheel I is provided with the matching hole, the matching hole is connected with the double-side belt convex wheel in a sliding mode, the sliding rail is connected with the bearing seat I, the bearing seat I is connected with a vibration bucket body, the rotating wheel is connected with the rotating shaft, the rotating shaft is connected with the driving wheel I, the rotating wheel is provided, hydraulic stem I links to each other with pneumatic cylinder A, and pneumatic cylinder A sets up in the embedding intracavity, and the embedding chamber sets up in the pivot, and the pivot is connected for the bearing with bearing frame I's connected mode, and the pivot passes through shaft coupling I with motor I and links to each other, and motor I links to each other with bearing frame I, and promotion pneumatic cylinder links to each other with bearing frame I, and the ladder groove sets up on the slide rail, ladder groove and movable bearing seat sliding connection.

As a further optimization of the technical scheme, the vibration seat mechanism of the feeding and cutting integrated equipment comprises a base and a vibration sliding hole, the base is provided with the vibration sliding hole, the vibration sliding hole is in sliding connection with the stepped rod, and the spring is abutted against the base.

As a further optimization of the technical scheme, the material of the sieve plate of the feeding and cutting integrated equipment is Q235.

The feeding and cutting integrated equipment has the beneficial effects that:

according to the feeding and cutting integrated equipment, the equipment can feed, the equipment can screen, the equipment can switch the working mode, and the equipment can adjust the polarization force.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a feeding and cutting integrated device according to the present invention.

Fig. 2 is a schematic structural diagram of a feeding and cutting integrated device according to the present invention.

Fig. 3 is a schematic structural diagram three of a feeding and cutting integrated device of the present invention.

Fig. 4 is a first structural schematic diagram of the vibration bucket mechanism 1 of the feeding and cutting integrated equipment of the present invention.

Fig. 5 is a structural schematic diagram of a vibrating hopper mechanism 1 of a feeding and cutting integrated device according to a second embodiment of the present invention.

Fig. 6 is a third structural schematic diagram of the vibrating bucket mechanism 1 of the feeding and cutting integrated device of the present invention.

Fig. 7 is a fourth schematic structural diagram of the vibration bucket mechanism 1 of the feeding and cutting integrated equipment of the present invention.

Fig. 8 is a schematic structural diagram five of the vibration bucket mechanism 1 of the feeding and cutting integrated device of the present invention.

Fig. 9 is a first structural schematic diagram of the vibration power mechanism 2 of the feeding and cutting integrated device of the present invention.

Fig. 10 is a second structural schematic diagram of the vibration power mechanism 2 of the feeding and cutting integrated device of the present invention.

Fig. 11 is a third structural schematic view of the vibration power mechanism 2 of the feeding and cutting integrated device of the present invention.

Fig. 12 is a fourth structural schematic view of the vibration power mechanism 2 of the feeding and cutting integrated device of the present invention.

Fig. 13 is a fifth structural schematic view of the vibration power mechanism 2 of the feeding and cutting integrated device of the present invention.

Fig. 14 is a schematic structural diagram of a vibration seat mechanism 3 of a feeding and cutting integrated device of the present invention.

In the figure: a vibrating bucket mechanism 1; a step bar 1-1; a spring 1-2; 1-3 of a vibration bucket body; a belt shaft switching plate 1-4; switching wheels 1-5; 1-6 of a limiting hole; 1-7 parts of sieve plate; gears 1-8; 1-9 parts of a special-shaped rack; 1-10 parts of a screw rod; 1-11 parts of a limiting rod; 1-12 of a bearing seat; 1-13 of a coupler; servo motors 1 to 14; 1-15 parts of a crushing box; a transmission wheel 1-16; power transmission holes 1-17; connecting rods 1-18; brake levers 1-19; 1-20 parts of a limiting plate; springs 1-21; 1-22 of a seat with a hole; 1-23 parts of hollow strip seat; 1-24 of a swing arm with a waist groove; 1-25 of a partition board; 1-26 parts of a material sliding cavity; communication ports 1-27; 1-28 parts of a discharge port; crushing wheel with shaft 1-29; a drive rod 1-30; support shells 1-31; 1-32 of a hydraulic cylinder; joints 1-33; a vibration power mechanism 2; the two sides are provided with convex wheels 2-1; 2-2 of a movable bearing seat; a driving wheel I2-3; 2-4 of a slide rail; bearing seat I2-5; 2-6 of a rotating wheel; 2-7 of slotting; 2-8 of a fixed wheel with holes; a hydraulic rod I2-9; 2-10 of a rotating shaft; a coupler I2-11; motor I2-12; eccentric wheels with shafts 2-13; pushing the hydraulic cylinder 2-14; 2-15 parts of a stepped groove; 2-16 of a matching hole; a hydraulic cylinder A2-17; embedding cavities 2-18; a vibration seat mechanism 3; a base 3-1; and (3) vibrating the sliding hole 3-2.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the present invention relates to a feeding device, and more specifically, to a feeding and cutting integrated device, which includes a vibration bucket mechanism 1, a vibration power mechanism 2, and a vibration seat mechanism 3, and is capable of feeding, sieving, switching the working mode, and adjusting the bias force.

The vibration bucket mechanism 1 is connected with the vibration power mechanism 2, and the vibration bucket mechanism 1 is connected with the vibration seat mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14. the embodiment further describes the embodiment, and the embodiment includes a step rod 1-1, a spring 1-2, a vibrating bucket body 1-3, a shaft-carrying switch plate 1-4, a switch wheel 1-5, a limit hole 1-6, a sieve plate 1-7, a gear 1-8, a special-shaped rack 1-9, a lead screw 1-10, a limit rod 1-11, a bearing seat 1-12, a coupling 1-13, a servo motor 1-14, a crushing box 1-15, a transmission wheel 1-16, a power transmission hole 1-17, a connecting rod 1-18, a brake rod 1-19, a brake rod 1-11, a bearing seat 1-12, a coupling 1-13, a servo motor 1-14, a crushing box 1-15, a transmission wheel 1-16, A limit plate 1-20, a spring 1-21, a perforated seat 1-22, a hollow strip seat 1-23, a swing arm with a waist groove 1-24, a clapboard 1-25, a material sliding cavity 1-26, a communication port 1-27, a material outlet 1-28, a crushing wheel with a shaft 1-29, a driving rod 1-30, a supporting shell 1-31, a hydraulic cylinder 1-32 and a hinge joint 1-33, the spring 1-2 is sleeved on the stepped rod 1-1, the stepped rod 1-1 is connected with a vibration bucket body 1-3, a switching plate with a shaft 1-4 is connected with the vibration bucket body 1-3 by a bearing, a switching plate with a shaft 1-4 is connected with the switching wheel 1-5, the switching wheel 1-5 is provided with a limit hole 1-6, a sieve plate 1-7 is connected with the vibration bucket body 1-3, a shaft-provided switching plate 1-4 is connected with a gear 1-8, the gear 1-8 is meshed with a special-shaped rack 1-9, the special-shaped rack 1-9 is in threaded connection with a lead screw 1-10, the special-shaped rack 1-9 is in sliding connection with a limiting rod 1-11, the limiting rod 1-11 is connected with a bearing seat 1-12, the bearing seat 1-12 is in bearing connection with the lead screw 1-10, the lead screw 1-10 is connected with a servo motor 1-14 through a coupler 1-13, the servo motor 1-14 is connected with a vibration bucket body 1-3, the vibration bucket body 1-3 is connected with a crushing box 1-15, a power transmission hole 1-17 is arranged on a transmission wheel 1-16, two ends of a limiting plate 1-20 are respectively connected with a brake rod 1-19 and a connecting rod 1-18, the brake rod 1-19 is connected with the limit hole 1-6 in a sliding way, the spring 1-21 is sleeved on the connecting rod 1-18, the spring 1-21 is supported on the limit plate 1-20 and the holed seat 1-22, the holed seat 1-22 is connected with the vibration bucket body 1-3, the holed seat 1-22 is connected with the connecting rod 1-18 in a sliding way, the hollow strip seat 1-23 is connected with the connecting rod 1-18, the swing arm 1-24 with the kidney slot is hinged with the vibration bucket body 1-3, the swing arm 1-24 with the kidney slot is hinged with the hinge head 1-33, the hinge head 1-33 is connected with the hydraulic cylinder 1-32, the hydraulic cylinder 1-32 is connected with the support shell 1-31, the support shell 1-31 is connected with the vibration bucket body 1-3, the clapboard 1-25 is connected with the vibration bucket body 1-3, the material sliding cavity 1-26 is arranged in the vibration hopper body 1-3, the communication port 1-27 is arranged on the vibration hopper body 1-3, the communication port 1-27 is used for communicating the material sliding cavity 1-26 with the crushing box 1-15, the grinding wheel 1-29 with the shaft is connected with the transmission wheel 1-16, the grinding wheel 1-29 with the shaft and the grinding wheel 1-29 with the shaft are connected in a bearing way, the driving rod 1-30 is connected with the hollow strip seat 1-23, the driving rod 1-30 is connected with the swinging arm 1-24 with the kidney slot in a sliding way, before the material sliding device is used, firstly, the hydraulic cylinder 1-32 is used for pushing the hinge head 1-33, the hinge head 1-33 can drive the swinging arm 1-24 with the kidney slot to rotate around a hinge point with the vibration hopper body 1-3, the swinging arm 1-24 with the kidney slot can push the driving rod 1-30, the driving rod 1-30 can drive the perforated base 1-22 to move, the perforated base 1-22 can drive the perforated base 1-22 to separate from the limiting hole 1-6, the servo motor 1-14 operates to drive the coupler 1-13 to rotate, the coupler 1-13 can drive the screw rod 1-10 to rotate, the screw rod 1-10 can drive the special-shaped rack 1-9 to move, the special-shaped rack 1-9 can drive the gear 1-8 to rotate anticlockwise when viewed from the face to the gear 1-8, when the belt shaft switching plate 1-4 and the sieve plate 1-7 are in a straight line, the servo motor 1-14 stops operating, the hydraulic cylinder 1-32 reversely pulls the hinge joint 1-33 to drive the brake rod 1-19 to insert into a new limiting hole 1-6 to complete fixation, the motor I2-12 operates to drive the coupler I2-11 to rotate, the coupler I2-11 drives the rotating shaft 2-10 to rotate, the rotating shaft 2-10 drives the rotating wheel 2-6 to rotate, when the rotating wheel 2-6 rotates, the eccentric wheel 2-13 with the shaft deflects to the outer side of the circumference under the action of centrifugal force, so that when the rotating wheel 2-6 rotates, uneven weight forms deflection force, and the vibrating hopper body 1-3 is driven to vibrate up and down in a reciprocating mode under the cooperation of the deflection force and the spring 1-2, so that materials falling on the sieve plate 1-7 are driven to move towards the direction of the switching plate with the shaft 1-4, and the feeding function is completed.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the embodiment further describes the embodiment, where the vibration power mechanism 2 includes a double-side cam 2-1, a movable bearing seat 2-2, a driving wheel I2-3, a sliding rail 2-4, a bearing seat I2-5, a rotating wheel 2-6, a slotted wheel 2-7, a fixed wheel with holes 2-8, a hydraulic rod I2-9, a rotating shaft 2-10, a coupling I2-11, a motor I2-12, a eccentric wheel with shafts 2-13, a pushing hydraulic cylinder 2-14, a stepped slot 2-15, a fitting hole 2-16, a hydraulic cylinder a2-17, an embedding cavity 2-18, a double-side cam 2-1 is slidably connected with a power transmission hole 1-17, the connection mode of the double-side cam 2-1 with the movable bearing seat 2-2 is bearing connection, the driving wheel I2-3 is provided with a matching hole 2-16, the matching hole 2-16 is connected with the double-side cam 2-1 in a sliding way, the sliding rail 2-4 is connected with a bearing seat I2-5, the bearing seat I2-5 is connected with a vibrating bucket body 1-3, the rotating wheel 2-6 is connected with a rotating shaft 2-10, the rotating shaft 2-10 is connected with the driving wheel I2-3, the rotating wheel 2-6 is provided with a slot 2-7, a fixed wheel 2-8 with a hole is connected with an eccentric wheel 2-13 with a shaft, the connecting mode of the eccentric wheel 2-13 with a shaft and the rotating wheel 2-6 is bearing connection, a hydraulic rod I2-9 is connected with a hydraulic cylinder A2-17, the hydraulic cylinder A2-17 is arranged in an embedding cavity 2-18, the embedded cavity 2-18 is arranged in the rotating shaft 2-10, the connecting mode of the rotating shaft 2-10 and the bearing seat I2-5 is bearing connection, the rotating shaft 2-10 is connected with the motor I2-12 through the coupler I2-11, the motor I2-12 is connected with the bearing seat I2-5, the pushing hydraulic cylinder 2-14 is connected with the bearing seat I2-5, the step groove 2-15 is arranged on the sliding rail 2-4, the step groove 2-15 is connected with the movable bearing seat 2-2 in a sliding way, when large materials need to be cut, the adjustment is carried out again, so that the belt shaft switching plate 1-4 is restored to a vertical state, large materials can collide the belt shaft switching plate 1-4 and then enter the crushing box 1-15 from the material sliding cavity 1-26 and the communicating port 1-27, the movable bearing seat 2-2 is pushed by the pushing hydraulic cylinder 2-14 in a synchronous adjustment mode, the bulges on the bulge wheels 2-1 on partial double sides are inserted into the power transmission holes 1-17, so that the power of the motor I2-12 is transmitted to the transmission wheels 1-16 to drive the crushing wheels 1-29 with shafts to rotate, and the crushing function is realized; the equipment can adjust the bias force, can select the eccentric wheel 2-13 with the shaft to deflect to any angle, then pushes the hydraulic rod I2-9 through the hydraulic cylinder A2-17, makes the hydraulic rod I2-9 go deep into the hole on the fixed wheel 2-8 with the hole, thus accomplishes the fixation, can change the centre of gravity when the rotating wheel 2-6 rotates, thus change the size of the bias force.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the present embodiment further describes the present embodiment, in which the vibration seat mechanism 3 includes a base 3-1 and a vibration slide hole 3-2, the base 3-1 is provided with the vibration slide hole 3-2, the vibration slide hole 3-2 is slidably connected to the step rod 1-1, and the spring 1-2 abuts against the base 3-1.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the first embodiment will be further described with reference to the present embodiment, in which the material of the screen plates 1 to 7 is Q235.

The working principle of the device is as follows: before the feeding device is used, firstly, the hydraulic cylinder 1-32 pushes the hinge joint 1-33, the hinge joint 1-33 can drive the swing arm 1-24 with the kidney slot to rotate around a hinge point with the vibration bucket body 1-3, the swing arm 1-24 with the kidney slot can push the driving rod 1-30, the driving rod 1-30 can drive the hole seat 1-22 to move, the hole seat 1-22 can drive the hole seat 1-22 to be separated from the limiting hole 1-6, the servo motor 1-14 operates to drive the shaft coupler 1-13 to rotate, the shaft coupler 1-13 can drive the screw rod 1-10 to rotate, the screw rod 1-10 can drive the special-shaped rack 1-9 to move, the special-shaped rack 1-9 can drive the gear 1-8 to rotate anticlockwise when viewed from the face to the gear 1-8, when the belt shaft switching plate 1-4 and the sieve plate 1-7 are in a straight line, the servo motors 1-14 stop operating, the hydraulic cylinders 1-32 reversely pull the hinges 1-33 to drive the brake rods 1-19 to be inserted into the new limiting holes 1-6 to complete fixation, the motors I2-12 operate to drive the couplers I2-11 to rotate, the couplers I2-11 drive the rotating shafts 2-10 to rotate, the rotating shafts 2-10 drive the rotating wheels 2-6 to rotate, when the rotating wheels 2-6 rotate, the eccentric wheels 2-13 with shafts deflect towards the outer side of the circumference under the action of centrifugal force, so that when the rotating wheels 2-6 rotate, the weight is uneven to form a deflection force, and the vibrating bucket bodies 1-3 are driven to vibrate up and down in a reciprocating mode under the coordination of the deflection force and the springs 1-2, so as to drive the materials falling on the sieve plates 1-7 to move towards the direction of the belt shaft switching plate 1-4, thereby completing the feeding function; the equipment can sieve, when the sieve plates 1-7 vibrate forwards, materials can be sieved on the sieve plates 1-7, small materials fall below the sieve plates 1-7 and then slide away along the partition plates 1-25, and large materials can continue to move forwards; the equipment can switch the working mode, when large materials need to be cut, the equipment is readjusted to enable the belt shaft switching plate 1-4 to be restored to a vertical state, so that the large materials can collide with the belt shaft switching plate 1-4 and then enter the crushing box 1-15 from the material sliding cavity 1-26 and the communication port 1-27, the equipment synchronously needs to be adjusted by pushing the hydraulic cylinder 2-14 to push the movable bearing seat 2-2, so that the bulges on the bulge wheels 2-1 on the two sides of part of the belt are inserted into the power transmission holes 1-17, so that the power of the motor I2-12 can be transmitted to the transmission wheels 1-16 to drive the belt shaft crushing wheels 1-29 to rotate, and the crushing function can be realized; the equipment can adjust the bias force, can select the eccentric wheel 2-13 with the shaft to deflect to any angle, then pushes the hydraulic rod I2-9 through the hydraulic cylinder A2-17, makes the hydraulic rod I2-9 go deep into the hole on the fixed wheel 2-8 with the hole, thus accomplishes the fixation, can change the centre of gravity when the rotating wheel 2-6 rotates, thus change the size of the bias force.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an integrative equipment of feed cutting, includes vibrations fill mechanism (1), vibrations power unit (2), vibrations seat mechanism (3), its characterized in that: the vibration bucket mechanism (1) is connected with the vibration power mechanism (2), and the vibration bucket mechanism (1) is connected with the vibration seat mechanism (3).

2. A feed and cutting integrated apparatus as recited in claim 1, wherein: the vibrating hopper mechanism (1) comprises a step rod (1-1), a spring (1-2), a vibrating hopper body (1-3), a belt shaft switching plate (1-4), a switching wheel (1-5), a limiting hole (1-6), a sieve plate (1-7), a gear (1-8), a special-shaped rack (1-9), a lead screw (1-10), a limiting rod (1-11), a bearing seat (1-12), a coupler (1-13), a servo motor (1-14), a crushing box (1-15), a transmission wheel (1-16), a power transmission hole (1-17), a connecting rod (1-18), a brake rod (1-19), a limiting plate (1-20), a spring (1-21), a hole seat (1-22), A hollow strip seat (1-23), a swing arm (1-24) with a waist groove, a clapboard (1-25), a material sliding cavity (1-26), a communication port (1-27), a discharge port (1-28), a crushing wheel (1-29) with a shaft, a driving rod (1-30), a supporting shell (1-31), a hydraulic cylinder (1-32) and a hinge joint (1-33), wherein a spring (1-2) is sleeved on a stepped rod (1-1), the stepped rod (1-1) is connected with a vibration bucket body (1-3), a switching plate (1-4) with the shaft is connected with the vibration bucket body (1-3) in a bearing way, the switching plate (1-4) with the shaft is connected with a switching wheel (1-5), a limiting hole (1-6) is arranged on the switching wheel (1-5), the sieve plate (1-7) is connected with the vibration bucket body (1-3), the shaft-carrying switching plate (1-4) is connected with the gear (1-8), the gear (1-8) is meshed with the special-shaped rack (1-9), the special-shaped rack (1-9) is in threaded connection with the screw rod (1-10), the special-shaped rack (1-9) is in sliding connection with the limiting rod (1-11), the limiting rod (1-11) is connected with the bearing seat (1-12), the bearing seat (1-12) is in bearing connection with the screw rod (1-10), the screw rod (1-10) is connected with the servo motor (1-14) through the coupler (1-13), the servo motor (1-14) is connected with the vibration bucket body (1-3), the vibration bucket body (1-3) is connected with the crushing box (1-15), the transmission wheel (1-16) is provided with power transmission holes (1-17), two ends of a limiting plate (1-20) are respectively connected with a brake rod (1-19) and a connecting rod (1-18), the brake rod (1-19) is connected with a limiting hole (1-6) in a sliding way, a spring (1-21) is sleeved on the connecting rod (1-18), the spring (1-21) is abutted against the limiting plate (1-20) and a hole seat (1-22), the hole seat (1-22) is connected with a vibration bucket body (1-3), the hole seat (1-22) is connected with the connecting rod (1-18) in a sliding way, a hollow long strip seat (1-23) is connected with the connecting rod (1-18), a swinging arm (1-24) with a kidney groove is hinged with the vibration bucket body (1-3), the swinging arm (1-24) with the kidney groove is hinged with a swinging arm head (1-33), the articulated joints (1-33) are connected with hydraulic cylinders (1-32), the hydraulic cylinders (1-32) are connected with supporting shells (1-31), the supporting shells (1-31) are connected with a vibration hopper body (1-3), partition plates (1-25) are connected with the vibration hopper body (1-3), material sliding cavities (1-26) are arranged in the vibration hopper body (1-3), communication ports (1-27) are arranged on the vibration hopper body (1-3), the material sliding cavities (1-26) and crushing boxes (1-15) are communicated through the communication ports (1-27), the belt shaft crushing wheels (1-29) are connected with driving wheels (1-16), the belt shaft crushing wheels (1-29) and the belt shaft crushing wheels (1-29) are connected in a bearing mode, and the driving rods (1-30) are connected with hollow strip seats (1-23), the driving rod (1-30) is connected with the swing arm (1-24) with the kidney slot in a sliding way.

3. A feed and cutting integrated apparatus as recited in claim 1, wherein: the vibration power mechanism (2) comprises two-side-belt convex wheels (2-1), a movable bearing seat (2-2), a transmission wheel I (2-3), a sliding rail (2-4), a bearing seat I (2-5), a rotating wheel (2-6), a slot (2-7), a fixed wheel (2-8) with a hole, a hydraulic rod I (2-9), a rotating shaft (2-10), a coupler I (2-11), a motor I (2-12), a shaft-provided eccentric wheel (2-13), a pushing hydraulic cylinder (2-14), a stepped slot (2-15), a matching hole (2-16), a hydraulic cylinder A (2-17) and an embedding cavity (2-18), wherein the two-side-belt convex wheels (2-1) are in sliding connection with power transmission holes (1-17), and the two-side-belt convex wheels (2-1) are connected with the movable bearing seat (2-2) through shafts Bearing connection, a driving wheel I (2-3) is provided with matching holes (2-16), the matching holes (2-16) are connected with two side convex wheels (2-1) in a sliding way, a sliding rail (2-4) is connected with a bearing seat I (2-5), the bearing seat I (2-5) is connected with a vibration bucket body (1-3), a rotating wheel (2-6) is connected with a rotating shaft (2-10), the rotating shaft (2-10) is connected with the driving wheel I (2-3), a slot (2-7) is arranged on the rotating wheel (2-6), a fixed wheel (2-8) with a hole is connected with an eccentric wheel (2-13) with a shaft, the eccentric wheel (2-13) with the shaft is connected with the rotating wheel (2-6) in a bearing way, a hydraulic rod I (2-9) is connected with a hydraulic cylinder A (2-17), the hydraulic cylinder A (2-17) is arranged in the embedding cavity (2-18), the embedding cavity (2-18) is arranged in the rotating shaft (2-10), the rotating shaft (2-10) is connected with the bearing seat I (2-5) in a bearing mode, the rotating shaft (2-10) is connected with the motor I (2-12) through the coupler I (2-11), the motor I (2-12) is connected with the bearing seat I (2-5), the hydraulic cylinder (2-14) is pushed to be connected with the bearing seat I (2-5), the stepped groove (2-15) is arranged on the sliding rail (2-4), and the stepped groove (2-15) is connected with the movable bearing seat (2-2) in a sliding mode.

4. A feed and cutting integrated apparatus as recited in claim 1, wherein: the vibration seat mechanism (3) comprises a base (3-1) and a vibration sliding hole (3-2), the vibration sliding hole (3-2) is formed in the base (3-1), the vibration sliding hole (3-2) is connected with the step rod (1-1) in a sliding mode, and the spring (1-2) abuts against the base (3-1).

5. A feed and cutting integrated apparatus as recited in claim 2, wherein: the sieve plates (1-7) are made of Q235.