CN111359739A - Gardens twigs crushing apparatus that gives up - Google Patents

Abstract

The invention relates to crushing equipment, in particular to garden waste branch crushing equipment which comprises a crushing mechanism, a conveying mechanism, a material distributing mechanism and equipment, wherein the crushing mechanism, the conveying mechanism, the material distributing mechanism and the equipment can perform multi-dimensional crushing while feeding smoothly, the equipment can perform intermittent discharging, the equipment can uniformly distribute crushed materials and change the conveying state, the equipment can perform air drying quickly, the crushing mechanism is connected with the conveying mechanism, the conveying mechanism is connected with the material distributing mechanism, and the air drying mechanism is connected with the conveying mechanism.

Description

Gardens twigs crushing apparatus that gives up

Technical Field

The invention relates to crushing equipment, in particular to garden waste branch crushing equipment.

Background

Can produce the useless leaf of a lot of branches of abandonment in gardens pruning work, these things often need through the subsequent processing of smashing the back seat, and traditional crushing apparatus smashes the dimension single, and there is the inefficiency scheduling problem to the sunning of the branch leaf after smashing, so designed this kind of useless branch crushing apparatus in gardens.

Disclosure of Invention

The invention mainly solves the technical problem of providing the garden waste branch crushing equipment, the equipment can smoothly feed and simultaneously carry out multi-dimensional crushing, the equipment can intermittently unload materials, the equipment can uniformly distribute the crushed materials and simultaneously change the conveying state, and the equipment can quickly carry out airing.

In order to solve the technical problem, the invention relates to a crushing device, in particular to a garden waste branch crushing device which comprises a crushing mechanism, a conveying mechanism, a material distributing mechanism and a device, wherein the crushing mechanism can smoothly feed and simultaneously carry out multidimensional crushing, the device can intermittently unload materials, the conveying state of the crushed materials can be changed while the crushed materials are uniformly distributed, and the device can be used for quickly airing.

The crushing mechanism is connected with the conveying mechanism, the conveying mechanism is connected with the material distributing mechanism, and the airing mechanism is connected with the conveying mechanism.

As further optimization of the technical scheme, the crushing mechanism of the garden waste branch crushing equipment comprises a hopper inlet, a hopper, a vibration crushing mechanism, a stirring shell mechanism, a vibration seat mechanism, an intermittent discharging mechanism and a hopper outlet, wherein the hopper inlet is arranged on the hopper, the hopper is connected with the stirring shell mechanism, the stirring shell mechanism is connected with the vibration crushing mechanism, the stirring shell mechanism is connected with the vibration seat mechanism, the stirring shell mechanism is connected with the intermittent discharging mechanism, and the hopper outlet is arranged on the hopper; the vibration crushing mechanism comprises a crushing knife, a crushing knife supporting plate, an eccentric wheel shaft, a belt pulley, a transmission belt, a coupling, a crushing motor, a belt pulley I and a belt pulley shaft, wherein the crushing knife is connected with the crushing knife supporting plate through a bolt; the crushing machine shell mechanism comprises a connecting plate, a sliding rod, a spring, a machine body, a motor base, a bearing seat, a discharge port I, a crushing cavity, a bearing seat I, a bearing seat II, a connecting plate is connected with the sliding rod, the sliding rod is connected with the machine body, the spring is sleeved on the sliding rod, the machine body is connected with the motor base, the motor base is connected with a crushing motor, the bearing seat is connected with an eccentric wheel shaft in a bearing mode, the bearing seat is connected with the machine body, the discharge port I is formed in the machine body, the crushing cavity is arranged in the machine body, the crushing cavity is communicated with the discharge port I, the crushing cavity is communicated with an outlet of a feed hopper, the machine body is connected with the feed hopper, the bearing seat I is connected with the eccentric wheel shaft in a bearing mode, the belt wheel shaft; the vibration seat mechanism comprises a vibration seat body and a unthreaded hole, the unthreaded hole is formed in the vibration seat body, the unthreaded hole is connected with the sliding rod in a sliding mode, and the spring abuts against the machine body and the vibration seat body; intermittent type discharge mechanism includes a hopper import, go out the hopper, the door spout, the door, go out the hopper export, the door fluting, unthreaded hole I, slide bar II, reset spring, the pulley holder, the pulley, the bracing, it is linked together with discharge gate I to go out the hopper import, it sets up on going out the hopper to go out the hopper import, it links to each other with the fuselage body to go out the hopper, the door spout is opened on going out the hopper, door and door spout sliding connection, it opens on going out the hopper to go out the hopper export, the door fluting is opened on the door, unthreaded hole I is opened on going out the hopper, slide bar II links to each other with the unthreaded hole I sliding connection, reset spring overlaps on slide bar II, reset spring supports at a hopper, on the pulley holder, the pulley holder links to each other with slide bar II, the connection mode of pulley holder and pulley is connected for the bearing.

As a further optimization of the technical scheme, the conveying mechanism of the garden waste branch crushing equipment comprises a base, a conveying belt, a roller with a shaft tail, a conveying frame, a driven roller with a shaft, a roller with a shaft head, a coupling I, a conveying motor and a hinge base, wherein the base is connected with a vibration base body, an inclined strut is connected with the base, the conveying belt is flexibly connected with the roller with a shaft tail, the roller with a shaft tail is connected with the conveying frame in a bearing mode, the conveying frame is connected with the base, the driven roller with a shaft is connected with the conveying frame in a bearing mode, the driven roller with a shaft is flexibly connected with the conveying belt, the roller with a shaft head is connected with the conveying frame in a bearing mode, the roller with a shaft head is connected with the conveying motor through the coupling I, and the hinge base is connected with the.

As a further optimization of the technical scheme, the distribution mechanism of the garden waste branch crushing equipment comprises a socket mechanism, a plug mechanism, a driving pulley, a distribution seat, a distribution groove, a hydraulic rod with a hinged seat, a hydraulic cylinder and a support, wherein the socket mechanism is connected with the plug mechanism; the socket mechanism comprises a socket frame, a supporting spring, a supporting stepped sliding rod and a socket body, wherein the socket frame is connected with the base, the socket frame is connected with the supporting stepped sliding rod, the supporting spring is sleeved on the supporting stepped sliding rod, and the socket body is connected with the socket frame; the plug mechanism comprises a hole seat, a supporting seat I, a plug and a square hole, the hole seat is connected with the supporting seat I, the supporting seat I is connected with the plug, the plug is inserted into the socket body, the square hole is formed in the supporting seat I, the square hole is connected with the socket frame in a sliding mode, the stepped sliding rod is connected with the hole seat in a sliding mode, and the supporting spring abuts against the hole seat and the socket frame.

As a further optimization of the technical scheme, the drying mechanism of the garden waste branch crushing equipment comprises a drying frame mechanism, a baffle plate, a drying box mechanism, a cam shaft, a coupling A and a motor A, wherein the drying frame mechanism is connected with the drying box mechanism, the drying box mechanism is connected with the baffle plate, the cam is in contact with the drying box mechanism, the cam shaft is connected with the cam, the cam shaft is connected with the motor A through the coupling A, the connecting mode of the cam shaft and the drying frame mechanism is bearing connection, and the motor A is connected with a base; the drying rack mechanism comprises a bottom frame, a sliding column, a vibration spring, a supporting plate I and a bearing seat A, wherein the bottom frame is connected with the sliding column, the bottom frame is connected with a base, the vibration spring is sleeved on the sliding column, the sliding column is connected with the supporting plate I, the supporting plate I is connected with the bearing seat A, and the bearing seat A is connected with a camshaft in a bearing connection mode; sunning case mechanism includes vibrating plate, unthreaded hole A, sunning case body, embedded groove, and the vibrating plate links to each other with sunning case body, and unthreaded hole A opens on the vibrating plate, unthreaded hole A and traveller sliding connection, and the vibrations spring supports on chassis, vibrating plate, and the vibrating plate links to each other with sunning case body, and the embedded groove is opened on sunning case body, and the baffle is embedded into in the embedded groove.

As a further optimization of the technical scheme, when the plug of the garden waste branch crushing equipment is inserted into the socket body, the power supply of the conveying motor is switched on.

The garden waste branch crushing equipment has the beneficial effects that:

according to the garden waste branch crushing equipment, the equipment can perform multi-dimensional crushing while feeding smoothly, the equipment can perform intermittent discharging, the equipment can uniformly distribute crushed materials and change the conveying state, and the equipment can perform airing quickly.

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 garden waste branch crushing device according to the invention.

Fig. 2 is a schematic structural diagram of a garden waste branch crushing device according to the invention.

Fig. 3 is a schematic structural diagram III of the garden waste branch crushing device.

Fig. 4 is a schematic structural diagram of a crushing mechanism 1 of the garden waste branch crushing device according to the present invention.

Fig. 5 is a schematic structural diagram II of the crushing mechanism 1 of the garden waste branch crushing device.

Fig. 6 is a schematic structural diagram of a vibration crushing mechanism 1-3 of the garden waste branch crushing device of the invention.

Fig. 7 is a schematic structural diagram of a shredder housing mechanism 1-4 of the garden waste branch shredder.

Fig. 8 is a schematic structural view of a vibration seat mechanism 1-5 of the garden waste branch crushing device of the invention.

Fig. 9 is a first structural schematic diagram of an intermittent discharging mechanism 1-6 of the garden waste branch crushing device.

Fig. 10 is a schematic structural diagram II of the intermittent discharging mechanism 1-6 of the garden waste branch crushing device.

Fig. 11 is a schematic structural diagram of a conveying mechanism 2 of the garden waste branch crushing device according to the invention.

Fig. 12 is a first structural schematic diagram of a material distribution mechanism 3 of the garden waste branch crushing device of the invention.

Fig. 13 is a structural schematic diagram of a material distribution mechanism 3 of the garden waste branch crushing device of the invention.

Fig. 14 is a schematic structural view of a socket mechanism 3-1 of the garden waste branch crushing device of the invention.

Fig. 15 is a schematic structural diagram of a plug mechanism 3-2 of the garden waste branch crushing device according to the invention.

Fig. 16 is a schematic structural diagram of an airing mechanism 4 of the garden waste branch crushing device of the invention.

Fig. 17 is a schematic structural view of a drying rack mechanism 4-1 of the garden waste branch crushing device of the invention.

FIG. 18 is a schematic structural diagram of a drying box mechanism 4-3 of the garden waste branch crushing device of the present invention.

In the figure: a crushing mechanism 1; a hopper inlet 1-1; 1-2 parts of a feed hopper; a vibration crushing mechanism 1-3; 1-3-1 parts of a mincing knife; 1-3-2 parts of a supporting plate of a mincing knife; 1-3-3 of an eccentric wheel; 1-3-4 parts of an eccentric wheel shaft; 1-3-5 of belt pulleys; 1-3-6 parts of a transmission belt; 1-3-7 of a coupler; 1-3-8 parts of a mincing motor; pulley I1-3-9; 1-3-10 parts of a belt pulley shaft; a pulper housing mechanism 1-4; connecting plates 1-4-1; a slide bar 1-4-2; 1-4-3 of a spring; 1-4-4 of a fuselage body; 1-4-5 of a motor base; 1-4-6 of a bearing seat; a discharge port I1-4-7; 1-4-8 parts of a crushing cavity; bearing seat I1-4-9; bearing seat II 1-4-10; a vibration seat mechanism 1-5; 1-5-1 parts of a vibration seat body; a unthreaded hole 1-5-2; 1-6 of an intermittent discharging mechanism; an inlet 1-6-1 of the discharge hopper; a discharge hopper 1-6-2; 1-6-3 of a door chute; doors 1-6-4; 1-6-5 of an outlet of the discharge hopper; 1-6-6 of door slots; unthreaded hole I1-6-7; slide bar II 1-6-8; 1-6-9 of a return spring; 1-6-10 parts of a pulley seat; 1-6-11 of a pulley; 1-6-12 parts of an inclined strut; a feed hopper outlet 1-7; a conveying mechanism 2; a base 2-1; 2-2 of a conveying belt; a roller 2-3 at the tail part of the belt shaft; 2-4 of a conveying frame; driven rollers 2-5 with shafts; a roller 2-6 with a shaft head; a coupler I2-7; 2-8 of a conveying motor; hinge seats 2-9; a material distributing mechanism 3; a socket mechanism 3-1; socket frame 3-1-1; a support spring 3-1-2; supporting a step slide bar 3-1-3; 3-1-4 of the socket body; a plug mechanism 3-2; 3-2-1 of a seat with a hole; supporting seat I3-2-2; 3-2-3 of a plug; 3-2-4 of square holes; a driving pulley 3-3; 3-4 parts of a material distributing seat; 3-5 parts of a distributing trough; 3-6 of a hydraulic rod with a hinged seat; 3-7 of a hydraulic cylinder; 3-8 of support; an airing mechanism 4; a drying rack mechanism 4-1; a chassis 4-1-1; 4-1-2 of a sliding column; 4-1-3 of a vibration spring; support panel I4-1-4; bearing seat A4-1-5; a baffle 4-2; 4-3 of a drying box mechanism; 4-3-1 of a vibration plate; the light hole A4-3-2; 4-3-3 of the airing box body; 4-3-4 of an embedded groove; 4-4 of a cam; 4-5 parts of a camshaft; a coupler A4-6; motor a 4-7.

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, fig. 14, fig. 15, fig. 16, fig. 17, and fig. 18, and the present invention relates to a crushing apparatus, and more specifically to a garden waste branch crushing apparatus, which includes a crushing mechanism 1, a conveying mechanism 2, a material dividing mechanism 3, and an airing mechanism 4, and is capable of performing multi-dimensional crushing while feeding smoothly, discharging intermittently, changing a conveying state while uniformly distributing crushed materials, and airing quickly.

The crushing mechanism 1 is connected with the conveying mechanism 2, the conveying mechanism 2 is connected with the material distributing mechanism 3, and the airing mechanism 4 is connected with the conveying mechanism 2.

The second embodiment is as follows:

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, fig. 15, fig. 16, fig. 17, fig. 18. the embodiment further describes the embodiment, the crushing mechanism 1 includes a hopper inlet 1-1, a hopper 1-2, a vibration crushing mechanism 1-3, a mincing machine shell mechanism 1-4, a vibration seat mechanism 1-5, an intermittent discharge mechanism 1-6, a hopper outlet 1-7, the hopper inlet 1-1 is arranged on the hopper 1-2, the hopper 1-2 is connected with the mincing machine shell mechanism 1-4, the mincing machine shell mechanism 1-4 is connected with the vibration crushing mechanism 1-3, the mincing machine shell mechanism 1-4 is connected with the vibration seat mechanism 1-5, the stirring shell mechanism 1-4 is connected with the intermittent discharge mechanism 1-6, and the feed hopper outlet 1-7 is arranged on the feed hopper 1-2; the vibration crushing mechanism 1-3 comprises a crushing knife 1-3-1, a crushing knife supporting plate 1-3-2, an eccentric wheel 1-3-3, an eccentric wheel shaft 1-3-4, a belt pulley 1-3-5, a transmission belt 1-3-6, a coupling 1-3-7, a crushing motor 1-3-8, a belt pulley I1-3-9 and a belt pulley shaft 1-3-10, wherein the crushing knife 1-3-1 is connected with the crushing knife supporting plate 1-3-2 through bolts, the crushing knife supporting plate 1-3-2 is connected with the belt pulley shaft 1-3-10, the belt pulley shaft 1-3-10 is connected with a belt pulley I1-3-9, the belt pulley I1-3-9 is flexibly connected with the transmission belt 1-3-6, the transmission belt 1-3-6 is flexibly connected with the belt pulley 1-3-5, the belt pulley 1-3-5 is connected with the eccentric wheel shaft 1-3-4, the eccentric wheel shaft 1-3-4 is connected with the eccentric wheel 1-3-3, and the eccentric wheel shaft 1-3-4 is connected with the mincing motor 1-3-8 through the shaft coupling 1-3-7; the stirring and crushing machine shell mechanism 1-4 comprises a connecting plate 1-4-1, a sliding rod 1-4-2, a spring 1-4-3, a machine body 1-4-4, a motor seat 1-4-5, a bearing seat 1-4-6, a discharge port I1-4-7, a crushing cavity 1-4-8, a bearing seat I1-4-9 and a bearing seat II1-4-10, wherein the connecting plate 1-4-1 is connected with the sliding rod 1-4-2, the sliding rod 1-4-2 is connected with the machine body 1-4-4, the spring 1-4-3 is sleeved on the sliding rod 1-4-2, the machine body 1-4-4 is connected with the motor seat 1-4-5, the motor seat 1-4-5 is connected with a stirring and crushing motor 1-3-8, the connection mode of the bearing seat 1-4-6 and the eccentric wheel shaft 1-3-4 is bearing connection, the bearing seat 1-4-6 is connected with the machine body 1-4-4, the discharge port I1-4-7 is opened on the machine body 1-4-4, the crushing cavity 1-4-8 is arranged in the machine body 1-4-4, the crushing cavity 1-4-8 is communicated with the discharge port I1-4-7, the crushing cavity 1-4-8 is communicated with the feed hopper outlet 1-7, the machine body 1-4-4 is connected with the feed hopper 1-2, the connection mode of the bearing seat I1-4-9 and the eccentric wheel shaft 1-3-4 is bearing connection, the connection mode of the pulley shaft 1-3-10 and the bearing seat II1-4-10 is bearing connection, the bearing seat II1-4-10 is connected with the machine body 1-4-4, the running and crushing motor 1-3-8 drives the shaft coupling 1-3-7 to rotate, the shaft coupling 1-3-7 rotates to drive the eccentric wheel shaft 1-3-4 to rotate, the eccentric wheel shaft 1-3-4 rotates to drive the belt pulley 1-3-5 to rotate, the belt pulley 1-3-5 rotates to drive the belt pulley I1-3-9 to rotate through the transmission belt 1-3-6, the belt pulley I1-3-9 rotates to drive the crushing knife supporting plate 1-3-2 to rotate through the belt wheel shaft 1-3-10, the crushing knife supporting plate 1-3-2 rotates to drive the crushing knife 1-3-1 to rotate, meanwhile, the eccentric wheel 1-3-4 can drive the eccentric wheel 1-3-3 to rotate to form a deflection force, the machine body 1-4-4 can move downwards to compress the spring 1-4-3 under the drive of the deflection force, then the machine body 1-4-4 can move upwards under the action of the deflection force and the spring 1-4-3, so that the machine body 1-4-4 can continuously vibrate, materials are put into the crushing cavities 1-4-8 at two sides after being shunted by the feed hopper 1-2 from the hopper inlet 1-1, branches and leaves can smoothly move downwards due to the vibration of the machine body 1-4-4, and meanwhile, the crushing knife 1-3-1 rotating up and down can have up-and-down floating amount under the condition of basic crushing, the crushing dimension is enriched, the crushing time is prolonged, the branches and leaves are fully contacted with the crushing knife 1-3-1, and the crushing effect is enhanced; the vibration seat mechanism 1-5 comprises a vibration seat body 1-5-1 and a unthreaded hole 1-5-2, wherein the unthreaded hole 1-5-2 is formed in the vibration seat body 1-5-1, the unthreaded hole 1-5-2 is connected with a sliding rod 1-4-2 in a sliding manner, and a spring 1-4-3 abuts against the machine body 1-4-4 and the vibration seat body 1-5-1; the intermittent discharging mechanism 1-6 comprises a discharging hopper inlet 1-6-1, a discharging hopper 1-6-2, a door chute 1-6-3, a door 1-6-4, a discharging hopper outlet 1-6-5, a door slot 1-6-6, a unthreaded hole I1-6-7, a sliding rod II1-6-8, a reset spring 1-6-9, a pulley seat 1-6-10, a pulley 1-6-11 and an inclined strut 1-6-12, wherein the discharging hopper inlet 1-6-1 is communicated with a discharging port I1-4-7, the discharging hopper inlet 1-6-1 is arranged on the discharging hopper 1-6-2, the discharging hopper 1-6-2 is connected with a machine body 1-4-4, the door chute 1-6-3 is arranged on the discharge hopper 1-6-2, the door 1-6-4 is connected with the door chute 1-6-3 in a sliding way, the outlet 1-6-5 of the discharge hopper is arranged on the discharge hopper 1-6-2, the door slot 1-6-6 is arranged on the door 1-6-4, the unthreaded hole I1-6-7 is arranged on the discharge hopper 1-6-2, the sliding rod II1-6-8 is connected with the door 1-6-4, the sliding rod II1-6-8 is connected with the unthreaded hole I1-6-7 in a sliding way, the reset spring 1-6-9 is sleeved on the sliding rod II1-6-8, the reset spring 1-6-9 is abutted against the discharge hopper 1-6-2 and the pulley seat 1-6-10, the pulley seat 1-6-10 is connected with the sliding rod II1-6-8, the pulley seat 1-6-10 is connected with the pulley 1-6-11 by a bearing, the pulley 1-6-11 is contacted with the inclined strut 1-6-12, when the machine body 1-4-4 reciprocates and vibrates, the machine body 1-4-4 can drive the discharge hopper 1-6-2 to reciprocate and vibrate, when the discharge hopper 1-6-2 moves downwards, the pulley 1-6-11 moves downwards and is supported by the inclined strut 1-6-12, the pulley 1-6-11 can move towards the direction close to the discharge hopper 1-6-2, the pulley 1-6-11 can drive the door 1-6-4 to move through the sliding rod II1-6-8, the movement of the door 1-6-4 can lead the door slot 1-6-6 to connect the outlet 1-6-1 of the discharge hopper with the outlet 1-6-5 of the discharge hopper, so that the material can be poured from the outlet 1-6-5 of the discharge hopper and fall onto the conveyer belt 2-2, when the discharge hopper 1-6-2 moves upwards, the door 1-6-4 resets under the resilience of the return spring 1-6-9, and the discharging is stopped.

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, fig. 15, fig. 16, fig. 17, fig. 18, and the embodiment further describes the embodiment, wherein the conveying mechanism 2 comprises a base 2-1, a conveying belt 2-2, a tail roller 2-3 with a shaft, a conveying frame 2-4, a driven roller 2-5 with a shaft, a head roller 2-6 with a shaft, a coupling I2-7, a conveying motor 2-8, and a hinged seat 2-9, the base 2-1 is connected with a vibration seat body 1-5-1, an inclined strut 1-6-12 is connected with the base 2-1, the conveying belt 2-2 is flexibly connected with the tail roller 2-3 with a shaft, the tail roller 2-3 is connected with the conveying frame 2-4 by a bearing, the conveying frame 2-4 is connected with the base 2-1, the driven roller 2-5 with the shaft is connected with the conveying frame 2-4 through a bearing, the driven roller 2-5 with the shaft is flexibly connected with the conveying belt 2-2, the head roller 2-6 with the shaft is connected with the conveying frame 2-4 through a bearing, the head roller 2-6 with the shaft is connected with the conveying motor 2-8 through a coupler I2-7, and the hinged seat 2-9 is connected with the base 2-1.

The fourth 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, fig. 15, fig. 16, fig. 17, and fig. 18, and the embodiment further describes the embodiment, where the material distributing mechanism 3 includes a socket mechanism 3-1, a plug mechanism 3-2, a driving pulley 3-3, a material distributing base 3-4, a material distributing groove 3-5, a hydraulic rod with an articulated base 3-6, a hydraulic cylinder 3-7, a support 3-8, the socket mechanism 3-1 is connected with the plug mechanism 3-2, the driving pulley 3-3 is connected with the material distributing base 3-4 by a bearing, the material distributing groove 3-5 is opened on the material distributing base 3-4, the material distributing base 3-4 is articulated with the hydraulic rod with the base 3-6, the hydraulic rod 3-6 with the hinged seat is connected with the hydraulic cylinder 3-7, the hydraulic cylinder 3-7 is hinged with the hinged seat 2-9, the support 3-8 is hinged with the material distributing seat 3-4, and the support 3-8 is connected with the base 2-1; the socket mechanism 3-1 comprises a socket frame 3-1-1, a supporting spring 3-1-2, a supporting step slide rod 3-1-3 and a socket body 3-1-4, wherein the socket frame 3-1-1 is connected with a base 2-1, the socket frame 3-1-1 is connected with the supporting step slide rod 3-1-3, the supporting spring 3-1-2 is sleeved on the supporting step slide rod 3-1-3, and the socket body 3-1-4 is connected with the socket frame 3-1-1; the plug mechanism 3-2 comprises a perforated seat 3-2-1, a supporting seat I3-2-2, a plug 3-2-3 and a square hole 3-2-4, the perforated seat 3-2-1 is connected with the supporting seat I3-2-2, the supporting seat I3-2-2 is connected with the plug 3-2-3, the plug 3-2-3 is inserted into the socket body 3-1-4, the square hole 3-2-4 is arranged on the supporting seat I3-2-2, the square hole 3-2-4 is connected with the socket frame 3-1-1 in a sliding way, a supporting ladder slide bar 3-1-3 is connected with the perforated seat 3-2-1 in a sliding way, and a supporting spring 3-1-2 is abutted against the perforated seat 3-2-1, On the socket frame 3-1-1, the conveying motor 2-8 is operated to drive the coupling I2-7 to rotate, the coupling I2-7 rotates to drive the roller 2-6 with the shaft head to rotate, the roller 2-6 with the shaft head rotates to drive the conveyer belt 2-2 to move, the conveyer belt 2-2 conveys the crushed branches and leaves to the distributing seat 3-4, the distributing seat 3-4 is provided with a distributing groove 3-5 which can uniformly disperse the materials and then fall into the airing box body 4-3-3, the hydraulic cylinder 3-7 is injected with hydraulic oil to drive the hydraulic rod 3-6 with the hinged seat to move obliquely upwards, the hydraulic rod 3-6 with the hinged seat drives the distributing seat 3-4 to move, and the distributing seat 3-4 can become horizontal, the inclination angle is reduced, so that the dispersion speed is reduced, the material distribution seat 3-4 continuously rotates around a hinged point with the support 3-8 to enable the driving pulley 3-3 to move downwards to press the support seat I3-2-2, the support seat I3-2-2 can drive the plug 3-2-3 to be pulled out of the socket body 3-1-4, so that the branch and leaf can not be conveyed when the conveying motor 2-8 stops running, if hydraulic oil is reversely injected into the hydraulic cylinder 3-7, the material distribution seat 3-4 can move reversely, the inclination angle is increased, the dispersion speed is accelerated, and meanwhile the driving pulley 3-3 is abutted to the conveying belt 2-2 to play a role in auxiliary supporting and tensioning.

The fifth 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, fig. 15, fig. 16, fig. 17, fig. 18. in this embodiment, the embodiment further describes the embodiment, where the airing mechanism 4 includes an airing frame mechanism 4-1, a baffle 4-2, an airing box mechanism 4-3, a cam 4-4, a cam shaft 4-5, a coupling a4-6, and a motor a4-7, the airing frame mechanism 4-1 is connected to the airing box mechanism 4-3, the airing box mechanism 4-3 is connected to the baffle 4-2, the cam 4-4 is in contact with the airing box mechanism 4-3, the cam shaft 4-5 is connected to the cam 4-4, the cam shaft 4-5 is connected to the motor a4-7 through a4-6, the connecting mode of the cam shaft 4-5 and the drying rack mechanism 4-1 is bearing connection, and the motor A4-7 is connected with the base 2-1; the airing frame mechanism 4-1 comprises an underframe 4-1-1, a sliding column 4-1-2, a vibration spring 4-1-3, a support plate I4-1-4 and a bearing seat A4-1-5, wherein the underframe 4-1-1 is connected with the sliding column 4-1-2, the underframe 4-1-1 is connected with a base 2-1, the vibration spring 4-1-3 is sleeved on the sliding column 4-1-2, the sliding column 4-1-2 is connected with the support plate I4-1-4, the support plate I4-1-4 is connected with the bearing seat A4-1-5, and the connection mode of the bearing seat A4-1-5 and a cam shaft 4-5 is bearing connection; the airing box mechanism 4-3 comprises a vibration plate 4-3-1, a unthreaded hole A4-3-2, an airing box body 4-3-3 and an embedded groove 4-3-4, the vibration plate 4-3-1 is connected with the airing box body 4-3-3, the unthreaded hole A4-3-2 is arranged on the vibration plate 4-3-1, the unthreaded hole A4-3-2 is connected with a sliding column 4-1-2 in a sliding way, a vibration spring 4-1-3 is propped against a bottom frame 4-1-1 and the vibration plate 4-3-1, the vibration plate 4-3-1 is connected with the airing box body 4-3-3, the embedded groove 4-3-4 is arranged on the airing box body 4-3-3, a baffle 4-2 is embedded into the embedded groove 4-3-4, the motor A4-7 operates to drive the coupling A4-6 to rotate, the coupling A4-6 rotates to drive the cam shaft 4-5 to rotate, the cam shaft 4-5 rotates to drive the cam 4-4 to rotate, the cam 4-4 rotates to press the drying box body 4-3-3 downwards, the drying box body 4-3-3 compresses the vibrating spring 4-1-3 through the vibrating plate 4-3-1, and the vibrating spring 4-1-3 rebounds to drive the drying box body 4-3-3 to move upwards along with the continuous rotation of the cam 4-4, the up-and-down fluctuation of the airing box body 4-3-3 leads the branches and leaves to fluctuate up and down, so that the contact with the air is accelerated, and the airing and drying efficiency is accelerated.

The sixth specific 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, fig. 14, fig. 15, fig. 16, fig. 17, and fig. 18, and the present embodiment further describes the first embodiment, in which the power supply of the conveying motor 2-8 is turned on when the plug 3-2-3 is inserted into the socket body 3-1-4.

The working principle of the device is as follows: the equipment can carry out multidimensional crushing while feeding smoothly, the stirring motor 1-3-8 is operated to drive the shaft coupling 1-3-7 to rotate, the shaft coupling 1-3-7 rotates to drive the eccentric wheel shaft 1-3-4 to rotate, the eccentric wheel shaft 1-3-4 rotates to drive the belt pulley 1-3-5 to rotate, the belt pulley 1-3-5 rotates to drive the belt pulley I1-3-9 to rotate through the transmission belt 1-3-6, the belt pulley I1-3-9 rotates to drive the stirring knife supporting plate 1-3-2 to rotate through the belt wheel shaft 1-3-10, the stirring knife supporting plate 1-3-2 rotates to drive the stirring knife 1-3-1 to rotate, meanwhile, the eccentric wheel 1-3-4 can drive the eccentric wheel 1-3-3 to rotate to form a deflection force, the machine body 1-4-4 can move downwards to compress the spring 1-4-3 under the drive of the deflection force, then the machine body 1-4-4 can move upwards under the action of the deflection force and the spring 1-4-3, so that the machine body 1-4-4 can continuously vibrate, materials are put into the crushing cavities 1-4-8 at two sides after being shunted by the feed hopper 1-2 from the hopper inlet 1-1, branches and leaves can smoothly move downwards due to the vibration of the machine body 1-4-4, and meanwhile, the crushing knife 1-3-1 rotating up and down can have up-and-down floating amount under the condition of basic crushing, the crushing dimension is enriched, the crushing time is prolonged, the branches and leaves are fully contacted with the crushing knife 1-3-1, and the crushing effect is enhanced; the device can carry out intermittent discharging, when the machine body 1-4-4 carries out reciprocating vibration motion from top to bottom, the machine body 1-4-4 can drive the discharge hopper 1-6-2 to carry out reciprocating vibration motion from top to bottom, when the discharge hopper 1-6-2 carries out downward motion, the pulley 1-6-11 carries out downward motion and is supported by the inclined strut 1-6-12 in an inclined way, the pulley 1-6-11 can move towards the direction close to the discharge hopper 1-6-2, the pulley 1-6-11 can drive the door 1-6-4 to move through the slide bar II1-6-8, the door 1-6-4 can move to lead the door slot 1-6-6 to connect the discharge hopper inlet 1-6-1 with the discharge hopper outlet 1-6-5, thus, the materials can be poured from the outlet 1-6-5 of the discharge hopper and fall onto the conveyer belt 2-2, when the discharge hopper 1-6-2 moves upwards, the door 1-6-4 is reset under the resilience action of the reset spring 1-6-9, and the discharging is stopped; the equipment can uniformly distribute crushed materials and change the conveying state, the conveying motor 2-8 is operated to drive the coupling I2-7 to rotate, the coupling I2-7 rotates to drive the roller 2-6 with the shaft head to rotate, the roller 2-6 with the shaft head rotates to drive the conveyer belt 2-2 to move, the conveyer belt 2-2 can convey the crushed branches and leaves to the material distribution seat 3-4, the material distribution seat 3-4 is provided with a material distribution groove 3-5 which can uniformly disperse the materials and then fall into the airing box body 4-3-3, the hydraulic oil is injected into the hydraulic cylinder 3-7 to drive the hydraulic rod 3-6 with the hinged seat to move obliquely upwards, and the hydraulic rod 3-6 with the hinged seat can drive the material distribution seat 3-4 to move, the material distributing seat 3-4 becomes horizontal, the inclination angle becomes small, the dispersion speed is slowed down, the material distributing seat 3-4 continuously rotates around a hinge point with the support 3-8, the driving pulley 3-3 moves downwards to press the support seat I3-2-2, the support seat I3-2-2 drives the plug 3-2-3 to be pulled out of the socket body 3-1-4, the conveying motor 2-8 stops running, branches and leaves can not be conveyed any more, if hydraulic oil is injected into the hydraulic cylinder 3-7 in a reverse direction, the material distributing seat 3-4 moves in a reverse direction, the inclination angle becomes large, the dispersion speed is accelerated, and meanwhile the driving pulley 3-3 is abutted to the conveying belt 2-2 to play a role in auxiliary supporting and tensioning; the device can be used for airing quickly, the motor A4-7 is operated to drive the coupling A4-6 to rotate, the coupling A4-6 rotates to drive the cam shaft 4-5 to rotate, the cam shaft 4-5 rotates to drive the cam 4-4 to rotate, the cam 4-4 rotates to press the airing box body 4-3-3 downwards, the airing box body 4-3-3 compresses the vibrating spring 4-1-3 through the vibrating plate 4-3-1, the vibrating spring 4-1-3 rebounds to drive the airing box body 4-3-3 to move upwards along with the continuous rotation of the cam 4-4, so that the up-and-down fluctuating airing box body 4-3-3 enables branches and leaves to fluctuate up and down to accelerate the contact with air, thereby accelerating the efficiency of drying.

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 (6)

1. The utility model provides a gardens twigs crushing apparatus that gives up, includes rubbing crusher structure (1), conveying mechanism (2), feed mechanism (3), sunning mechanism (4), its characterized in that: the crushing mechanism (1) is connected with the conveying mechanism (2), the conveying mechanism (2) is connected with the material distributing mechanism (3), and the airing mechanism (4) is connected with the conveying mechanism (2).

2. The gardens twigs crushing apparatus of claim 1, characterized in that: the crushing mechanism (1) comprises a hopper inlet (1-1), a feed hopper (1-2), a vibration crushing mechanism (1-3), a stirring crusher shell mechanism (1-4), a vibration seat mechanism (1-5), an intermittent discharging mechanism (1-6) and a feed hopper outlet (1-7), the hopper inlet (1-1) is arranged on the hopper (1-2), the hopper (1-2) is connected with the stirring shell mechanism (1-4), the stirring shell mechanism (1-4) is connected with the vibration crushing mechanism (1-3), the stirring shell mechanism (1-4) is connected with the vibration seat mechanism (1-5), the stirring shell mechanism (1-4) is connected with the intermittent discharging mechanism (1-6), and the hopper outlet (1-7) is arranged on the hopper (1-2); the vibration crushing mechanism (1-3) comprises a crushing knife (1-3-1), a crushing knife supporting plate (1-3-2), an eccentric wheel (1-3-3), an eccentric wheel shaft (1-3-4), a belt pulley (1-3-5), a transmission belt (1-3-6), a coupling (1-3-7), a crushing motor (1-3-8), a belt pulley I (1-3-9) and a belt pulley shaft (1-3-10), wherein the crushing knife (1-3-1) is connected with the crushing knife supporting plate (1-3-2) through bolts, the crushing knife supporting plate (1-3-2) is connected with the belt pulley shaft (1-3-10), the belt pulley shaft (1-3-10) is connected with the belt pulley I (1-3-9), the belt pulley I (1-3-9) is flexibly connected with the transmission belt (1-3-6), the transmission belt (1-3-6) is flexibly connected with the belt pulley (1-3-5), the belt pulley (1-3-5) is connected with the eccentric wheel shaft (1-3-4), the eccentric wheel shaft (1-3-4) is connected with the eccentric wheel (1-3-3), and the eccentric wheel shaft (1-3-4) is connected with the mincing motor (1-3-8) through the shaft coupling (1-3-7); the stirring crusher shell mechanism (1-4) comprises a connecting plate (1-4-1), a sliding rod (1-4-2), a spring (1-4-3), a crusher body (1-4-4), a motor base (1-4-5), a bearing seat (1-4-6), a discharge port I (1-4-7), a crushing cavity (1-4-8), a bearing seat I (1-4-9) and a bearing seat II (1-4-10), wherein the connecting plate (1-4-1) is connected with the sliding rod (1-4-2), the sliding rod (1-4-2) is connected with the crusher body (1-4-4), the spring (1-4-3) is sleeved on the sliding rod (1-4-2), the machine body (1-4-4) is connected with the motor base (1-4-5), the motor base (1-4-5) is connected with the stirring motor (1-3-8), the bearing seat (1-4-6) is connected with the eccentric wheel shaft (1-3-4) in a bearing way, the bearing seat (1-4-6) is connected with the machine body (1-4-4), the discharge port I (1-4-7) is arranged on the machine body (1-4-4), the crushing cavity (1-4-8) is arranged in the machine body (1-4-4), the crushing cavity (1-4-8) is communicated with the discharge port I (1-4-7), the crushing cavity (1-4-8) is communicated with the feed hopper outlet (1-7), the machine body (1-4-4) is connected with the feed hopper (1-2), the connection mode of the bearing seat I (1-4-9) and the eccentric wheel shaft (1-3-4) is bearing connection, the connection mode of the belt wheel shaft (1-3-10) and the bearing seat II (1-4-10) is bearing connection, and the bearing seat II (1-4-10) is connected with the machine body (1-4-4); the vibration seat mechanism (1-5) comprises a vibration seat body (1-5-1) and an unthreaded hole (1-5-2), wherein the unthreaded hole (1-5-2) is formed in the vibration seat body (1-5-1), the unthreaded hole (1-5-2) is connected with a sliding rod (1-4-2) in a sliding manner, and a spring (1-4-3) abuts against the machine body (1-4-4) and the vibration seat body (1-5-1); the intermittent discharging mechanism (1-6) comprises a discharging hopper inlet (1-6-1), a discharging hopper (1-6-2), a door chute (1-6-3), a door (1-6-4), a discharging hopper outlet (1-6-5), a door slot (1-6-6), a unthreaded hole I (1-6-7), a sliding rod II (1-6-8), a reset spring (1-6-9), a pulley seat (1-6-10), a pulley (1-6-11) and an inclined strut (1-6-12), wherein the discharging hopper inlet (1-6-1) is communicated with the discharging outlet I (1-4-7), the discharging hopper inlet (1-6-1) is arranged on the discharging hopper (1-6-2), the discharge hopper (1-6-2) is connected with the machine body (1-4-4), the door chute (1-6-3) is opened on the discharge hopper (1-6-2), the door (1-6-4) is connected with the door chute (1-6-3) in a sliding way, the discharge hopper outlet (1-6-5) is opened on the discharge hopper (1-6-2), the door chute (1-6-6) is opened on the door (1-6-4), the unthreaded hole I (1-6-7) is opened on the discharge hopper (1-6-2), the slide bar II (1-6-8) is connected with the door (1-6-4), the slide bar II (1-6-8) is connected with the unthreaded hole I (1-6-7) in a sliding way, the reset spring (1-6-9) is sleeved on the sliding rod II (1-6-8), the reset spring (1-6-9) abuts against the discharge hopper (1-6-2) and the pulley seat (1-6-10), the pulley seat (1-6-10) is connected with the sliding rod II (1-6-8), the pulley seat (1-6-10) is connected with the pulley (1-6-11) in a bearing mode, and the pulley (1-6-11) is in contact with the inclined strut (1-6-12).

3. The gardens twigs crushing apparatus of claim 1, characterized in that: the conveying mechanism (2) comprises a base (2-1), a conveying belt (2-2), a roller at the tail part of a belt shaft (2-3), a conveying frame (2-4), a driven roller of the belt shaft (2-5), a roller at the head part of the belt shaft (2-6), a coupling I (2-7), a conveying motor (2-8) and a hinged seat (2-9), wherein the base (2-1) is connected with a vibration seat body (1-5-1), an inclined strut (1-6-12) is connected with the base (2-1), the conveying belt (2-2) is flexibly connected with the roller at the tail part of the belt shaft (2-3), the roller at the tail part of the belt shaft (2-3) is connected with the conveying frame (2-4) in a bearing manner, the conveying frame (2-4) is connected with the base (2-1), the connection mode of the driven roller (2-5) with the shaft and the conveying frame (2-4) is bearing connection, the driven roller (2-5) with the shaft and the conveying belt (2-2) are flexibly connected, the head roller (2-6) with the shaft and the conveying frame (2-4) are bearing connection, the head roller (2-6) with the shaft and the conveying motor (2-8) are connected through a coupler I (2-7), and the hinged seat (2-9) is connected with the base (2-1).

4. The gardens twigs crushing apparatus of claim 1, characterized in that: the material distribution mechanism (3) comprises a socket mechanism (3-1), a plug mechanism (3-2), a driving pulley (3-3), a material distribution seat (3-4), a material distribution groove (3-5), a hydraulic rod (3-6) with a hinged seat, a hydraulic cylinder (3-7) and a support (3-8), the socket mechanism (3-1) is connected with the plug mechanism (3-2), the driving pulley (3-3) is connected with the material distribution seat (3-4) in a bearing manner, the material distribution groove (3-5) is arranged on the material distribution seat (3-4), the material distribution seat (3-4) is hinged with the hydraulic rod (3-6) with the hinged seat, the hydraulic rod (3-6) with the hinged seat is connected with the hydraulic cylinder (3-7), the hydraulic cylinder (3-7) is hinged with the hinged seat (2-9), the supports (3-8) are hinged with the material distribution seat (3-4), and the supports (3-8) are connected with the base (2-1); the socket mechanism (3-1) comprises a socket frame (3-1-1), a supporting spring (3-1-2), a supporting step slide rod (3-1-3) and a socket body (3-1-4), the socket frame (3-1-1) is connected with a base (2-1), the socket frame (3-1-1) is connected with the supporting step slide rod (3-1-3), the supporting spring (3-1-2) is sleeved on the supporting step slide rod (3-1-3), and the socket body (3-1-4) is connected with the socket frame (3-1-1); the plug mechanism (3-2) comprises a hole seat (3-2-1), a supporting seat I (3-2-2), a plug (3-2-3) and a square hole (3-2-4), the hole seat (3-2-1) is connected with the supporting seat I (3-2-2), the supporting seat I (3-2-2) is connected with the plug (3-2-3), the plug (3-2-3) is inserted into the socket body (3-1-4), the square hole (3-2-4) is arranged on the supporting seat I (3-2-2), the square hole (3-2-4) is connected with the socket frame (3-1-1) in a sliding manner, the supporting stepped sliding rod (3-1-3) is connected with the hole seat (3-2-1) in a sliding manner, the supporting spring (3-1-2) is propped against the seat with the hole (3-2-1) and the socket seat frame (3-1-1).

5. The gardens twigs crushing apparatus of claim 1, characterized in that: the airing mechanism (4) comprises an airing frame mechanism (4-1), a baffle (4-2), an airing box mechanism (4-3), a cam (4-4), a cam shaft (4-5), a coupler A (4-6) and a motor A (4-7), the airing frame mechanism (4-1) is connected with the airing box mechanism (4-3), the airing box mechanism (4-3) is connected with the baffle (4-2), the cam (4-4) is contacted with the airing box mechanism (4-3), the cam shaft (4-5) is connected with the cam (4-4), the cam shaft (4-5) is connected with the motor A (4-7) through the coupler A (4-6), and the connecting mode of the cam shaft (4-5) and the airing frame mechanism (4-1) is bearing connection, the motor A (4-7) is connected with the base (2-1); the airing frame mechanism (4-1) comprises an underframe (4-1-1), a sliding column (4-1-2) and a vibration spring (4-1-3), the device comprises a support plate I (4-1-4) and a bearing seat A (4-1-5), wherein an underframe (4-1-1) is connected with a sliding column (4-1-2), the underframe (4-1-1) is connected with a base (2-1), a vibration spring (4-1-3) is sleeved on the sliding column (4-1-2), the sliding column (4-1-2) is connected with the support plate I (4-1-4), the support plate I (4-1-4) is connected with the bearing seat A (4-1-5), and the bearing seat A (4-1-5) is connected with a camshaft (4-5) in a bearing connection mode; the airing box mechanism (4-3) comprises a vibration plate (4-3-1), an unthreaded hole A (4-3-2), an airing box body (4-3-3) and an embedded groove (4-3-4), the vibration plate (4-3-1) is connected with the airing box body (4-3-3), the unthreaded hole A (4-3-2) is arranged on the vibration plate (4-3-1), the unthreaded hole A (4-3-2) is connected with a sliding column (4-1-2) in a sliding manner, a vibration spring (4-1-3) is abutted against an underframe (4-1-1) and the vibration plate (4-3-1), the vibration plate (4-3-1) is connected with the airing box body (4-3-3), and the embedded groove (4-3-4) is arranged on the airing box body (4-3-3) The baffle (4-2) is embedded into the embedded groove (4-3-4).

6. The garden waste branch crushing apparatus according to claim 3 or 4, wherein: when the plug (3-2-3) is inserted on the socket body (3-1-4), the power supply of the conveying motor (2-8) is switched on.

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