CN214487198U - Dry and wet branch crusher for fruit trees - Google Patents

Abstract

The utility model relates to a fruit tree is wet branch rubbing crusher futilely, including frame, first crushing frame and the crushing frame of second, evenly be provided with a plurality of reducing mechanism on the first crushing frame, the one end of first crushing frame articulates in the frame, and the other end of first crushing frame passes through hinge mechanism and frame hinge, and the one end of the crushing frame of second articulates in the frame, and it is articulated through first hinge arm between the other end of the crushing frame of second and the frame, and the second is smashed and is provided with a plurality of being put up reducing mechanism, fixedly connected with baffle between the crushing frame of first crushing frame and second, second are smashed and are put up the below and be provided with the reciprocating sieve, and the reciprocating sieve below is provided with drive assembly. The utility model discloses dependable performance, crushing efficient have solved present reducing mechanism when smashing the branch, often smash the problem that the effect is not good, crushing efficiency is not high, and the rubbing crusher can a large amount of branches of centralized processing according to the size of the entering volume regulation feed inlet of branch.

Description

Dry and wet branch crusher for fruit trees

Technical Field

The utility model relates to a horticulture reducing mechanism technical field, concretely relates to dry wet branch rubbing crusher of fruit tree.

Background

The fruit trees need to be pruned in time in the growth process, so a large number of branches can be generated after pruning every year in the orchard, the fruit tree branches are fully crushed and returned to the field, the organic matter content of soil can be improved, and the sustainable development strategy is met. Because the fruit tree branches are different in size and length, when the fruit tree branches are crushed by the conventional crushing device, the crushing effect is poor and the crushing efficiency is not high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wet branch rubbing crusher is done to fruit tree to solve present reducing mechanism when smashing the fruit tree branch, often smash the problem that the effect is not good, crushing efficiency is not high.

In order to solve the technical problem, the utility model discloses the technical scheme who takes does: a dry and wet branch grinder for fruit trees is provided, which comprises a frame, a first grinding frame and a second grinding frame, wherein a plurality of grinding devices are uniformly arranged on the first grinding frame, each grinding device comprises a transmission shaft which is rotationally connected to the first grinding frame, a plurality of uniformly distributed circular saw blades are fixedly connected to the transmission shaft, the transmission shaft penetrates through the first grinding frame, one end, which penetrates through the first grinding frame, of the transmission shaft is fixedly connected with a first large belt pulley, the first grinding frame is fixedly connected with a first variable speed motor, an output shaft of the first variable speed motor is fixedly connected with a first small belt pulley, the first small belt pulley is connected with one of the first large belt pulleys through belt transmission, the adjacent first large belt pulleys are connected through belt transmission, one end of the first grinding frame is hinged to the frame, the other end of the first grinding frame is provided with a hinge mechanism, one end of the hinge mechanism is hinged to the first grinding frame, the other end of the hinging mechanism is hinged with the frame, the second crushing frame is positioned below the first crushing frame, one end of the second crushing frame is hinged on the frame, a first hinging rod is arranged between the other end of the second crushing frame and the frame, one end of the first hinging rod is hinged with the frame, the other end of the first hinging rod is hinged with the second crushing frame, a plurality of crushing devices are uniformly arranged on the second crushing frame, a transmission shaft is rotationally connected on the second crushing frame, a plurality of uniformly distributed circular saw blades are fixedly connected on the transmission shaft, the transmission shaft penetrates through the second crushing frame, one end of the transmission shaft penetrating through the second crushing frame is fixedly connected with a second large belt pulley, a third variable speed motor is fixedly connected on the frame, an output shaft of the third variable speed motor is fixedly connected with a second small belt pulley, the second small belt pulley is connected with one of the second large belt pulleys through belt transmission, and the adjacent second large belt pulleys are connected through belt transmission, fixedly connected with and transmission shaft vertically baffle between first crushing frame and the second crushing frame, second crushing frame below is provided with the reciprocating sieve, the one end of reciprocating sieve articulates in the frame, be provided with the second hinge bar between the other end of reciprocating sieve and the frame, the one end and the frame of second hinge bar are articulated, the other end and the reciprocating sieve of second hinge bar are articulated, reciprocating sieve bottom fixedly connected with head rod, the reciprocating sieve below is provided with drive assembly, drive assembly includes fourth variable speed motor and third hinge pole, fourth variable speed motor fixed connection is in the frame, fourth variable speed motor's output shaft fixedly connected with eccentric device, eccentric device passes through the third hinge pole and is connected with the head rod transmission.

Further, the hinge mechanism comprises a rack fixing groove, the bottom end of the rack fixing groove is hinged to the top end of the rack, a rack is connected to the rack fixing groove in a sliding mode, a second variable speed motor is fixedly connected to the rack fixing groove, an output shaft of the second variable speed motor is fixedly connected with a gear meshed with the rack, and the rack is hinged to the first crushing frame.

Further, drive assembly still includes the fourth articulated arm, and the storehouse is collected to the fixedly connected with in the second crushing frame bottom, collects storehouse bottom fixedly connected with second connecting rod, and eccentric device passes through the fourth articulated arm to be connected with the transmission of second connecting rod, has seted up on the collection storehouse and has arranged miscellaneous mouthful, arranges miscellaneous mouthful fixedly connected with of department and arranges the miscellaneous groove of row that mouthful communicates, arranges miscellaneous groove and extends to outside the machine.

Furthermore, the first crushing frame and the second crushing frame are obliquely arranged along the same direction, the inclination angle of the second crushing frame is slightly smaller than that of the first crushing frame, and the top end of the first crushing frame is close to the rack fixing groove.

Furthermore, the rotating directions of the circular saw blades on the first crushing frame and the second crushing frame are opposite, and further, the circular saw blades on the first crushing frame rotate clockwise, and the circular saw blades on the second crushing frame rotate anticlockwise.

Further, the reciprocating sieve inclines to set up, and reciprocating sieve incline direction is opposite with the incline direction of first crushing frame, has evenly seted up rectangular shape sieve mesh on the reciprocating sieve.

Furthermore, the number of the transmission shafts on the first crushing frame is the same as that of the transmission shafts on the second crushing frame, the number of the circular saw blades on each transmission shaft is the same, and the circular saw blades are provided with sharp barbs.

The utility model discloses the dependable performance, smash efficient. The fruit tree branches are fully crushed by the circular saw blades arranged on the transmission shafts of the first crushing frame and the second crushing frame; the fruit tree branch crusher adjusts the size of the feeding hole according to the entering amount of branches, so that a large number of branches can be treated in a centralized manner, and when the feeding amount is too large, the second variable speed motor drives the first crushing frame to move upwards along with the rack, so that the feeding hole is enlarged, the crushing space is enlarged, and blockage is reduced; when the feeding amount is too small, the second variable speed motor drives the first crushing frame to move downwards along with the rack, so that the feeding hole is reduced, the crushing space is reduced, branches are more fully contacted with the circular saw blade, and the crushing efficiency is improved; the rotating directions of the circular saw blades on the first crushing frame and the second crushing frame are opposite, so that branches entering the crushing device are crushed more fully; the eccentric device driven by the fourth variable speed motor drives the plurality of hinged rods to move simultaneously, so that the movement frequencies are consistent, the machine operates more stably, and the overall safety performance is improved; the first crushing frame and the second crushing frame are obliquely arranged, and the inclination angle of the second crushing frame is slightly smaller than that of the first crushing frame, so that the crushed branches are easier to convey backwards; the vibrating screen is obliquely arranged, so that the crushed branches are easier to discharge from the discharge hole.

Drawings

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

Fig. 2 is a schematic structural view of the rack fixing groove of the present invention.

FIG. 3 is a schematic view showing the connection relationship between the eccentric device and the first and second connecting rods.

Fig. 4 is a schematic view of the connection relationship between the first large pulleys.

Detailed Description

The following detailed description of embodiments of the invention is provided in conjunction with the accompanying drawings:

as shown in fig. 1, a dry and wet branch grinder for fruit trees comprises a frame 1, a first grinding frame 14 and a second grinding frame 17, wherein a plurality of grinding devices are uniformly arranged on the first grinding frame 14, each grinding device comprises a transmission shaft 22, the transmission shaft 22 is rotatably connected to the first grinding frame 14, a plurality of uniformly distributed circular saw blades 16 are fixedly connected to the transmission shaft 22, sharp barbs are arranged on the circular saw blades 16, the transmission shaft 22 penetrates through the first grinding frame 14, one end of the transmission shaft 22, which penetrates through the first grinding frame 14, is fixedly connected with a first big belt pulley 5, a first variable speed motor 15 is fixedly connected to the first grinding frame 14, as shown in fig. 4, the output shaft of the first variable speed motor 15 is fixedly connected with a first small belt pulley 6, the first small belt pulley 6 is in transmission connection with one of the first large belt pulleys 5 through a belt 18, and the adjacent first large belt pulleys 5 are in transmission connection through the belt 18.

As shown in fig. 1 and 2, a rack fixing groove 21 is hinged to the top end of the frame 1, the bottom end of the rack fixing groove 21 is hinged to the top end of the frame 1, a rack 20 is slidably connected to the rack fixing groove 21, a second variable speed motor 7 is fixedly connected to the rack fixing groove 21, a gear 19 meshed with the rack 20 is fixedly connected to an output shaft of the second variable speed motor 7, one end of the first crushing frame 14 is hinged to the frame 1, and the other end of the first crushing frame 14 is hinged to the rack 20.

As shown in fig. 1, the second crushing frame 17 is located below the first crushing frame 14, one end of the second crushing frame 17 is hinged on the frame 1, a first hinge rod 24 is arranged between the other end of the second crushing frame 17 and the frame 1, one end of the first hinge rod 24 is hinged with the frame 1, the other end of the first hinge rod 24 is hinged with the second crushing frame 17, a plurality of crushing devices are uniformly arranged on the second crushing frame 17, a transmission shaft 22 is rotatably connected on the second crushing frame 17, a plurality of uniformly distributed circular saw blades 16 are fixedly connected on the transmission shaft 22, the transmission shaft 22 passes through the second crushing frame 17, one end of the transmission shaft 22 passing through the second crushing frame 17 is fixedly connected with a second large belt pulley 27, the frame 1 is fixedly connected with a third variable speed motor 3, an output shaft of the third variable speed motor 3 is fixedly connected with a second small belt pulley 26, the second small belt pulley 26 is in transmission connection with one of the second large belt pulleys 27 through a belt 18, the adjacent second large belt pulley 27 is in transmission connection through a belt 18, a baffle 13 perpendicular to the transmission shaft 22 is fixedly connected between the first crushing frame 14 and the second crushing frame 17, and the baffle 13 prevents fruit tree branches entering the branch crusher from falling from the side. The utility model discloses a screen crusher, including frame 1, second smash frame 17, second articulated rod 25, drive assembly, third articulated rod 9, fourth articulated rod 11, fourth variable speed motor 8 fixed connection is in frame 1, as shown in fig. 3, the output shaft fixed connection of fourth variable speed motor 8 has eccentric device 23, eccentric device 23 is connected with first articulated rod 10 through third articulated rod 9 in a transmission manner. The branch after smashing gets into reciprocating sieve 2 because the effect of inertia and vibrations, and reciprocating sieve 2 slope sets up, and the 2 incline direction of reciprocating sieve is opposite with the incline direction of first crushing frame 14, has evenly seted up rectangular shape sieve mesh on reciprocating sieve 2, and the impurity in the branch after smashing is further sieved to rectangular shape sieve mesh, and the branch after the screening is discharged from the discharge gate on reciprocating sieve 2. Storehouse 4 is collected to fixedly connected with in the second crushing frame 17 bottom, collects storehouse 4 bottom fixedly connected with second connecting rod 12, and eccentric device 23 is connected with the transmission of second connecting rod 12 through fourth articulated arm 11, has seted up row's miscellaneous mouth on collecting storehouse 4, arranges miscellaneous mouthful fixedly connected with of department and row miscellaneous groove of mouthful intercommunication of row, arranges miscellaneous groove and extends to outside the machine. The collecting bin 4 collects the impurities such as soil, leaves and the like falling from the gap of the circular saw blade 16 on the second crushing frame 17 in the crushing process, and the impurities are discharged out of the machine from the impurity discharging groove through the impurity discharging port.

As shown in fig. 1, the first crushing rack 14 and the second crushing rack 17 are obliquely arranged in the same direction, the inclination angle of the second crushing rack 17 is slightly smaller than that of the first crushing rack 14, and the top end of the first crushing rack 14 is close to the rack fixing groove 21. The first crushing rack 14 and the second crushing rack 17 have opposite rotation directions of the circular saw blade 16, wherein the circular saw blade 16 on the first crushing rack 14 rotates clockwise, and the circular saw blade 16 on the second crushing rack 17 rotates counterclockwise. The number of the transmission shafts 22 on the first crushing frame 14 is the same as that of the transmission shafts 22 on the second crushing frame 17, and the number of the circular saw blades 16 on each transmission shaft 22 is the same.

When the fruit tree branch crushing machine works, firstly, the first variable speed motor 15, the third variable speed motor 3 and the fourth variable speed motor 8 are simultaneously started, fruit tree branches to be crushed are conveyed into the branch crusher through the conveying device, under the driving of the first variable speed motor 15, the first small belt pulley 6 on the first crushing frame 14 rotates to drive the first large belt pulley 5 to rotate, the first large belt pulley 5 drives the adjacent first large belt pulley 5 to rotate, finally, the circular saw blade 16 on the transmission shaft 22 is driven to rotate, under the driving of the third variable speed motor 8, the second small belt pulley 26 on the second crushing frame 17 rotates to drive the second large belt pulley 27 to rotate, the second large belt pulley 27 drives the adjacent second large belt pulley 27 to rotate, finally, the circular saw blade 16 on the transmission shaft 22 is driven to rotate, the circular saw blade 16 on the first crushing frame 14 rotates clockwise, the circular saw blade 16 on the second crushing frame 17 rotates anticlockwise, fully smashing the branch material of input, the eccentric device 23 of fourth variable speed motor 8 drive on it simultaneously, and eccentric device 23 drives fourth articulated rod 11, and then drives second connecting rod 12 and the reciprocal vibrations of collecting bin 4, carries the branch after smashing backward, and impurity collecting bin 4 will smash simultaneously and the impurity that the vibrations process produced is collected. The eccentric device 23 driven by the fourth variable speed motor 8 drives the third hinge rod 9, and further drives the first connecting rod 10 and the vibrating screen 2 to vibrate in a reciprocating manner, so that the crushed branches are discharged out of the machine from the discharge hole, and screening is completed. According to the size of the feeding amount, the second variable speed motor 7 is started, the second variable speed motor 7 is a forward and reverse rotating motor, when the second variable speed motor 7 rotates forward, the rack 20 moves upwards, the feeding hole is enlarged, and when the second variable speed motor 7 rotates reversely, the rack 20 moves downwards, and the feeding hole is reduced. When the feeding amount is too large, the second variable speed motor 7 drives the first crushing frame 14 to move upwards along with the rack 20, so that the feeding hole is enlarged, the crushing space is enlarged, and the blockage is reduced; when the feeding amount is too small, the second variable speed motor 7 drives the first crushing frame 14 to move downwards along with the rack 20, so that the feeding hole is reduced, the crushing space is reduced, branches are more fully contacted with the circular saw blade 16, and the crushing efficiency is improved.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model. The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a dry wet branch rubbing crusher of fruit tree which characterized in that: comprises a frame, a first crushing frame and a second crushing frame, wherein a plurality of crushing devices are uniformly arranged on the first crushing frame, each crushing device comprises a transmission shaft which is rotationally connected to the first crushing frame, a plurality of uniformly distributed circular saw blades are fixedly connected to the transmission shafts, the transmission shafts penetrate through the first crushing frame, one end of each transmission shaft penetrating through the first crushing frame is fixedly connected with a first large belt pulley, the first crushing frame is fixedly connected with a first variable speed motor, an output shaft of the first variable speed motor is fixedly connected with a first small belt pulley, the first small belt pulley is connected with one of the first large belt pulleys through belt transmission, adjacent first large belt pulleys are connected through belt transmission, one end of the first crushing frame is hinged to the frame, the other end of the first crushing frame is provided with a hinge mechanism, one end of the hinge mechanism is hinged to the first crushing frame, and the other end of the hinge mechanism is hinged to the frame, the second crushing frame is positioned below the first crushing frame, one end of the second crushing frame is hinged on the frame, a first hinge rod is arranged between the other end of the second crushing frame and the frame, one end of the first hinge rod is hinged with the frame, the other end of the first hinge rod is hinged with the second crushing frame, a plurality of crushing devices are uniformly arranged on the second crushing frame, a transmission shaft is rotationally connected on the second crushing frame, a plurality of uniformly distributed circular saw blades are fixedly connected on the transmission shaft, the transmission shaft penetrates through the second crushing frame, one end of the transmission shaft penetrating through the second crushing frame is fixedly connected with a second large belt pulley, a third variable speed motor is fixedly connected on the frame, an output shaft of the third variable speed motor is fixedly connected with a second small belt pulley, the second small belt pulley is connected with one of the second large belt pulleys through belt transmission, and the adjacent second large belt pulleys are connected through belt transmission, fixedly connected with and transmission shaft vertically baffle between first crushing frame and the second crushing frame, second crushing frame below is provided with the reciprocating sieve, the one end of reciprocating sieve articulates in the frame, be provided with the second hinge bar between the other end of reciprocating sieve and the frame, the one end and the frame of second hinge bar are articulated, the other end and the reciprocating sieve of second hinge bar are articulated, reciprocating sieve bottom fixedly connected with head rod, the reciprocating sieve below is provided with drive assembly, drive assembly includes fourth variable speed motor and third hinge pole, fourth variable speed motor fixed connection is in the frame, fourth variable speed motor's output shaft fixedly connected with eccentric device, eccentric device passes through the third hinge pole and is connected with the head rod transmission.

2. The dry and wet fruit tree branch grinder according to claim 1, wherein: the hinge mechanism comprises a rack fixing groove, the bottom end of the rack fixing groove is hinged to the top end of the rack, a rack is connected to the rack fixing groove in a sliding mode, a second variable speed motor is fixedly connected to the rack fixing groove, an output shaft of the second variable speed motor is fixedly connected with a gear meshed with the rack, and the rack is hinged to the first crushing frame.

3. The dry and wet fruit tree branch grinder according to claim 1, wherein: the driving assembly further comprises a fourth hinge rod, the bottom of the second crushing frame is fixedly connected with a collecting bin, the bottom of the collecting bin is fixedly connected with a second connecting rod, the eccentric device is in transmission connection with the second connecting rod through the fourth hinge rod, an impurity discharging port is formed in the collecting bin, the impurity discharging port is fixedly connected with an impurity discharging groove communicated with the impurity discharging port, and the impurity discharging groove extends to the outside of the machine.

4. The dry and wet fruit tree branch grinder according to claim 2, wherein: the first crushing frame and the second crushing frame are obliquely arranged along the same direction, the inclination angle of the second crushing frame is slightly smaller than that of the first crushing frame, and the top end of the first crushing frame is close to the rack fixing groove.

5. The dry and wet fruit tree branch grinder according to claim 1, wherein: the rotating directions of the circular saw blades on the first crushing frame and the second crushing frame are opposite.

6. The dry and wet fruit tree branch grinder according to claim 5, wherein: the circular saw blade on the first crushing frame rotates clockwise, and the circular saw blade on the second crushing frame rotates anticlockwise.

7. The dry and wet fruit tree branch grinder according to claim 1, wherein: the vibrating screen is obliquely arranged, and the oblique direction of the vibrating screen is opposite to that of the first crushing frame.

8. The dry and wet fruit tree branch grinder according to claim 1, wherein: the vibrating screen is evenly provided with strip-shaped screen holes.

9. The dry and wet fruit tree branch grinder according to claim 1, wherein: the number of the transmission shafts on the first crushing frame is the same as that of the transmission shafts on the second crushing frame, and the number of the circular saw blades on each transmission shaft is the same.

10. The dry and wet fruit tree branch grinder according to claim 1, wherein: the circular saw blade is provided with sharp barbs.

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