CN210226211U - Four-ridge belt peanut harvester - Google Patents

Abstract

The utility model discloses a four-ridge belt peanut harvester, which belongs to the technical field of agricultural machinery and comprises a walking frame, a front clamping and conveying device, a rear clamping and conveying device and a power output device, wherein the front clamping and conveying device, the rear clamping and conveying device and the power output device are connected on the walking frame; the utility model discloses utilize two output shafts of power take off lower extreme to have power transmission for anterior clamp-up conveyor, first anterior clamp-up conveyor is last second conveyer belt and the cooperation of third conveyer belt press from both sides the peanut seedling tight fast and to convey to between sixth conveyer belt and the seventh conveyer belt, and then extract the peanut seedling and convey to the rear portion one row, the utility model discloses the later stage maintenance of being convenient for is changed, reaps four ridges peanut simultaneously, has improved the efficiency of production.

Description

Four-ridge belt peanut harvester

Technical Field

The utility model relates to the technical field of agricultural machinery, in particular to four-ridge belt peanut harvester.

Background

In the prior art, a two-ridge peanut raising machine consists of a rack, a break shovel, a front clamping and conveying device and a rear conveying and laying device, the peanut raising machine is connected with the rear part of a four-wheel tractor through the rack, and power of the peanut raising machine is taken from a diesel engine of the four-wheel tractor.

Disclosure of Invention

The utility model aims at solving the problems that the peanut seedlings of the existing peanut harvester are often pinched off and can not be conveyed to the rear part to be regularly laid and the harvesting efficiency is low, and providing a four-ridge belt peanut harvester which can overcome the defects.

A four-ridge belt peanut harvester comprises a walking frame, a front clamping and conveying device, a rear clamping and conveying device and a power output device, wherein the front clamping and conveying device, the rear clamping and conveying device and the power output device are connected to the walking frame;

the front clamping and conveying device comprises a first front clamping and conveying device, a second front clamping and conveying device, a third front clamping and conveying device and a fourth front clamping and conveying device, and the first front clamping and conveying device, the second front clamping and conveying device, the third front clamping and conveying device and the fourth front clamping and conveying device are respectively connected to the walking frame;

the first front clamping and conveying device comprises a first transmission shaft, a second transmission shaft, a first adjusting support, a second adjusting support, a first conveying belt, a second conveying belt and a third conveying belt, wherein the first transmission shaft and the second transmission shaft are connected to the walking rack through matching of a bearing and a bearing seat, the first adjusting support and the second adjusting support are connected to the front end of the walking rack, the power output device is connected with the first transmission shaft through the first conveying belt, the second transmission shaft is connected with the second adjusting support through the second conveying belt, and the first transmission shaft is connected with the first adjusting support through the third conveying belt;

the upper end and the lower end of the first transmission shaft are fixedly connected with a first belt wheel and a second belt wheel, and the middle part of the first transmission shaft is connected with a first gear;

the upper end of the second transmission shaft is fixedly connected with a third belt wheel and a second gear, and the lower end of the second transmission shaft is fixedly connected with a fourth belt wheel and a fifth belt wheel;

the lower end of the first adjusting bracket is connected with a sixth belt pulley through a bearing;

the lower end of the second adjusting bracket is connected with a sixth belt pulley through a bearing;

the second front clamping and conveying device comprises a third transmission shaft, a fourth transmission shaft, a third adjusting bracket, a fourth conveyor belt and a fifth conveyor belt, the third transmission shaft and the fourth transmission shaft are connected to the walking frame through matching of a bearing and a bearing seat, the third adjusting bracket and the fourth adjusting bracket are connected to the front end of the walking frame, the third transmission shaft is connected with the third adjusting bracket through the fourth conveyor belt, and the fourth transmission shaft is connected with the fourth adjusting bracket through the fifth conveyor belt;

the upper end and the lower end of the third transmission shaft are respectively connected with a third gear and a seventh belt wheel;

the upper end of the fourth transmission shaft is fixedly connected with a fourth gear, and the lower end of the fourth transmission shaft is fixedly connected with an eighth belt pulley and a ninth belt pulley;

the lower end of the third adjusting bracket is connected with a sixth belt pulley through a bearing;

the lower end of the fourth adjusting bracket is connected with a sixth belt pulley through a bearing;

the second front clamping and conveying device has the same structure as the fourth front clamping and conveying device;

the first front clamping and conveying device and the third front clamping and conveying device have the same structure;

the first gear is meshed with the second gear and the third gear, and the third gear is meshed with the fourth gear.

The rear clamping and conveying device comprises a first rear clamping and conveying device and a second rear clamping and conveying device, and the first rear clamping and conveying device and the second rear clamping and conveying device are respectively connected to the rear end of the walking frame;

the first rear clamping and conveying device comprises a fifth adjusting support, a sixth conveying belt and a seventh conveying belt, the fifth adjusting support and the sixth adjusting support are respectively connected to the rear end of the walking frame, an eighth belt wheel of the fourth transmission shaft is connected with the fifth adjusting support through the sixth conveying belt, and a fourth belt wheel at the lower end of the second transmission shaft is connected with the sixth adjusting support through the seventh conveying belt;

the lower end of the fifth adjusting bracket is connected with a sixth belt pulley through a bearing;

the upper end and the lower end of the sixth adjusting support are respectively connected with a tenth belt wheel and a sixth belt wheel through bearings, and an eighth belt is connected between the third belt wheel and the tenth belt wheel.

Preferably, a plurality of adjustable tensioning wheels are arranged on the walking machine frame and used for adjusting the tightness of the conveying belt.

Preferably, the first adjusting support, the second adjusting support, the third adjusting support, the fourth adjusting support, the fifth adjusting support, the sixth adjusting support and the walking frame are connected in an inserting mode and fastened through bolts, and the tightness of the tensioning wheel can be adjusted by adopting the mode.

Preferably, the device further comprises a laying device, the laying device is connected to the rear end of the walking frame, the laying device comprises a laying support, a second laying rotating shaft, a first laying belt, a laying turntable, a barrier strip, a first laying rotating shaft, a laying driving wheel and a second laying belt, the laying support is connected to the rear end of the walking frame, the first laying rotating shaft and the second laying rotating shaft are respectively connected to the laying support through matching of a bearing and a bearing seat, the laying driving wheel is fixedly connected to a fifth adjusting support, the laying driving wheel is connected with a laying guide wheel on the first laying rotating shaft through the second laying belt, the first laying rotating shaft and the second laying rotating shaft are connected through the first laying belt, and the barrier strip is fixedly connected to the walking frame;

the upper end and the lower end of the first laying rotating shaft are fixedly connected with laying guide wheels respectively;

the upper end and the lower end of the second laying rotating shaft are fixedly connected with a laying guide wheel and a laying turntable respectively.

The utility model has the advantages that:

the utility model discloses a conveyer belt has pulled out the peanut seedling, presss from both sides tightly effectually, can not break the seedling, can walk simultaneously and be provided with the take-up pulley in the frame, can adjust the clamp force between two conveyer belts according to the different conditions, each mechanism is for dismantling adjustable mechanism, and the later stage maintenance of being convenient for is changed, reaps four ridges peanuts simultaneously, has improved the efficiency of production.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a perspective view of the present invention.

Fig. 3 is a perspective view of the present invention.

Fig. 4 is a perspective view of the present invention.

Fig. 5 is a perspective view of the present invention.

Detailed Description

Referring to fig. 1 to 5, a four-ridge belt peanut harvester comprises a walking frame 1, a front clamping and conveying device 2, a rear clamping and conveying device 3 and a power output device 4, wherein the front clamping and conveying device 2, the rear clamping and conveying device 3 and the power output device 4 are connected to the walking frame 1, and the power output device 4 is connected with the front clamping and conveying device 2 and the rear clamping and conveying device 3;

the front clamping and conveying device 2 comprises a first front clamping and conveying device 21, a second front clamping and conveying device 20, a third front clamping and conveying device 22 and a fourth front clamping and conveying device 23, and the first front clamping and conveying device 21, the second front clamping and conveying device 20, the third front clamping and conveying device 22 and the fourth front clamping and conveying device 23 are respectively connected to the walking frame 1;

the first front clamping and conveying device 21 comprises a first transmission shaft 210, a second transmission shaft 211, a first adjusting bracket 212, a second adjusting bracket 213, a first transmission belt 214, a second transmission belt 215 and a third transmission belt 216, wherein the first transmission shaft 210 and the second transmission shaft 211 are connected to the walking frame 1 through matching of bearings and bearing seats, the first adjusting bracket 212 and the second adjusting bracket 213 are connected to the front end of the walking frame 1, the power output device 4 is connected with the first transmission shaft 210 through the first transmission belt 214, the second transmission shaft 211 is connected with the second adjusting bracket 213 through the second transmission belt 215, and the first transmission shaft 210 is connected with the first adjusting bracket 212 through the third transmission belt 216;

the upper end and the lower end of the first transmission shaft 210 are fixedly connected with a first belt wheel 2100 and a second belt wheel 2101, and the middle part of the first transmission shaft 210 is connected with a first gear 2102;

the upper end of the second transmission shaft 211 is fixedly connected with a third belt wheel 2110 and a second gear 2111, and the lower end of the second transmission shaft 211 is fixedly connected with a fourth belt wheel 2112 and a fifth belt wheel 2113;

the lower end of the first adjusting bracket 212 is connected with a sixth belt wheel 2120 through a bearing;

the lower end of the second adjusting bracket 213 is connected with a sixth belt wheel 2120 through a bearing;

the second front clamping and conveying device 20 comprises a third transmission shaft 200, a fourth transmission shaft 201, a third adjusting bracket 202, a fourth adjusting bracket 203, a fourth conveyor belt 204 and a fifth conveyor belt 205, the third transmission shaft 200 and the fourth transmission shaft 201 are connected to the walking frame 1 through matching of bearings and bearing seats, the third adjusting bracket 202 and the fourth adjusting bracket 203 are connected to the front end of the walking frame 1, the third transmission shaft 200 is connected with the third adjusting bracket 202 through the fourth conveyor belt 204, and the fourth transmission shaft 201 is connected with the fourth adjusting bracket 203 through the fifth conveyor belt 205;

the upper end and the lower end of the third transmission shaft 200 are respectively connected with a third gear 2000 and a seventh belt wheel 2001;

the upper end of the fourth transmission shaft 201 is fixedly connected with a fourth gear 2010, and the lower end of the fourth transmission shaft 201 is fixedly connected with an eighth belt pulley 2012 and a ninth belt pulley 2011;

the lower end of the third adjusting bracket 202 is connected with a sixth belt wheel 2120 through a bearing;

the lower end of the fourth adjusting bracket 203 is connected with a sixth belt wheel 2120 through a bearing;

the second front gripping and conveying device 20 and the fourth front gripping and conveying device 23 have the same structure;

the first front clamp conveyor 21 and the third front clamp conveyor 22 have the same structure;

first gear 2102 meshes with second gear 2111 and third gear 2000, and third gear 2000 meshes with fourth gear 2010.

The rear clamping and conveying device 3 comprises a first rear clamping and conveying device 30 and a second rear clamping and conveying device 31, and the first rear clamping and conveying device 30 and the second rear clamping and conveying device 31 are respectively connected to the rear end of the walking frame 1;

the first rear gripping and conveying device 30 comprises a fifth adjusting bracket 300, a sixth adjusting bracket 301, a sixth conveying belt 302 and a seventh conveying belt 303, the fifth adjusting bracket 300 and the sixth adjusting bracket 301 are respectively connected to the rear end of the walking frame 1, an eighth belt pulley 2012 of the fourth transmission shaft 201 is connected with the fifth adjusting bracket 300 through the sixth conveying belt 302, and a fourth belt pulley 2112 at the lower end of the second transmission shaft 211 is connected with the sixth adjusting bracket 301 through the seventh conveying belt 303;

the lower end of the fifth adjusting bracket 300 is connected with a sixth belt wheel 2120 through a bearing;

the upper and lower ends of the sixth adjusting bracket 301 are respectively connected with a tenth belt pulley 3010 and a sixth belt pulley 2120 through bearings, and an eighth belt 3011 is connected between the third belt pulley 2110 and the tenth belt pulley 3010.

Preferably, a plurality of adjustable tension pulleys 6 are arranged on the walking frame 1 to adjust the tightness of the conveyor belt.

Preferably, the first adjusting bracket 212, the second adjusting bracket 213, the third adjusting bracket 202, the fourth adjusting bracket 203, the fifth adjusting bracket 300 and the sixth adjusting bracket 301 are connected with the walking frame 1 in an inserting manner and fastened through bolts, and the tightness of the tensioning wheel 6 can be adjusted by adopting the manner.

Preferably, the multifunctional walking machine further comprises a laying device 5, the laying device 5 is connected to the rear end of the walking machine frame 1, the laying device 5 comprises a laying support 50, a second laying rotating shaft 51, a first laying belt 52, a laying turntable 53, a barrier strip 54, a first laying rotating shaft 55, a laying driving wheel 56 and a second laying belt 57, the laying support 50 is connected to the rear end of the walking machine frame 1, the first laying rotating shaft 55 and the second laying rotating shaft 51 are respectively connected to the laying support 50 through matching of bearings and bearing seats, the laying driving wheel 56 is fixedly connected to the fifth adjusting support 300, the laying driving wheel 56 is connected to a laying guide wheel 550 on the first laying rotating shaft 55 through the second laying belt 57, the first laying rotating shaft 55 and the second laying rotating shaft 51 are connected through the first laying belt 52, and the barrier strip 54 is fixedly connected to the walking machine frame 1;

the upper end and the lower end of the first laying rotating shaft 55 are fixedly connected with laying guide wheels 550 respectively;

the upper end and the lower end of the second laying rotating shaft 51 are respectively fixedly connected with a laying guide wheel 550 and a laying turntable 53.

The utility model discloses a working process and theory of use:

referring to fig. 1 to 5, firstly, the power output end of the tractor is connected with the power output device 4, two output shafts at the lower end of the power output device 4 transmit power to the front clamping and conveying device 2, the second conveying belt 215 and the third conveying belt 216 on the first front clamping and conveying device 21 cooperate to clamp peanut seedlings and quickly convey the peanut seedlings between the sixth conveying belt 302 and the seventh conveying belt 303, so as to pull out the peanut seedlings and convey the peanut seedlings to a rear row, the second front clamping and conveying device 20, the third front clamping and conveying device 22 and the fourth front clamping and conveying device 23 have the same conveying principle, the laying device 5 can block the peanut seedlings of the rear clamping and conveying device 3, the laying turntable 53 can reduce the throwing-out force of the peanut seedlings by the rear clamping and conveying device 3, and the blocking strips 54 prevent the peanut seedlings from winding inside the laying device 5, the first rear gripping conveyor 30 and the second rear gripping conveyor 31 are shown in use as being close to the center, but are shown slightly separated for clarity of illustration.

Claims (4)

1. A four-ridge belt peanut harvester is characterized in that: the power output device (4) is connected with the front clamping and conveying device (2) and the rear clamping and conveying device (3);

the front clamping and conveying device (2) comprises a first front clamping and conveying device (21), a second front clamping and conveying device (20), a third front clamping and conveying device (22) and a fourth front clamping and conveying device (23), and the first front clamping and conveying device (21), the second front clamping and conveying device (20), the third front clamping and conveying device (22) and the fourth front clamping and conveying device (23) are respectively connected to the walking rack (1);

the first front clamping and conveying device (21) comprises a first transmission shaft (210), a second transmission shaft (211), a first adjusting bracket (212), a second adjusting bracket (213), a first conveying belt (214), a second conveying belt (215) and a third conveying belt (216), the first transmission shaft (210) and the second transmission shaft (211) are connected to the walking frame (1) through matching of bearings and bearing seats, the first adjusting bracket (212) and the second adjusting bracket (213) are connected to the front end of the walking frame (1), the power output device (4) is connected with the first transmission shaft (210) through the first conveying belt (214), the second transmission shaft (211) is connected with the second adjusting bracket (213) through the second conveying belt (215), and the first transmission shaft (210) is connected with the first adjusting bracket (212) through the third conveying belt (216);

the upper end and the lower end of the first transmission shaft (210) are fixedly connected with a first belt wheel (2100) and a second belt wheel (2101), and the middle part of the first transmission shaft (210) is connected with a first gear (2102);

the upper end of the second transmission shaft (211) is fixedly connected with a third belt wheel (2110) and a second gear (2111), and the lower end of the second transmission shaft (211) is fixedly connected with a fourth belt wheel (2122) and a fifth belt wheel (2113);

the lower end of the first adjusting bracket (212) is connected with a sixth belt wheel (2120) through a bearing;

the lower end of the second adjusting bracket (213) is connected with a sixth belt wheel (2120) through a bearing;

the second front clamping and conveying device (20) comprises a third transmission shaft (200), a fourth transmission shaft (201), a third adjusting bracket (202), a fourth adjusting bracket (203), a fourth conveyor belt (204) and a fifth conveyor belt (205), the third transmission shaft (200) and the fourth transmission shaft (201) are connected to the walking frame (1) through matching of a bearing and a bearing seat, the third adjusting bracket (202) and the fourth adjusting bracket (203) are connected to the front end of the walking frame (1), the third transmission shaft (200) is connected with the third adjusting bracket (202) through the fourth conveyor belt (204), and the fourth transmission shaft (201) is connected with the fourth adjusting bracket (203) through the fifth conveyor belt (205);

the upper end and the lower end of the third transmission shaft (200) are respectively connected with a third gear (2000) and a seventh belt wheel (2001);

the upper end of the fourth transmission shaft (201) is fixedly connected with a fourth gear (2010), and the lower end of the fourth transmission shaft (201) is fixedly connected with an eighth belt wheel (2012) and a ninth belt wheel (2011);

the lower end of the third adjusting bracket (202) is connected with a sixth belt wheel (2120) through a bearing;

the lower end of the fourth adjusting bracket (203) is connected with a sixth belt wheel (2120) through a bearing;

the second front clamping and conveying device (20) and the fourth front clamping and conveying device (23) have the same structure;

the first front clamping and conveying device (21) and the third front clamping and conveying device (22) have the same structure;

the first gear (2102) is meshed with the second gear (2111) and the third gear (2000), and the third gear (2000) is meshed with the fourth gear (2010);

the rear clamping and conveying device (3) comprises a first rear clamping and conveying device (30) and a second rear clamping and conveying device (31), and the first rear clamping and conveying device (30) and the second rear clamping and conveying device (31) are respectively connected to the rear end of the walking rack (1);

the first rear clamping and conveying device (30) comprises a fifth adjusting bracket (300), a sixth adjusting bracket (301), a sixth conveying belt (302) and a seventh conveying belt (303), the fifth adjusting bracket (300) and the sixth adjusting bracket (301) are respectively connected to the rear end of the walking frame (1), an eighth belt pulley (2012) of the fourth transmission shaft (201) is connected with the fifth adjusting bracket (300) through the sixth conveying belt (302), and a fourth belt pulley (2122) at the lower end of the second transmission shaft (211) is connected with the sixth adjusting bracket (301) through the seventh conveying belt (303);

the lower end of the fifth adjusting bracket (300) is connected with a sixth belt wheel (2120) through a bearing;

the upper end and the lower end of the sixth adjusting bracket (301) are respectively connected with a tenth belt wheel (3010) and a sixth belt wheel (2120) through bearings, and an eighth belt 3011 is connected between the third belt wheel (2110) and the tenth belt wheel (3010).

2. The four-ridge belt peanut harvester of claim 1, wherein: the walking machine frame (1) is provided with a plurality of adjustable tension pulleys (6).

3. The four-ridge belt peanut harvester of claim 1, wherein: the first adjusting bracket (212), the second adjusting bracket (213), the third adjusting bracket (202), the fourth adjusting bracket (203), the fifth adjusting bracket (300) and the sixth adjusting bracket (301) are connected with the walking frame (1) in an inserting mode and fastened through bolts.

4. The four-ridge belt peanut harvester of claim 1, wherein: the automatic paving machine is characterized by further comprising a paving device (5), the paving device (5) is connected to the rear end of the walking frame (1), the paving device (5) comprises a paving support (50), a second paving rotating shaft (51), a first paving belt (52), a paving turntable (53), a barrier strip (54), a first paving rotating shaft (55), a paving driving wheel (56) and a second paving belt (57), the paving support (50) is connected to the rear end of the walking frame (1), the first paving rotating shaft (55) and the second paving rotating shaft (51) are respectively connected to the paving support (50) through matching of bearings and bearing seats, the paving driving wheel (56) is fixedly connected to a fifth adjusting support (300), the paving driving wheel (56) is connected with a guide wheel (550) on the first paving rotating shaft (55) through the second paving belt (57), the first paving rotating shaft (55) and the second paving rotating shaft (51) are connected through the first paving belt (52), the barrier strip (54) is fixedly connected to the walking frame (1);

the upper end and the lower end of the first laying rotating shaft (55) are fixedly connected with laying guide wheels (550) respectively;

the upper end and the lower end of the second laying rotating shaft (51) are fixedly connected with a laying guide wheel (550) and a laying turntable (53) respectively.

Images