CN220986678U - Polygonatum sibiricum harvesting device - Google Patents

Abstract

The utility model provides a sealwort harvesting device which comprises a power mechanism, a vibration harvesting mechanism, a transmission mechanism, a traveling mechanism, a locking fixed rod and a telescopic grab bar, wherein the power mechanism is arranged on the vibrating harvesting mechanism; the vibration harvesting mechanism is arranged at the forefront of the device relative to the advancing direction of the device, the power mechanism is arranged at the rear of the vibration harvesting mechanism, the transmission mechanism is arranged at the rear of the power mechanism, and the travelling mechanism is arranged at the rear of the transmission mechanism; for the vertical direction, flexible grab rail sets up in the device top, and locking dead lever sets up in flexible grab rail lower extreme, and drive mechanism sets up in locking dead lever below. The device loosens soil under the root hair of the rhizoma polygonati through the vibration harvesting mechanism, integrally pushes out the rhizoma polygonati from the loosened soil, and shakes most of the soil on the rhizoma polygonati through the vibration harvesting mechanism. The utility model solves the problems of high harvesting damage rate, soil mixing with root hair and the like of the sealwort, and the telescopic grab rail at the tail part of the device has an adjustable function and can be suitable for harvesting sealwort under different standing conditions.

Description

Polygonatum sibiricum harvesting device

Technical Field

The utility model relates to the technical field of agricultural machinery, in particular to a sealwort harvesting device.

Background

Rhizoma Polygonati has its rhizome traversing, nearly cylindrical, enlarged nodule, she Lunsheng, no stalk and numerous root hairs, and is perennial herb, which has been regarded as a bulk drug for both medicine and food. Has effects of clearing heat and detoxicating, nourishing yin and tonifying kidney, invigorating qi and nourishing blood, and enhancing immunity. In recent years, along with the continuous deep research on the application of the rhizoma polygonati, the application of the rhizoma polygonati is greatly widened, and the rhizoma polygonati can be processed into foods such as rhizoma polygonati preserved fruit, rhizoma polygonati beverage, rhizoma polygonati health-care products, rhizoma polygonati skin-care products, pig feed additives and the like besides medicinal use, so that the application of the rhizoma polygonati is more and more wide.

However, the harvesting of the sealwort at present mainly depends on manual lifting, so that the harvesting efficiency is low, the labor cost is high, and the difficulty and the danger of manual harvesting are high due to the fact that the root whisker of the sealwort is high in toughness and severe in growth environment. At present, no suitable sealwort harvesting machinery equipment exists in the market, mainly because sealwort grows under mountain forests, and no suitable mountain sealwort harvesting machinery exists at present; and due to the growth characteristics of the rhizoma polygonati, the rhizoma polygonati is easy to damage during picking, and is easy to mildew and rot, so that the quality of a rhizoma polygonati finished product is affected, and the loss of active ingredients of the rhizoma polygonati is also caused.

Therefore, there is an urgent need for a high-efficiency and low-loss sealwort harvesting device to solve the above-mentioned problems.

Disclosure of utility model

The utility model aims to provide a sealwort harvesting device aiming at the current situations of high sealwort harvesting breakage rate, lack of sealwort harvesting machinery and the like so as to realize efficient and low-loss harvesting of sealwort.

In order to achieve the above purpose, the utility model adopts the following specific technical scheme: the sealwort harvesting device is characterized by comprising a vibration harvesting mechanism 1, a power mechanism 2, a transmission mechanism 3, a traveling mechanism 4, a telescopic grab bar 5 and a locking fixed bar 6; the vibration harvesting mechanism 1 is arranged at the forefront of the device relative to the advancing direction of the device, the power mechanism 2 is arranged at the rear of the vibration harvesting mechanism 1, the transmission mechanism 3 is arranged at the rear of the power supply device 2, and the travelling mechanism 4 is arranged at the rear of the transmission mechanism 3; for the vertical direction, telescopic grab bar 5 sets up in the upper end of device, and locking dead lever 6 sets up in telescopic grab bar 5's lower extreme, and drive mechanism 3 sets up in locking dead lever 6 below.

The vibration harvesting mechanism 1 comprises a fixed supporting frame 101, a sliding block moving groove I102, a scarification blade 103, a reciprocating rod 104, a sliding block I105, an eccentric wheel 106, a transmission guide rail 107, a sliding block moving groove II 108, a sliding block II 109 and an eccentric wheel rotating shaft 110.

The power mechanism 2 comprises a power box 201, an auxiliary wheel 202, a connecting shaft 203, a protective shell I-204, a small belt pulley 205, a transmission belt 206, a motor 207, a protective shell II-208 and a large belt pulley 209.

The transmission mechanism 3 comprises a transmission case 301, a gear I302, a gear II 303, a gear III 304, a transmission shaft I305, a chain wheel I306, a transmission shaft II 307, a chain 308, a transmission shaft III 309, a chain wheel II 310, a gear IV 311 and a gear V312.

The running gear 4 comprises a running wheel 401, a running wheel axle 402 and a fastening base 403.

The telescopic grab bar 5 comprises a slide bar 501, a telescopic bar 502 and a handrail 503.

The locking fixing rod 6 comprises a connecting rod 601, a connecting hole I602, a locking base 603, a locking groove 604, a fixing rotating shaft 605, a pressing cam 606 and a locking plate 607.

Further, the bottom of the vibration harvesting mechanism 1 is provided with a scarification blade 103, the lower end of a reciprocating rod 104 is connected with the scarification blade 103, the upper and lower reciprocating rods 104 are installed on a fixed supporting frame 101, an eccentric wheel rotating shaft 110 is connected to the fixed supporting frame 101, the eccentric wheel rotating shaft 110 is connected with an eccentric wheel 106, a sliding block I105 is connected with the eccentric wheel 106, one end of a transmission guide rail 107 is hinged with the fixed supporting frame 101, the other end of the transmission guide rail 107 is hinged with a sliding block II 109, a sliding block moving groove I102 is formed in the middle of the transmission guide rail 107, the sliding block I105 can reciprocate in the sliding block moving groove I102, a sliding block moving groove II 108 is fixedly installed in the middle of the reciprocating rod 104, and the sliding block II 109 is installed in the sliding block moving groove II 108.

Further, a protective housing i 204 is mounted at the front end of the power mechanism 2, the protective housing i 204 is connected with the connecting shaft 203 through a rolling bearing, the two ends of the connecting shaft 203 are connected with the left auxiliary wheel 202 and the right auxiliary wheel 202, a motor 207 is arranged in the power box 201, the motor 207 drives a small belt wheel 205 to move, the small belt wheel 205 drives a large belt wheel 209 to move through a transmission belt 206, the large belt wheel 209 is connected with the eccentric wheel rotating shaft 110 through a key, and meanwhile, a protective housing ii 208 is mounted outside the eccentric wheel rotating shaft 110.

Further, a gear iii 304 in the driving mechanism 3 is connected with the eccentric wheel rotating shaft 110 through a spline, the eccentric wheel rotating shaft 110 drives the gear iii 304 to rotate, the gear iii 304 rotates to drive a gear ii 303 and a gear i 302 to rotate, the gear i 302 drives a sprocket i 306 on the driving shaft ii 307 to move through a driving shaft ii 307, the sprocket i 306 drives a sprocket ii 310 to move through a chain 308, the sprocket ii 310 drives a driving shaft iii 309 to move, the driving shaft iii 309 drives a gear v 312 to rotate, and then drives a gear iv 311 to rotate, and the gear iv 311 is mounted on the traveling wheel shaft 402, thereby driving the traveling wheel shaft 402 to rotate.

Further, a fastening base 403 is mounted on the traveling wheel 401 of the traveling mechanism 4, and the traveling wheel 401 is fixed to the traveling wheel shaft 402 by the fastening base 403.

Further, the armrest 503 on the telescopic armrest rod 5 is fixedly connected with the left telescopic rod 502 and the right telescopic rod 502, the telescopic rod 502 is provided with a sliding groove, the sliding rod 501 is also provided with a sliding groove, and the sliding rod 501 is connected with the locking plate 607 on the locking fixed rod 6.

Further, the connecting rod 601 on the locking fixing rod 6 is connected with the upper portion of the transmission case 301 of the transmission mechanism 3, the locking base 603 is installed on the connecting rod 601, the connecting hole I602 is formed in the locking base 603, the locking plate 607 is installed on the connecting hole I602, the locking plate 607 is connected with the locking base 603, the locking base 603 is provided with a locking groove 604, a pressing cam 606 is arranged in the locking groove 604, and the pressing cam 606 is connected with the locking base 603 through a fixing rotating shaft 605.

The utility model has the advantages that: the utility model adopts the principle of vibration soil loosening, flat pushing and excavating, effectively reduces the running resistance of the device, improves the harvesting integrity of the sealwort, reduces the damage to the sealwort during harvesting, removes most of soil on the sealwort by the vibration soil shaking function, and reduces the difficulty of cleaning the sealwort subsequently. The utility model has simple operation, high production efficiency and low production cost.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

FIG. 2 is a schematic view of another view angle structure according to the present utility model.

Fig. 3 is a schematic structural view of the vibration harvesting mechanism of the present utility model.

Fig. 4 is a schematic cross-sectional view of the locking lever of the present utility model.

Fig. 5 is a schematic view of another preferred view of the locking lever of the present utility model.

Fig. 6 is a schematic diagram of the power mechanism of the present utility model.

Fig. 7 is a schematic structural view of a transmission mechanism of the present utility model.

Fig. 8 is a schematic view of the telescopic grab rail of the present utility model.

Fig. 9 is a schematic view of the structure of the running mechanism of the present utility model.

The figure number of the drawings illustrates: 1. a vibration harvesting mechanism; 2. a power mechanism; 3. a transmission mechanism; 4. a walking mechanism; 5. a telescopic grab rail; 6. locking the fixed rod; 101. fixing the supporting frame; 102. a sliding block moving groove I; 103. a ripping blade; 104. a reciprocating lever; 105. a sliding block I; 106. an eccentric wheel; 107. a drive rail; 108. a sliding block moving groove II; 109. a sliding block II; 110. an eccentric wheel rotating shaft; 201. a power box; 202. an auxiliary wheel; 203. a connecting shaft; 204. a protective shell I; 205. a small belt wheel; 206. a transmission belt; 207. a motor; 208. a protective shell II; 209. a large belt wheel; 301. a transmission case; 302. a gear I; 303. a gear II; 304. a gear III; 305. a transmission shaft I; 306. a chain wheel I; 307. a transmission shaft II; 308. a chain; 309. a transmission shaft III; 310. a chain wheel II; 311. a gear IV; 312. a gear V; 401. a travelling wheel; 402. a travelling wheel shaft; 403. a fastening shaft base; 501. a slide bar; 502. a telescopic rod; 503. stabilizing the handrail; 601. a connecting rod; 602. a connecting hole I; 603. locking the base; 604. a locking groove; 605. fixing the rotating shaft; 606. a compacting cam; 607 lock plate.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to the accompanying drawings 1-9, the sealwort harvesting device is characterized by comprising a power mechanism 2, a vibration harvesting mechanism 1, a transmission mechanism 3, a travelling mechanism 4, a locking fixed rod 6 and a telescopic grab bar 5; the vibration harvesting mechanism 1 is arranged at the forefront of the device relative to the advancing direction of the device, the power mechanism 2 is arranged at the rear of the vibration harvesting mechanism 1, the transmission mechanism 3 is arranged at the rear of the power supply device 2, and the travelling mechanism 4 is arranged at the rear of the transmission mechanism 3; for the vertical direction, telescopic grab bar 5 sets up in the upper end of device, and locking dead lever 6 sets up in telescopic grab bar 5's lower extreme, and drive mechanism 3 sets up in locking dead lever 6 below.

The vibration harvesting mechanism 1 comprises a fixed supporting frame 101, a sliding block moving groove I102, a scarification blade 103, a reciprocating rod 104, a sliding block I105, an eccentric wheel 106, a transmission guide rail 107, a sliding block moving groove II 108, a sliding block II 109 and an eccentric wheel rotating shaft 110.

The power mechanism 2 comprises a power box 201, an auxiliary wheel 202, a connecting shaft 203, a protective shell I204, a small belt pulley 205, a transmission belt 206, a motor 207, a protective shell II 208 and a large belt pulley 209.

The transmission mechanism 3 comprises a transmission case 301, a gear I302, a gear II 303, a gear III 304, a transmission shaft I305, a chain wheel I306, a transmission shaft II 307, a chain 308, a transmission shaft III 309, a chain wheel II 310, a gear IV 311 and a gear V312.

The running gear 4 comprises a running wheel 401, a running wheel axle 402 and a fastening base 403.

The telescopic grab bar 5 comprises a slide bar 501, a telescopic bar 502 and a handrail 503.

The locking fixing rod 6 comprises a connecting rod 601, a connecting hole I602, a locking base 603, a locking groove 604, a fixing rotating shaft 605, a pressing cam 606 and a locking plate 607.

Further, the bottom of the vibration harvesting mechanism 1 is provided with a scarification blade 103, the lower end of a reciprocating rod 104 is connected with the scarification blade 103, the upper and lower reciprocating rods 104 are installed on a fixed supporting frame 101, an eccentric wheel rotating shaft 110 is connected to the fixed supporting frame 101, the eccentric wheel rotating shaft 110 is connected with an eccentric wheel 106, a sliding block I105 is connected with the eccentric wheel 106, one end of a transmission guide rail 107 is hinged with the fixed supporting frame 101, the other end of the transmission guide rail 107 is hinged with a sliding block II 109, a sliding block moving groove I102 is formed in the middle of the transmission guide rail 107, the sliding block I105 can reciprocate in the sliding block moving groove I102, a sliding block moving groove II 108 is fixedly installed in the middle of the reciprocating rod 104, and the sliding block II 109 is installed in the sliding block moving groove II 108.

Further, a protective housing i 204 is mounted at the front end of the power mechanism 2, the protective housing i 204 is connected with the connecting shaft 203 through a rolling bearing, the two ends of the connecting shaft 203 are connected with the left auxiliary wheel 202 and the right auxiliary wheel 202, a motor 207 is arranged in the power box 201, the motor 207 drives a small belt wheel 205 to move, the small belt wheel 205 drives a large belt wheel 209 to move through a transmission belt 206, the large belt wheel 209 is connected with the eccentric wheel rotating shaft 110 through a key, and meanwhile, a protective housing ii 208 is mounted outside the eccentric wheel rotating shaft 110.

Further, a gear iii 304 in the driving mechanism 3 is connected with the eccentric wheel rotating shaft 110 through a spline, the eccentric wheel rotating shaft 110 drives the gear iii 304 to rotate, the gear iii 304 rotates to drive a gear ii 303 and a gear i 302 to rotate, the gear i 302 drives a sprocket i 306 on the driving shaft ii 307 to move through a driving shaft ii 307, the sprocket i 306 drives a sprocket ii 310 to move through a chain 308, the sprocket ii 310 drives a driving shaft iii 309 to move, the driving shaft iii 309 drives a gear v 312 to rotate, and then drives a gear iv 311 to rotate, and the gear iv 311 is mounted on the traveling wheel shaft 402, thereby driving the traveling wheel shaft 402 to rotate.

Further, a fastening base 403 is mounted on the traveling wheel 401 of the traveling mechanism 4, and the traveling wheel 401 is fixed to the traveling wheel shaft 402 by the fastening base 403.

Further, the armrest 503 on the telescopic armrest rod 5 is fixedly connected with the left telescopic rod 502 and the right telescopic rod 502, the telescopic rod 502 is provided with a sliding groove, the sliding rod 501 is also provided with a sliding groove, and the sliding rod 501 is connected with the locking plate 607 on the locking fixed rod 6.

Further, the connecting rod 601 on the locking fixing rod 6 is connected with the upper portion of the transmission case 301 of the transmission mechanism 3, the locking base 603 is installed on the connecting rod 601, the connecting hole I602 is formed in the locking base 603, the locking plate 607 is installed on the connecting hole I602, the locking plate 607 is connected with the locking base 603, the locking base 603 is provided with a locking groove 604, a pressing cam 606 is arranged in the locking groove 604, and the pressing cam 606 is connected with the locking base 603 through a fixing rotating shaft 605.

The specific working process of the utility model is as follows: the power mechanism 2 provides power for the vibration harvesting mechanism 1 on one hand and provides travelling power for the travelling mechanism 4 on the other hand; when the sealwort is harvested, an operator holds the armrest 503 of the telescopic armrest rod 5 by both hands so as to ensure the device to move forward in a translational manner; starting the power mechanism 2, and driving the traveling wheel 401 of the traveling mechanism 4 to move through the transmission mechanism 3 so as to push the whole device to move forwards; meanwhile, the transmission mechanism 3 drives the eccentric wheel 106 of the vibration harvesting mechanism 1 to move, the eccentric wheel 106 drives the up-down reciprocating rod 104 to reciprocate up and down, the up-down reciprocating rod 104 drives the soil loosening blade 103 to reciprocate up and down, so that the soil loosening blade 103 moves forward along with the whole device while reciprocating up and down, on one hand, soil under the root of the rhizoma polygonati is loosened, and on the other hand, the soil loosening blade 103 horizontally pushes the whole rhizoma polygonati to loosen and separate from the soil, thereby ensuring the integrity of the rhizoma polygonati and reducing the breakage rate of the rhizoma polygonati; on the other hand, most of soil on the sealwort can be shaken out by the vibration of the vibration harvesting mechanism 1, so that the cleaning difficulty of the sealwort in the later period is reduced; after the work is finished, the compressing cam 606 of the locking fixed rod 6 is pulled to push the telescopic rod 502 into the connecting rod 601, and the compressing cam 606 is rotated to enable the locking plate 607 to lock the telescopic rod 502, so that the parking space of the device is reduced.

The above embodiments are intended to illustrate the technical solution of the present utility model, not to limit the technical solution, and it should be understood by those skilled in the art that any modification, equivalent replacement or improvement made to the technical solution of the present utility model within the spirit and principle of the present utility model is included in the protection scope of the present utility model.

Claims (7)

1. The sealwort harvesting device is characterized by comprising a vibration harvesting mechanism (1), a power mechanism (2), a transmission mechanism (3), a travelling mechanism (4), a telescopic grab rail (5) and a locking fixed rod (6); the vibration harvesting mechanism (1) is arranged at the forefront of the device relative to the advancing direction of the device, the power mechanism (2) is arranged at the rear of the vibration harvesting mechanism (1), the transmission mechanism (3) is arranged at the rear of the power mechanism (2), and the travelling mechanism (4) is arranged at the rear of the transmission mechanism (3); relative to the vertical direction, the telescopic grab rail (5) is arranged at the upper end of the device, the locking fixed rod (6) is arranged at the lower end of the telescopic grab rail (5), and the transmission mechanism (3) is arranged below the locking fixed rod (6);

the vibration harvesting mechanism (1) comprises a fixed supporting frame (101), a sliding block moving groove I (102), a scarification blade (103), a reciprocating rod (104), a sliding block I (105), an eccentric wheel (106), a transmission guide rail (107), a sliding block moving groove II (108), a sliding block II (109) and an eccentric wheel rotating shaft (110);

The power mechanism (2) comprises a power box (201), an auxiliary wheel (202), a connecting shaft (203), a protective shell I (204), a small belt wheel (205), a transmission belt (206), a motor (207), a protective shell II (208) and a large belt wheel (209);

The transmission mechanism (3) comprises a transmission case (301), a gear I (302), a gear II (303), a gear III (304), a transmission shaft I (305), a chain wheel I (306), a transmission shaft II (307), a chain (308), a transmission shaft III (309), a chain wheel II (310), a gear IV (311) and a gear V (312);

The travelling mechanism (4) comprises a travelling wheel (401), a travelling wheel shaft (402) and a fastening base (403);

The telescopic grab rail (5) comprises a sliding rod (501), a telescopic rod (502) and a handrail (503);

The locking fixing rod (6) comprises a connecting rod (601), a connecting hole I (602), a locking base (603), a locking groove (604), a fixing rotating shaft (605), a pressing cam (606) and a locking plate (607).

2. The sealwort harvesting device according to claim 1, wherein the bottom of the vibration harvesting mechanism (1) is provided with a scarification blade (103), the lower end of the reciprocating rod (104) is connected with the scarification blade (103), the upper and lower reciprocating rods (104) are mounted on the fixed support frame (101), the eccentric wheel rotating shaft (110) is connected with the eccentric wheel (106), the sliding block I (105) is connected with the eccentric wheel (106), one end of the transmission guide rail (107) is hinged with the fixed support frame (101), the other end of the transmission guide rail is hinged with the sliding block II (109), a sliding block moving groove I (102) is formed in the middle of the transmission guide rail (107), the sliding block I (105) can reciprocate in the sliding block moving groove I (102), a sliding block moving groove II (108) is fixedly mounted in the middle of the reciprocating rod (104), and the sliding block II (109) is mounted in the sliding block moving groove II (108).

3. The sealwort harvesting device according to claim 1, wherein the front end of the power mechanism (2) is provided with a protective housing i (204), the protective housing i (204) is connected with a connecting shaft (203) through a rolling bearing, two auxiliary wheels (202) are connected at two ends of the connecting shaft (203), a motor (207) is arranged in the power box (201), the motor (207) drives a small belt wheel (205) to move, the small belt wheel (205) drives a large belt wheel (209) to move through a transmission belt (206), the large belt wheel (209) is connected with an eccentric wheel rotating shaft (110) through a key, and a protective housing ii (208) is arranged outside the eccentric wheel rotating shaft (110).

4. The sealwort harvesting device of claim 1, wherein the gear iii (304) in the transmission mechanism (3) is connected with the eccentric wheel rotating shaft (110) through a spline, the eccentric wheel rotating shaft (110) drives the gear iii (304) to rotate, the gear iii (304) rotates to drive the gear ii (303) and the gear i (302) to rotate, the gear i (302) drives the sprocket i (306) on the transmission shaft ii (307) to move through the transmission shaft ii (307), the sprocket i (306) drives the sprocket ii (310) to move through the chain (308), the sprocket ii (310) drives the transmission shaft iii (309) to move, the transmission shaft iii (309) drives the gear v (312) to rotate, and then drives the gear iv (311) to rotate, and the gear iv (311) is mounted on the traveling wheel shaft (402) to drive the traveling wheel shaft (402) to rotate.

5. The sealwort harvesting apparatus of claim 1, wherein the traveling wheel (401) of the traveling mechanism (4) is mounted with a fastening base (403), and the traveling wheel (401) is fixed to the traveling wheel shaft (402) by the fastening base (403).

6. The sealwort harvesting device according to claim 1, wherein the handrail (503) on the telescopic handrail rod (5) is fixedly connected with the left telescopic rod (502) and the right telescopic rod (502), the sliding groove is arranged on the telescopic rod (502), the sliding rod (501) is also provided with the sliding groove, and the sliding rod (501) is connected with the locking plate (607) on the locking fixed rod (6).

7. The sealwort harvesting device according to claim 1, wherein the connecting rod (601) on the locking fixing rod (6) is connected with the upper part of the transmission case (301) of the transmission mechanism (3), the locking base (603) is respectively arranged on the connecting rod (601) and the locking base (603), the connecting hole I (602) is arranged on the locking base (603), the locking plate (607) is arranged on the connecting hole I (602), the locking plate (607) is connected with the locking base (603), the locking base (603) is provided with a locking groove (604), the locking groove (604) is internally provided with a pressing cam (606), and the pressing cam (606) is connected with the locking base (603) through the fixing rotating shaft (605).