KR20160103498A - Supply device of powder - Google Patents

Abstract

The present invention relates to a powder supply device. In particular, powder can be continuously dispatched while a dispatch amount of powder per unit time is controlled. A rotator (60) dispatches agricultural powder, and has entrance units (66, 67). The entrance units (66, 67) comprises central units (66a, 67a), lower side units (66c, 67c) disposed in the lower side of a rotation direction A1 compared to the central units (66a, 67a), and upper side units (66b, 67b) disposed in the upper side of the rotation direction A1 compared to the central units (66a, 67a). The lower side unit (66c) of the entrance unit (66) in the upper side and the upper side unit (67b) of the entrance unit (67) in the lower side area disposed to be arranged in one side and the other side of the rotator (60) having the entrance units (66, 67) along the surface (60a) of the rotator (60) in a particular direction A2 vertically crossing the rotation direction A1.

Description

SUPPLY DEVICE OF POWDER [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a powder supply device for supplying powdered agricultural products (medicines, fertilizers and seeds) to packaging.

As an example of the powder particle supply device, there is a fertilizer device for supplying fertilizer to the pavement. Such a fertilizer device has a structure disclosed in Patent Document 1.

In Patent Document 1, a drive shaft (reference numeral 47 in FIG. 5 and FIG. 6 of Patent Document 1) is arranged in the lateral direction below a storage portion (43 in FIG. 5 of Patent Document 1) (Corresponding to a rotating body) 45 (see FIG. 5 and FIG. 6 of Patent Document 1) is provided on the drive shaft, and a plurality of recesses (see FIG. 5 And reference numeral 45a in Fig. 6).

As a result, as the feed roll is rotationally driven, when the concave portion of the feed roll reaches the outlet portion of the storage portion (reference numeral 46b in Fig. 6 of Patent Document 1), the fertilizer enters the recess of the feed roll. Then, when the concave portion of the feed roll reaches the discharge position (the position facing the supply pipe 44 in Figs. 5 and 6 of Patent Document 1), the fertilizer comes out from the concave portion of the feed roll and is supplied to the package.

As described above, the fertilizer in the storage portion can be fed out by rotationally driving the feeding roll having a plurality of concave portions on the outer circumferential surface. By changing the rotating speed of the feeding roll, the amount of fertilizer per unit time can be changed .

Japanese Patent Laid-Open Publication No. 2011-142889 (see Figs. 5 and 6)

In recent years, for example, in the case of pharmaceuticals and the like, it has been desired to continuously feed the powdered particles without breaking them (to supply the powdered powder in a line form to the package).

On the other hand, in Patent Document 1, when a concave portion is arranged on the outer peripheral surface of the feeding roll, it is necessary to form a partition between the concave portion and the concave portion, so that whenever the concave portion of the feeding roll reaches the discharging position, So that the powder is intermittently fed out.

In this case, when the feed roll is driven to rotate at a high speed, it is possible to continuously feed the powder. However, if the feed roll is rotated at high speed, the amount of feed per unit time of the powder is increased, It is impossible to cope with a state in which the powder is continuously fed while suppressing the discharge amount.

An object of the present invention is to provide a powder feeder equipped with a rotating body, which is capable of continuously feeding the powdered particles in a state in which the amount of granulated material discharged per unit time is suppressed.

[I]

(Configuration)

A first aspect of the present invention resides in the following configuration of a powder supply device.

A storage section for storing the agricultural granular material, and a rotation-driven rotating body,

Wherein a plurality of inlet portions into which the powder is drawn are arranged in the rotating body along the rotating direction of the rotating body,

When the inlet portion reaches the outlet portion of the storage portion with the rotation of the rotary body, the powder enters the inlet portion from the storage portion, and when the inlet portion reaches the discharge position, And,

A lower portion located below the center portion in the rotation direction and an upper portion located above the center portion in the rotation direction,

In the inlet portion above the adjacent rotation direction and the inlet portion below the rotation direction,

The lower portion of the upper inlet portion and the upper portion of the lower inlet portion are arranged on one side and the other side in a predetermined direction perpendicular to the rotational direction along the surface of the rotating body on which the inlet portion is formed A powder feeder.

(Effect of Action and Invention)

[I] -1

In the case of the rotating body provided with a plurality of inlet portions arranged along the rotating direction of the rotating body as in Patent Document 1, when the upper inlet portion in the adjacent rotating direction and the lower inlet portion in the rotating direction are considered, According to one aspect of the present invention, the lower portion of the upper inlet portion and the upper portion of the lower inlet portion are arranged on one side and the other side in a predetermined direction perpendicular to the rotational direction along the surface of the rotating body on which the inlet portion is formed.

Thus, according to the first aspect of the present invention, the lower portion of the upper draw portion and the upper portion of the lower draw portion are spaced apart from one side and the other side in the predetermined direction, but they can be brought close to each other in the rotating direction.

[I] -2

According to the first aspect of the present invention, in the state described in the preceding item [I] -1, when the rotating body rotates, the inlet portion reaches the outlet portion of the storage portion and the powder enters the inlet portion, The additional discharge position is reached, and the powder is discharged from the lower side of the lower inlet portion. The central portion of the lower inlet portion reaches the discharge position and the powder is discharged from the central portion of the lower inlet portion. Then, the upper portion of the lower inlet portion reaches the discharge position, and the powder is discharged from the upper portion of the lower inlet portion.

In this case, when the upper portion of the lower inlet portion reaches the discharge position, the lower portion of the next upper inlet portion arrives without delaying the discharge position. Therefore, when the powder is discharged from the upper portion of the lower inlet portion, A state in which the powder is discharged from the lower side of the inlet portion is obtained.

Since the above-described state is obtained irrespective of the rotational speed of the rotating body, the above-described state is obtained even in a state where the rotational speed of the rotating body is low (even when the amount of pulverized material discharged per unit time is suppressed) It is possible to continuously feed the powder compacts from the powder compact.

[II]

(Configuration)

A second aspect of the present invention resides in the following configuration of the powder supply device of the first aspect of the present invention.

Wherein the inserting portion is arranged to obliquely intersect with the rotating direction,

A lower portion located on the other side of the predetermined direction from the center portion and located in the rotation direction with respect to the center portion; And the upper portion located at the upper side of the direction,

The lower portion of the upper inlet portion and the upper portion of the lower inlet portion are arranged on one side and the other side in the predetermined direction.

(Effect of Action and Invention)

According to the second aspect of the present invention, when the state described in the preceding paragraph [I] -1 is obtained, the central portion, the lower portion, and the upper portion are provided on the inlet portion by a simple structure in which the inlet portions are arranged so as to cross obliquely with respect to the rotating direction Can be obtained.

[III]

(Configuration)

A third aspect of the present invention resides in the following configuration of the powder supply device of the first aspect of the present invention.

The inlet portion is formed into a crank shape,

A lower portion located on the other side of the predetermined direction from the center portion and located in the rotation direction with respect to the center portion; And the upper portion located at the upper side of the direction,

The lower portion of the upper inlet portion and the upper portion of the lower inlet portion are arranged on one side and the other side in the predetermined direction.

(Effect of Action and Invention)

According to the third feature of the present invention, the central portion, the lower portion, and the upper portion can be obtained in the inlet portion by a simple structure in which the inlet portion is formed in a crank shape.

[IV]

(Configuration)

A fourth aspect of the present invention resides in the following configuration of the powder supply device of the first aspect of the present invention.

Wherein a plurality of rows of the inlet portions arranged along the rotational direction are provided along the predetermined direction and the inlet portions of the adjacent rows are shifted along the rotational direction,

The powder supply device according to Claim 1, wherein the lower portion of the inlet portion located at one row and the upper portion of the lower inlet portion located at the adjacent row are arranged at one side and the other side in the predetermined direction.

(Effect of Action and Invention)

According to the fourth aspect of the present invention, when the state described in the preceding paragraph [I] -1 is obtained, by the simple structure in which the rows of the inlet portions are provided with a plurality of rows along a predetermined direction, the central portion, You can get wealth.

[V]

(Configuration)

A fifth aspect of the present invention is as follows in any one of the powder supply devices of the first to fourth aspects of the present invention.

The lower side portion of the upper pulled-in portion overlaps with the upper side portion of the lower pulled-up portion when viewed from the predetermined direction.

(Effect of Action and Invention)

According to the fifth feature of the present invention, the lower portion of the upper pull-in portion and the upper portion of the lower pull-in portion are separated from each other in one direction and the other in the predetermined direction when the upper pull-in portion in the adjacent rotation direction and the lower pull- The lower portion of the upper inlet portion overlaps with the upper portion of the lower inlet portion when viewed from a predetermined direction.

As a result, when the upper portion of the lower inlet portion reaches the discharge position, the lower portion of the next upper inlet portion also reaches the discharge position, as described in the preceding paragraph [I] -2, The powder is discharged from the lower side of the next upper inlet portion.

Therefore, the powder can be continuously fed from the rotating body between the lower inlet portion and the upper inlet portion without generating a state in which the powder is interrupted on the way.

[VI]

(Configuration)

A sixth aspect of the present invention is as follows in any one of the powder supply devices of the first to fifth aspects of the present invention.

The volume of the upper portion of the inlet portion is set to be larger than the volume of the central portion of the inlet portion and the volume of the lower portion of the inlet portion is set to be larger than the volume of the center portion of the inlet portion.

(Effect of Action and Invention)

[VI] -1

When the central portion, the lower portion and the upper portion are provided in the inlet portion, the central portion of the inlet portion reaches the discharge position and the powder is discharged from the central portion of the inlet portion, as compared with the state in which the lower portion of the inlet portion reaches the discharge position and the powder is discharged from the lower portion of the inlet portion There is a tendency that a lot of granules come out from the outgoing state.

Likewise, in a state in which the central portion of the inlet reaches the discharge position and the powder is discharged from the central portion of the inlet portion, a large amount of powdered powder tends to be discharged from the state where the upper portion of the inlet portion reaches the discharge position and the powder is discharged from the upper portion of the inlet portion .

[VI] -2

According to a sixth aspect of the present invention, the volume of the upper portion of the inlet portion is set to be larger than the volume of the central portion of the inlet portion, and the volume of the lower portion of the inlet portion is set to be larger than the volume of the central portion of the inlet portion, Is set to be large.

Thus, in a state in which the lower portion of the inlet portion reaches the discharge position, the center portion of the inlet portion reaches the discharge position, and the upper portion of the inlet portion reaches the discharge position, The amount of the sieve can be made approximately the same.

1 is an overall side view of a passive type shear wave machine.
2 is a side view of a seeding apparatus, a fertilizer apparatus, and a drug supply apparatus.
3 is a rear view of the seeding apparatus, fertilizing apparatus, and drug supply apparatus.
4 is a cross-sectional plan view in the vicinity of a float in a seeding apparatus, a fertilizer apparatus, and a drug supply apparatus.
Fig. 5 is a schematic diagram showing the electric power system of the seeding apparatus, fertilizing apparatus and medicine supply apparatus.
6 is a perspective view showing a frame structure of a seeding apparatus, a fertilizer apparatus, and a drug supply apparatus.
7 is a longitudinal side view of the leading portion of the medicine supply device.
8 is a front view of the feeding roll of the medicine feeding device.
Fig. 9 is an enlarged front view of the leading portion of the feeding roll of the medicine feeding device. Fig.
Fig. 10 is a front view showing a feeding state of a feeding roll of the medicine feeding device. Fig.
11 is a front view of a feeding roll of the medicine feeding device according to the first other embodiment of the invention.
12 is a front view of a feeding roll of the medicine feeding device according to the second embodiment of the invention;
13 is a plan view of a rotating body of the medicine feeding device according to the third embodiment of the invention;
FIG. 14 is a perspective view of the medicine supply device in the vicinity of the rotation body according to the third embodiment of the invention; FIG.
15 is a front view of a feeding roll of the medicine feeding device in the fourth other embodiment of the invention.
16 is a cross-sectional view of a feeding roll of the medicine feeding device according to the fifth embodiment of the invention;

The front-rear direction and the left-right direction in the embodiment of the present invention are described as follows unless otherwise specified. The traveling direction of the advancing side at the time of running of the gas is "forward" and the traveling direction of the backward side is "rearward". The direction corresponding to the right side is the " right side " and the direction corresponding to the left side is the " left side "

[One]

A link mechanism 3 is supported on a rear portion of a base supported by the front wheel 1 and the rear wheel 2 so as to be able to move up and down so that a hydraulic cylinder 4, and a seeding device 5, a fertilizer device 6 and a medicine supply device 7 (corresponding to a powder supply device) are supported on the rear portion of the link mechanism 3, A 6-line type passenger-side loop machine is constituted.

[2]

Next, the frame structure for supporting the seeding device 5, fertilizer device 6, and medicine supply device 7 will be described.

As shown in Figs. 2 and 6, a transverse frame 8 in the lateral direction is provided, and a box-shaped frame portion 17 made of a plate material is connected to the central portion of the transverse frame 8, 17 are connected to the boss portion 9. The transverse frame 10 in the front and rear direction is connected to the right and left sides of the transverse frame 8 in the rear direction and the vertical frame 11 in the up and down direction is connected to the frame portion 17 and the transverse frame 10, A transverse frame 12 in the left and right direction is connected to the upper portion of the vertical frame 11.

As shown in Figs. 2 and 6, the transverse frame 13 in the front-rear direction is connected to the center portion, the right and left portions of the transverse frame 8 in the rear direction, 14) are connected. A bracket 18 is connected to the transverse frame 10 and a transverse frame 15 is connected to the transverse frame 14 over the top of the transverse frame 14 and the bracket 18.

2 and 6, a bracket 13a is connected to the rear portion of the transverse frame 13 and the rear portion of the three floats 16 is connected to the transverse axis 13a of the bracket 13a of the transverse frame 13, P2 so as to swing up and down. 3 and 4, the float 16 on the right and left sides is located on the rear side of the right and left rear wheels 2 and the center float 16 is located between the right and left rear wheels 2 And a trough opener 38 is formed on the bottom surface of the rear portion of the float 16 on the right and left sides.

As shown in Figs. 2, 4 and 6, the right and left transverse frames 13 extend forward, and the installation members 13b are connected to the front portions of the right and left transverse frames 13 And a plate-like wall member 19 is connected to the brackets 13b of the right and left side frames 13, respectively. The wall member 19 is located on the rear side of the rear wheel 2 and the rear wheel 2 is moved rearward from the rear wheel 2 so that the mud blown backward from the rear wheel 2 is not released to the right and left floats 16. [ So that the blown mud is stopped by the wall member 19.

As shown in Figs. 2, 4 and 6, in the transverse frame 8, the transverse frame 20 in the front-rear direction is connected in the forward direction to the intermediate portion of the transverse frame 13, The stop member 21 is connected to the front portion of the transverse frame 20. Thereby, the stopping member 21 is positioned between the floats 16, and the portion between the floats 16 on the front surface is stopped by the stopping member 21.

2 and 6, an upper portion of the frame portion 17 is rotatably supported around the front and rear axial center P1 at the lower portion of the rear portion of the link mechanism 3, Is rotatably supported around the front and rear axial centers P1. A bracket 12a is connected to the right and left sides of the transverse frame 12 in the forward direction so that the spring 22 is connected to the upper part of the rear portion of the link mechanism 3 and the bracket 12a of the transverse frame 12 And the whole of the transverse frame 8 and the like is pressed by the spring 22 in a posture in parallel with the gas.

[3]

Next, the supporting structure of the seeding apparatus 5 will be described.

As shown in Figs. 2 and 3, in the seeding apparatus 5, six feeding portions 23 are connected to the transverse frame 15 at a predetermined interval, And the guide member 24 is formed in a U-shaped cross section with its back side open. Two hoppers 25 for storing rice seed are provided, and the hopper 25 is connected to the upper portion of the three feeding portions 23. [

2 and 3, the rice seed of the hopper 25 is fed by a predetermined amount by the feeding portion 23, the rice seed does not come into contact with the inner surface of the guide member 24, 24, and is supplied to the front surface (surface).

As described above, the seeding apparatus 5 is provided with the feeding section 23, the guide member 24, the hopper 25, and the like. It is composed of a surface scattering type (scattering type) that feeds the seeds of the particles of a particle into a single mass (a scattering).

[4]

Next, the supporting structure of the fertilizer device 6 will be described.

As shown in Figs. 2 and 3, in the fertilizer unit 6, six feeding portions 26 are connected to the transverse frame 12 at a predetermined interval, and a hopper 27 for storing the fertilizer And a hopper 27 is connected to the upper portion of the three feeding portions 26. [ As shown in Figs. 2, 3 and 4, the float 16 is connected to the trough opener 28 and the soil collecting member 31, the trowel 29 is connected to the trough opener 28 , The hose (30) is connected to the feeding part (26) and the work machine (29).

2, 3, and 4, the fertilizer of the hopper 27 is fed out by the feeding portion 26 and fed from the hose 30 to the production machine 29, The grooves formed in the front surface of the soil collecting member 31 are filled with the grooves supplied with the fertilizer.

As described above, the fertilizer device 6 is constituted by the feeding portion 26, the hopper 27, the trough opener 28, the work machine 29, the hose 30, the soil collecting member 31, And is configured to feed the fertilizer to a position downward from the front at a position on the front side adjacent to the position where the rice seed is fed (a state in which the fertilizer is located at a position below the front surface adjacent to the rice seed).

[5]

Next, the support structure of the medicine supply device 7 will be described.

6 and 7, six delivery portions 32 are connected to the transverse frame 12 at a predetermined interval, and a medicine (equivalent to a granular material for agricultural use) And a hopper 33 is connected to an upper portion of the two feeding portions 32. The hopper 33 is connected to the upper portion of the feeding portion 32, As shown in Figs. 2, 3 and 4, the float 16 is connected to the trough opener 34 and the soil collecting member 37, the trowel 35 is connected to the trough opener 34 The hose 36 is connected to the feeding portion 32 and the work machine 35. [

2, 3, and 4, the medicine of the hopper 33 is fed by the feeding portion 32, is fed from the hose 36 to the batcher 35, The grooves formed on the front surface of the soil collecting member 37 are filled with the grooves supplied with the medicines.

As described above, the chemical feeder 7 is provided with the feeding portion 32, the hopper 33, the trough opener 34, the machine tool 35, the hose 36, the soil collecting member 37, And is configured to supply the medicine at a position on the front side of the position where the rice seed is fed and below the front face (the state where the medicine is located just below the rice seed).

[6]

Next, the transmission structure to the seeding apparatus 5 will be described.

2 and 5, the input shaft 40 is supported on the boss portion 9, the transmission shaft 39 is connected to the input shaft 40, and the power of the engine (not shown) Is transmitted to the input shaft (40) through the transmission shaft (39).

As shown in Figs. 2 and 5, the transmission shaft 41 is arranged in the left-right direction, and the power of the input shaft 40 is transmitted to the transmission shaft 41 by the bevel gear. One driving shaft 42 is disposed in the lateral direction along the feeding portion 23 and the electric chain 43 extends from the left side of the driving shaft 41 to the left side of the driving shaft 42, And the power of the transmission shaft 41 is transmitted to the drive shaft 42 through the transmission chain 43 and the cover 44 covering the transmission chain 43 is provided.

The transmission gear 45 is externally fitted to the drive shaft 42 so as to be relatively rotatable relative to the drive shaft 42 so that the transmission gear 45 is engaged with the input gear 23a of the feed portion 23, 42 are integrally rotatable and slidable and the shift member 46 is fitted to the drive shaft 42 so as to face the transmission gear 45.

5, when the shift member 46 is engaged with the transmission gear 45, the power of the drive shaft 42 is transmitted through the shift member 46 and the transmission gear 45 to the input (Not shown) incorporated in the feeding portion 23 is rotationally driven so that rice seed is fed from the feeding portion 23.

5, when the shift member 46 is separated from the transmission gear 45, the transmission to the transmission gear 45 is blocked, the feed roll of the feed portion 23 is stopped, and the feed portion 23 ) Is stopped.

As described above, the transmission gear 45 and the shift member 46 constitute each row clutch that operates and stops each of the feed portions 23.

[7]

Next, the transmission structure to the fertilizer device 6 will be described.

2 and 5, one driving shaft 47 is arranged in the left-right direction along the feeding portion 26 in the fertilizing device 6, and a right- Way clutch 51 and the second one-way clutch 52 are externally fitted. A connecting rod 48 is connected across the right arm portion 41a of the transmission shaft 41 and the first one-way clutch 51 and the first one-way clutch 51 and the second one- 52, a link mechanism 49 is connected.

As shown in Fig. 5, the link rod 48 is reciprocally driven as the transmission shaft 41 is rotationally driven. As a result, the forward operation of the linkage 48 is transmitted to the drive shaft 47 via the first one-way clutch 51, so that the drive shaft 47 is rotationally driven in a predetermined direction, The operation is transmitted to the second one-way clutch 52 via the link mechanism 49, and the drive shaft 47 is rotationally driven in the same predetermined direction.

As shown in Fig. 5, the input shaft 50 is provided over the two output portions 26. As shown in Fig. The transmission gear 53 is fitted to the drive shaft 47 so as to be rotatable relative to the drive shaft 47 so that the transmission gear 53 meshes with the input gear 50a of the input shaft 50 and can rotate integrally with the drive shaft 47, And the shift member 54 is fitted outside the drive shaft 47 so as to face the transmission gear 53.

5, when the shift member 54 is engaged with the transmission gear 53, the power of the drive shaft 47 is transmitted through the shift member 54 and the transmission gear 53 to the input gear 53 of the input shaft 50, (Not shown) incorporated in the feed portion 26 is rotationally driven so that the feed is delivered from the feed portion 26. [

5, when the shift member 54 is separated from the transmission gear 53, the transmission to the transmission gear 53 is blocked, the feed roll of the feed portion 26 is stopped, and the feed portion 26 The feed of the fertilizer is stopped.

As described above, the power transmission gear 53 and the shift member 54 constitute a diesel generator clutch that performs the operation and stop of the two output portions 26.

[8]

Next, the transmission structure to the medicine supply device 7 will be described.

5, in the seeding apparatus 5, the input gear 23a of the feeding portion 23 located between the two feeding portions 23 at the center, the two feeding portions 23 at the right side, The input gear 23a of the feeding portion 23 positioned between the two feeding portions 23 of the left side and the input gear 23a of the feeding portion 23 located between the two feeding portions 23 of the left side, And a transmission gear 55 engaged with the gear 23a.

2 and 5, a swinging arm 56 is provided between the seeding device 5 and the medicine supply device 7 and capable of pivoting about the transverse axis in the lateral direction. The swinging arm 56, Is connected to the side surface of the transmission gear (55) through the position adjusting mechanism (58). The first one-way clutch 61 and the second one-way clutch 62 are externally fitted to the input shaft 59 and the swinging arm 56 is provided on the input shaft 59. The first one- The first linkage rod 63 and the second linkage rod 64 are connected to the first and second one-way clutches 61 and 62, respectively.

5, when the transmission gear 55 is rotationally driven by the input gear 23a of the feeding portion 23, the link rod 57 is reciprocally driven so that the swinging arm 56 is reciprocally driven . The forward operation of the swinging arm 56 is transmitted from the first linkage 63 to the input shaft 59 through the first one way clutch 61 so that the input shaft 59 is rotationally driven in a predetermined direction, Way clutch 56 is transmitted from the second linkage rod 64 to the second one-way clutch 62 so that the input shaft 59 is rotationally driven in the same predetermined direction. Thereby, the feeding roll 60 (see Fig. 7) (corresponding to the rotating body) built in the feeding portion 32 is rotationally driven, and the medicine is fed out from the feeding portion 32. [

The connecting position of the driving rod 57 to the swinging arm 56 can be changed along the longitudinal direction of the swinging arm 56 as shown in Figs.

Thus, when the connecting position of the driving rod 57 to the swinging arm 56 is approached to the swing support point of the swinging arm 56, the swinging range of the swinging arm 56 is increased and the rotating speed of the feeding roll 60 is (A state in which the amount of drug per unit time is increased).

Conversely, if the connecting position of the driving rod 57 to the swinging arm 56 is separated from the swing support point of the swinging arm 56, the swinging range of the swinging arm 56 is reduced, (A state in which the amount of drug per unit time is reduced).

5, the position adjusting mechanism 58 is configured such that the connecting position of the connecting rod 57 to the transmission gear 55 can be moved toward or away from the rotation center of the transmission gear 55 .

As a result, the reciprocating range of the connecting rod 57 is increased and the feeding roll 60 is rotated in the same manner as described above, if the connecting position of the connecting rod 57 to the transmission gear 55 is separated from the rotation center of the transmission gear 55. [ (A state in which the amount of drug per unit time is increased).

Conversely, when the connecting position of the connecting rod 57 to the transmission gear 55 is moved closer to the rotation center of the transmission gear 55, the reciprocating range of the connecting rod 57 becomes small, The rotational speed becomes low (a state in which the amount of delivery per unit time of the medicine is reduced).

[9]

Next, the operation system of the minor group clutch will be described.

Two shift clutches (shift members 46) for the two feed portions 23 at the central portion of the seeding device 5 are operated to feed the fertilizer 6 There is provided a central operating lever 65 for operating one minor clutch (shift member 53) with respect to the two outgoing portions 26 in the central portion.

Thereby, by manipulating the operation lever 65 at the center, the central minor portion clutch (shift member 46) and the minor group clutch (shift member 53) are operated to the transmission and shutoff state, The two delivery portions 32 of the medicament supply device 7 can be actuated and stopped and the two delivery portions 23 and 26 of the central portion of the delivery device 6 can be actuated and stopped. It can be stopped.

Two shift clutches (shifting members 46) are operated to the two right-handed portions 23 of the seeding apparatus 5 to drive the fertilizing apparatus 6 as shown in Figs. 2 and 5, And an operating lever 65 on the right side for operating one minor clutch (shift member 53) with respect to the two right-side feed portions 26 is provided.

Thereby, by manipulating the operation lever 65 on the right side portion, the right side minority clutch (shift member 46) and the minority clutch (shift member 53) are operated to the power transmission and cutoff state, 26 of the right side of the fertilizer device 6 and to operate and stop the two right side portions 32 of the medicament supply device 7, It can be stopped.

Two shifting clutches (shift members 46) for the two left-hand feed portions 23 of the seeding device 5 are operated and the left side of the fertilizing device 5 is shifted to the left side as shown in Figs. 2 and 5, There is provided a left-side operation lever 65 for operating one minor clutch (shift member 53) with respect to the two output portions 26. [

Thereby, by manipulating the operation lever 65 of the left side portion, the left side minority clutch (shift member 46) and the minority clutch (shift member 53) are operated to the power transmission and cutoff state, ) And the two left-side feed portions 23 and 26 of the fertilizer device 6 and to thereby activate and stop the two left-side feed portions 32 of the medicine feeder 7 .

[10]

Next, the feeding roll 60 in the medicine feeding device 7 will be described.

7 and 8, the feed roll 60 is formed in a cylindrical shape by a synthetic resin and is provided inside the feed portion 32. The feed roll 60 has a shaft portion 60c integrally formed with the feed roll 60 , And is rotationally driven in the rotational direction A1 about the rotational center axis P3 in the left and right direction.

7, 8 and 9, on the surface 60a of the feed roll 60 (corresponding to the surface of the rotating body on which the inlet portion is formed), a plurality of transversely long inlet portions 66 And 67 are arranged in the rotation direction A1, and are arranged parallel to each other so that the inlet portions 66 and 67 obliquely intersect with the rotation direction A1.

9, in the surface 60a of the feed roll 60, the partition 60b of the feed roll 60 positioned between the adjacent feed-in portions 66, And the width B2 of the dividing section 60b of the feeding roll 60 is smaller than the width B1 of the inlet sections 66 and 67 have.

9, along the rotating direction A1 of the feeding roll 60 and along the surface 60a of the feeding roll 60 and in the predetermined direction A2 perpendicular to the rotating direction A1, As shown in FIG.

As shown in Fig. 9, the central portions 66a and 67a of the inlet portions 66 and 67 and the lower portion (lower portion of Fig. 9) located lower than the central portions 66a and 67a in the rotational direction A1 66c and 67c and upper portions 66b and 67b positioned above the central portions 66a and 67a in the rotational direction A1 (on the upper side of FIG. 9).

9, the lower portion 66c of the upper inlet portion 66 and the lower portion 66c of the upper inlet portion 66 in the adjacent rotation direction A1 and the lower inlet portion 67 of the rotation direction A1 And the upper side portion 67b of the lower drawing portion 67 are arranged in one direction (the left side in FIG. 9) and the other side (the right side in FIG. 9) in the predetermined direction A2.

The lower side portion 66c of the upper inlet portion 66 and the upper side portion 67b of the lower inlet portion 67 are spaced apart from one side and the other side in the predetermined direction A2, .

More specifically, in the upper pulling-in portion 66 of the adjacent rotation direction A1 and the lower pulling-in portion 67 of the rotation direction A1, the central portions 66a and 67a, the central portions 66a and 67a, The lower portions 66c and 67c and the central portions 66a and 67a located at one side (the left side of the drawing sheet in FIG. 9) and below the central portions 66a and 67a in the rotational direction A1 The upper portions 66b and 67b located at the other side (the right side of the drawing in Fig. 9) and located above the central portions 66a and 67a in the rotational direction A1 (the upper side of Fig. 9) are provided.

9, in the upper drawing portion 66 of the adjacent rotation direction A1 and the lower drawing portion 67 of the rotation direction A1, when viewed from the predetermined direction A2, the lower drawing portion 66 66c and the upper side portion 67b of the lower inlet portion 67 are overlapped in the range B3.

[11]

Next, the drug delivery state in the medicine supply device 7 will be described.

7, a feed roll 60 is provided inside the feed portion 32 and a partition member 68 which contacts the outer peripheral portion of the feed roll 60 inside the feed portion 32 is provided, Respectively. The partition member 68 is constituted by arranging a plurality of plate-like plate portions parallel to the rotation axis P3 in the rotational direction A1, and the plurality of plate portions are integrally formed by soft synthetic resin.

7, the feeding roll 60 is rotationally driven in the rotating direction A1 and the inlet portions 66 and 67 are connected to the outlet portion 33a located at the lower portion of the hopper 33 The medicine enters the inlet portions 66 and 67. As shown in Fig. As the inlet portions 66 and 67 reach the partitioning member 68, a medicine corresponding to the volume of the inlet portions 66 and 67 flows into the inlet portions 66 and 67 .

10 (a), when the feeding roll 60 is rotationally driven in the rotating direction A1, the upper pulling-in portion 66 in the adjacent rotation direction A1 and the lower pulling-in portion 67 in the rotating direction A1 7) (corresponding to the discharge position) of the partition member 68, and the lower portion 67c of the lower inlet portion 67 reaches the lower portion 68a of the lower inlet portion 67 The medicine is discharged from the side portion 67c.

10 (b), the central portion 67a of the lower inlet portion 67 reaches the lower side portion 68a of the partition member 68, and the central portion 67a of the lower inlet portion 67 The upper side portion 67b of the lower inlet portion 67 reaches the lower side portion 68a of the partition member 68 and the medicine is discharged from the upper side portion 67b of the lower inlet portion 67, .

9, when viewed from the predetermined direction A2, the lower portion 66c of the upper inlet 66 and the upper portion 67b of the lower inlet 67 overlap in the range B3 have.

10 (c), when the upper side portion 67b of the lower inlet portion 67 reaches the lower side portion 68a of the partition member 68, the upper inlet portion 67 of the upper inlet portion 66 The lower portion 66c also reaches the lower portion 68a of the partition member 68 and the medicine is discharged from the upper portion 67b of the lower inlet portion 67, The medicine is discharged from the lower portion 66c.

Therefore, it is possible to continuously deliver the medicament from the feeding roll 60 without causing the medicament to be cut off on the way between the lower inlet 67 and the upper inlet 66.

[Other embodiment of the invention]

The inlet portions 66 and 67 are formed in a crank shape so that the inlet portions 66 and 67 may be formed in place of the inlet portions 66 and 67 of the above- May be arranged along the rotation direction A1.

The central portions 66a and 67a of the inlet portions 66 and 67 and the central portions 66a and 67a are located at one side of the predetermined direction A2 from the central portions 66a and 67a, The lower portions 66c and 67c located at the lower side and the upper portions 66b and 67b located at the other side in the predetermined direction A2 from the central portions 66a and 67a and located above the central portions 66a and 67a in the rotational direction A1 do.

The lower portion 66c of the upper inlet portion 66 and the upper portion 67b of the lower inlet portion 67 are arranged so as to be arranged on one side and the other side in the predetermined direction A2 The lower side portion 66c of the upper drawing portion 66 and the upper side portion 67b of the lower drawing portion 67 are overlapped in the range B3 when viewed from the predetermined direction A2.

In this case, in FIG. 11, the entirety of the inlet portions 66 and 67 may be configured to slightly diagonally cross the rotation direction A1.

The central portions 66a and 67a of the inlet portions 66 and 67 are formed to be slightly obliquely intersected with respect to the rotational direction A1 and the upper portions 66b and 67b of the inlet portions 66 and 67, (66c, 67c) may be configured to be parallel to the rotation direction A1.

[Second embodiment of the invention]

As shown in Fig. 12, instead of the inlet portions 66 and 67 of the first embodiment of the present invention described above, the inlet portion 66 67 are provided along the predetermined direction A2 and the positions of the inserting portions 66, 67 in the inserting portions 66, 67 of the adjacent rows L1, L2 are arranged along the rotating direction A1 Or may be configured to be shifted.

The central portions 66a and 67a and the upper portions 66b and 67b and the lower portions 66c and 67c of the inlet portions 66 and 67 are arranged in the rotational direction A1 .

The lower portion 66c of the upper drawing portion 66 positioned in one row L1 and the upper portion 67b of the lower drawing portion 67 located in the adjacent row L2 are arranged on one side and the other side in the predetermined direction A2 . The lower side portion 66c of the upper drawing portion 66 of one row L1 and the upper side portion 67b of the lower drawing portion 67 of the adjacent row L2 overlap in the range B3 when viewed from the predetermined direction A2.

In this case, in Fig. 12, the columns l1 and L2 of the lead-in portions 66 and 67 may be composed of three or more rows.

In Fig. 12, the inlet portions 66 and 67 may be configured to slightly diagonally cross the rotation direction A1. The inlet portions 66 and 67 of the rows L1 and L2 may be parallel to each other and the inlet portions 66 and 67 of the rows L1 and L2 may be parallel to each other , 67 may be configured such that the inclination with respect to the rotational direction A1 is opposite to each other.

[Third embodiment of the invention]

Instead of the feed roll 60 and the inlet portions 66 and 67 of the second embodiment of the present invention, as shown in Figs. 13 and 14, It may be configured as shown in Fig.

As shown in Figs. 13 and 14, a disk-shaped rotary body 70 rotatably driven about the vertical rotation axis P4 of the fixed support plate 69 is provided, and the rotary body 70, which penetrates in the vertical direction of the rotary body 70 The rotating body 70 is provided with inlet portions 66 and 67 having a long hole shape.

A rotating direction A1 of the rotating body 70 and a predetermined direction A2 (rotating body 70) perpendicular to the rotating direction A1 along the surface 70a of the rotating body 70 (corresponding to the surface of the rotating body on which the drawing portion is formed) In the radial direction of the rotor).

As shown in Fig. 13, a plurality of horizontally long inlet portions 66 and 67 are arranged in the rotational direction A1, and the inlet portions 66 and 67 are inclined at an angle with respect to the rotational direction A1 and the predetermined direction A2 Respectively.

The lower portions 66c and 67c located below the central portions 66a and 67a and the lower portions 66a and 67a located below the rotation portions A1 in the inlet portions 66 and 67 and the rotation portions A1 And upper side portions 66b and 67b located above the upper side portions 66a and 67b.

13, the lower portion 66c of the upper drawing portion 66 and the lower drawing portion 66 of the lower drawing portion 66 of the adjacent rotation direction A1 and the lower drawing portion 67 of the rotation direction A1 And the upper side portion 67b of the lower drawing portion 67 are arranged on one side and the other side in the predetermined direction A2.

The lower side portion 66c of the upper inlet portion 66 and the upper side portion 67b of the lower inlet portion 67 are spaced apart from one side and the other side in the predetermined direction A2, .

More specifically, in the upper pulling-in portion 66 of the adjacent rotation direction A1 and the lower pulling-in portion 67 of the rotation direction A1, the central portions 66a and 67a, the central portions 66a and 67a, (Radially outer side) in the predetermined direction A2 from the lower portions 66c and 67c located at one side (radially inward) and lower than the central portions 66a and 67a in the rotation direction A1 and the central portions 66a and 67a And upper portions 66b and 67b located above the central portions 66a and 67a in the rotational direction A1 are provided.

13, when viewed from the predetermined direction A2, the lower inlet portion 66 of the adjacent rotation direction A1 and the lower inlet portion 67 of the rotation direction A1 are located at the lower side of the upper inlet portion 66, And the upper side portion 67b of the lower inlet portion 67 are overlapped in the range B3.

The outlet 33a of the hopper 33 is provided so as to abut the surface 70a of the rotating body 70 and the outlet 33a of the hopper 33 is provided in the supporting plate 69, Shaped opening portion 69a (corresponding to the discharge position) parallel to the predetermined direction A2 is provided at a position apart from the portion 33a. The opening 69a of the support plate 69 is connected to the hose 36 shown in Fig. 2 and is connected to the production machine 35 through the hose 36. Fig.

13 and 14, the rotating body 70 is rotationally driven in the rotating direction A1 so that the inlet portions 66 and 67 reach the outlet portion 33a of the hopper 33 The medicine is drawn into the inlet portions 66 and 67 and the medicine corresponding to the volume of the inlet portions 66 and 67 is discharged from the inlet portion 66 by the action of the floatation of the outlet portion 33a of the hopper 33 , 67).

13 and 14, when the rotating body 70 is rotationally driven in the rotating direction A1, in the upper pull-in portion 66 in the adjacent rotation direction A1 and the lower pull-in portion 67 in the rotation direction A1 And the lower side portion 67c of the lower draw portion 67 reaches the opening 69a of the support plate 69 and the medicine comes out from the lower side portion 67c of the lower draw portion 67, (69a).

13 and 14, the central portion 67a of the lower draw-in portion 67 reaches the opening 69a of the support plate 69 and the central portion 67a of the lower draw- The upper portion 67b of the lower inlet 67 reaches the opening 69a of the support plate 69 and the upper portion 67b of the lower inlet 67 reaches the opening 69a of the lower inlet 67, The medicine is discharged from the side portion 67b and enters the opening 69a of the support plate 69.

In this case, as viewed from the predetermined direction A2, the lower portion 66c of the upper drawing portion 66 and the upper portion 67b of the lower drawing portion 67 overlap in the range B3 as shown in Fig. 13 have.

13 and 14, when the upper side portion 67b of the lower draw portion 67 reaches the opening 69a of the support plate 69, the lower side portion of the upper draw portion 66 66c reach the opening 69a of the supporting plate 69. The medicine is discharged from the upper side portion 67b of the lower drawing portion 67 and enters the opening 69a of the supporting plate 69, The medicine is discharged from the lower side portion 66c of the inlet portion 66 and enters the opening 69a of the support plate 69. [

[Fourth embodiment of the invention]

As shown in Fig. 15, in the upper pull-in portion 66 of the adjacent rotation direction A1 and the lower pull-in portion 67 of the rotation direction A1 of the aforementioned [embodiment of the present invention] The lower portion 66c of the upper drawing portion 66 and the upper portion 67b of the lower drawing portion 67 may be located at the same position (the line L3 parallel to the predetermined direction A2) .

The lower portion 66c of the upper inlet 66 and the upper portion 67b of the lower inlet 67 do not overlap with each other at the same position Is located in a line L3 which is parallel to the above-mentioned [L3]) may be applied to the above-described first another embodiment of the invention, second another embodiment of the invention, third another embodiment of the invention.

[Fifth Embodiment of the Invention]

The first and second embodiments of the present invention are the same as those of the first and second embodiments, The upper portions 66b and 67b and the lower portions 66c and 67c of the inlet portions 66 and 67 are formed to have a depth greater than the depth of the central portions 66a and 67a of the inlet portions 66 and 67, As shown in Fig.

In the inlet portions 66 and 67 of the first and second embodiments of the present invention described above and the inlet portions 66 and 67 The widths of the upper portions 66b and 67b and the lower portions 66c and 67c of the inlet portions 66 and 67 may be larger than the width of the central portions 66a and 67a.

The volume of the upper portions 66b and 67b of the inlet portions 66 and 67 can be set larger than the volume of the central portions 66a and 67a of the inlet portions 66 and 67, The volume of the lower portions 66c and 67c of the inlet portions 66 and 67 can be set larger than the volume of the central portions 66a and 67a of the inlet portions 66 and 67. [

The present invention can be applied not only to a chemical feeder but also to a fertilizer (corresponding to a granular material for agricultural use), a fertilizer for feeding rice (equivalent to agricultural fine particles) or a seeding machine (corresponding to agricultural fine particles) Can be applied.

33: Storage section
33a: outlet portion of the storage portion
60, 70: rotating body
60a, 70a: a face of the rotating body having a closed mouth part
66, 67:
66a, 67a: a central portion of the inlet
66b, 67b: an upper portion
66c, 67c: a lower portion of the inlet portion
68a, 69a: Release position
A1: Direction of rotation
A2: In a predetermined direction
L1, L2: heat of inlet

Claims (6)

A storage section for storing the granular material for agricultural use, and a rotating body rotated and driven,
A plurality of inlet portions into which the powder is introduced are arranged in the rotating body in the rotating direction of the rotating body,
When the inlet portion reaches the outlet portion of the storage portion with the rotation of the rotary body, the powder enters the inlet portion from the storage portion, and when the inlet portion reaches the discharge position, And,
A lower portion located below the center portion in the rotation direction and an upper portion located above the center portion in the rotation direction,
In the inlet portion above the adjacent rotation direction and the inlet portion below the rotation direction,
The lower portion of the upper inlet portion and the upper portion of the lower inlet portion are arranged on one side and the other side in a predetermined direction perpendicular to the rotational direction along the surface of the rotating body on which the inlet portion is formed , A powder supply device. 2. The apparatus according to claim 1, wherein the inlet portion is disposed so as to cross obliquely with respect to the rotation direction,
A lower portion located on the other side of the predetermined direction from the center portion and located in the rotation direction with respect to the center portion; And the upper portion located at the upper side of the direction,
Wherein the lower portion of the upper inlet portion and the upper portion of the lower inlet portion are arranged on one side and the other side in the predetermined direction. 2. The apparatus according to claim 1, wherein the inlet portion is formed in a crank shape,
A lower portion located on the other side of the predetermined direction from the center portion and located in the rotation direction with respect to the center portion; And the upper portion located at the upper side of the direction,
Wherein the lower portion of the upper inlet portion and the upper portion of the lower inlet portion are arranged on one side and the other side in the predetermined direction. 2. The apparatus according to claim 1, wherein a plurality of rows of the inlet portions arranged along the rotation direction are provided along the predetermined direction, and in the inlet portion of adjacent rows, the inlet portion is displaced along the rotational direction,
Wherein the lower portion of the inlet portion located on one row and the upper portion of the lower inlet portion located on the adjacent row are arranged on one side and the other side in the predetermined direction. The powder supplying device according to any one of claims 1 to 4, wherein the lower portion of the upper inlet portion overlaps with the upper portion of the lower inlet portion when viewed from the predetermined direction. The inflator according to any one of claims 1 to 4, wherein the volume of the upper portion of the inlet portion is set to be larger than the volume of the center portion of the inlet portion, and the volume of the lower portion of the inlet portion is set to be larger than the volume of the center portion of the inlet portion Is set to be larger than a predetermined value.

Images