CN105309080B - Planting and seeding series working machine - Google Patents

Abstract

The present invention provides a planting series working machine capable of rationalizing the arrangement mode related to an auxiliary working lamp, comprising: a body frame (16); a preliminary seedling frame (40) supported on the body frame (16); a hood (22) positioned on the upper side of the machine body frame (16); a headlight (23) provided to the hood (22); an auxiliary operation lamp (42) different from the headlight (23); and a support member (53) that is supported by the preliminary seedling frame (40) and supports the auxiliary work lamp (42), wherein the support member (53) covers the lateral outer side of the auxiliary work lamp (42).

Description

Planting and seeding series working machine

Technical Field

The present invention relates to a planting-seeding series working machine such as a rice transplanter for planting seedlings in a paddy field and a direct seeder for seeding seeds in a paddy field.

Background

[ background art 1]

For example, patent document 1 below describes a conventional planting-series working machine ("riding type rice transplanter" in patent document 1). The planter work machine described in patent document 1 includes: a body frame (in patent document 1, "body frame 8"); a supporting frame supported on the body frame; a hood (hood 13 in patent document 1) located on the upper side of the body frame; a headlamp provided to the hood; and an auxiliary work lamp (an auxiliary work lamp 71 in patent document 1) different from the headlamp.

By irradiating the light with the auxiliary work lamp, visibility of the periphery of the planter work machine can be improved.

[ background art 2]

For example, patent document 2 below describes a conventional planting-series working machine (in patent document 2, "riding type rice transplanter"). The planter work machine described in patent document 2 includes: a body frame (in patent document 2, "vehicle body frame 20"); and a riding step (in patent document 2, "cab step 30") supported by the body frame. For riding steps, the following are provided: a main step portion (in patent document 2, "main step 31") located on the upper side of the body frame; and an extended stepped portion (in patent document 2, "extended step 35") located on the lateral outer edge portion side of the main stepped portion. The expanded step portion is formed in a lattice shape by a plurality of first portions extending in a linear shape in a first predetermined direction and a plurality of second portions extending in a linear shape in a second predetermined direction intersecting the first predetermined direction.

By forming the stepped expansion portion in a lattice shape in this manner, visibility to the lower side of the stepped expansion portion can be ensured, and rainwater and the like can be prevented from accumulating in the stepped expansion portion.

Patent document 1: japanese patent laid-open publication No. 2013-70658 (FIGS. 1 and 2)

Patent document 2: japanese laid-open patent publication No. 2013-208084 (FIG. 9)

Disclosure of Invention

Problems to be solved by the invention

[ problem 1 to be solved by the invention ]

In the conventional technique as described in [ background art 1] above, since the outer periphery of the auxiliary work lamp is exposed, the auxiliary work lamp is exposed to the obstacle approaching from the outside of the body. Therefore, there is room for further rationalization of the arrangement of the auxiliary operation lamp.

In view of the above, it is desirable to provide a planting work machine capable of rationalizing the arrangement of auxiliary work lights.

[ problem 2 to be solved by the invention ]

In the conventional technique as described in [ background art 2] above, the height of the upper surface of each second portion in the extended step portion is set to be lower than the height of the upper surface of each first portion, and the sole portion of the operator who is placed on the extended step portion exclusively contacts the upper surface of each first portion extending in the first predetermined direction. Therefore, a slight difference is generated in the anti-slip effect in the expanded step portion depending on the direction.

In view of the above, it is desirable to provide a planter work machine capable of uniformizing the anti-slip effect in the extended step portion.

Means for solving the problems

In order to solve the above [ problem 1 to be solved by the present invention ], a planter work machine according to claim 1 of the present invention comprises: a machine body frame; a support frame supported on the body frame; a hood located at an upper side of the body frame; a headlamp provided to the hood; an auxiliary work light different from the head light; and a support member supported by the support frame and supporting the auxiliary operation lamp, the support member covers the lateral outer side of the auxiliary operation lamp, and is provided with a connecting mechanism for connecting the auxiliary operation lamp and the support member, so that the auxiliary operation lamp can change the direction relative to the support frame, the support frame is a preliminary seedling frame for supporting a plurality of layers of preliminary seedling platforms at the transverse outer side part of the machine body frame, the auxiliary operation lamp is positioned at a height approximately same as the height of the head lamp and is provided with a riding step supported on the machine body frame, the auxiliary operation lamp is positioned at the transverse outer side of the boarding step, the auxiliary operation lamp is positioned at the lower side of the preparation seedling platform at the lowest layer in the multiple layers of preparation seedling platforms, an electric wiring connected with the auxiliary operation lamp is arranged, and the electric wiring is arranged through the inner part of the preparation seedling frame.

According to the invention of claim 1, the auxiliary work lamp is different from the headlamp of the hood provided on the upper side of the machine body frame. The auxiliary operation lamp is supported on the support frame of the machine body frame through a support member, and the lateral outer side of the auxiliary operation lamp is covered by the support member. Thus, even if an obstacle approaches the auxiliary operation lamp from the outside, the auxiliary operation lamp can be protected by the support member, thereby avoiding damage to the auxiliary operation lamp. Thus, the invention can rationalize the arrangement mode of the auxiliary operation lamp.

Further, since the direction of the auxiliary work lamp connected to the support member by the connection mechanism can be freely changed, the optical axis of the light irradiated by the auxiliary work lamp can be freely adjusted according to the work situation.

Further, since the preliminary seedling frame is used as a support frame for supporting a support member for supporting and protecting the auxiliary work lamp, the auxiliary work lamp can be appropriately supported and protected while effectively utilizing the existing structure.

Further, since the auxiliary task lamp is located at substantially the same height as the head lamp, the irradiation height of the light of the head lamp and the irradiation height of the light of the auxiliary task lamp can be aligned. Here, the work assistance lamp is located at a height substantially equal to the height of the headlamp, and at least a part of the work assistance lamp and a part of the headlamp need only be located on the same horizontal plane, including a case where the heights of the work assistance lamp and the headlamp are slightly different.

Further, since the auxiliary work light is located laterally outside the boarding step on which the operator boards, the auxiliary work light does not interfere with the movement of the operator on the boarding step.

In addition, since the auxiliary operation lamp is positioned below the lowermost preliminary seedling stage, the auxiliary operation lamp does not interfere with the operation of moving the seedling in and out on the preliminary seedling stage.

Further, since the electric wiring connected to the auxiliary work lamp is disposed through the inside of the preliminary seedling stage, the electric wiring can be protected by the preliminary seedling frame, and the appearance can be improved by suppressing the exposure of the electric wiring to the outside.

In order to solve the above [ problem 1 to be solved by the present invention ], a planter work machine according to claim 2 of the present invention comprises: a machine body frame; a support frame supported on the body frame; a hood located at an upper side of the body frame; a headlamp provided to the hood; an auxiliary work light different from the head light; and a support member supported by the support frame and supporting the auxiliary operation lamp, wherein the support member covers the lateral outer side of the auxiliary operation lamp, a connection mechanism connecting the auxiliary operation lamp and the support member is arranged to enable the auxiliary operation lamp to change the direction relative to the support member, the support frame is a prepared seedling frame supporting a plurality of layers of prepared seedling platforms at the lateral outer side part of the machine body frame, the auxiliary operation lamp is positioned at the height which is approximately the same as the height of the headlamp, a boarding step supported on the machine body frame is arranged, the auxiliary operation lamp is positioned at the lateral outer side of the boarding step, and the auxiliary operation lamp is positioned at the lower side of the prepared seedling platform at the lowest layer in the plurality of layers of prepared seedling platforms.

According to the invention of claim 2, the auxiliary work lamp is different from the headlamp of the hood provided on the upper side of the body frame. The auxiliary operation lamp is supported on the support frame of the machine body frame through a support member, and the lateral outer side of the auxiliary operation lamp is covered by the support member. Thus, even if an obstacle approaches the auxiliary operation lamp from the outside, the auxiliary operation lamp can be protected by the support member, thereby avoiding damage to the auxiliary operation lamp. Thus, the invention can rationalize the arrangement mode of the auxiliary operation lamp.

Further, since the direction of the auxiliary work lamp connected to the support member by the connection mechanism can be freely changed, the optical axis of the light irradiated by the auxiliary work lamp can be freely adjusted according to the work situation.

Further, since the preliminary seedling frame is used as a support frame for supporting a support member for supporting and protecting the auxiliary work lamp, the auxiliary work lamp can be appropriately supported and protected while effectively utilizing the existing structure.

Further, since the auxiliary task lamp is located at substantially the same height as the head lamp, the irradiation height of the light of the head lamp and the irradiation height of the light of the auxiliary task lamp can be aligned. Here, the work assistance lamp is located at a height substantially equal to the height of the headlamp, and at least a part of the work assistance lamp and a part of the headlamp need only be located on the same horizontal plane, including a case where the heights of the work assistance lamp and the headlamp are slightly different.

Further, since the auxiliary work light is located laterally outside the boarding step on which the operator boards, the auxiliary work light does not interfere with the movement of the operator on the boarding step.

In addition, since the auxiliary operation lamp is positioned below the lowermost preliminary seedling stage, the auxiliary operation lamp does not interfere with the operation of moving the seedling in and out on the preliminary seedling stage.

In order to solve the above [ problem 1 to be solved by the present invention ], a planter work machine according to claim 3 of the present invention comprises: a machine body frame; a support frame supported on the body frame; a hood located at an upper side of the body frame; a headlamp provided to the hood; an auxiliary work light different from the head light; and a support member supported on the support frame and supporting the auxiliary operation lamp, wherein the support member covers the lateral outer side of the auxiliary operation lamp, a connecting mechanism for connecting the auxiliary operation lamp and the support member is arranged so that the auxiliary operation lamp can change the direction relative to the support member, the support frame is a prepared seedling frame for supporting a plurality of layers of prepared seedling platforms at the lateral outer side part of the machine body frame, the auxiliary operation lamp is positioned at the height which is approximately the same as the height of the head lamp, a boarding step supported on the machine body frame is arranged, and the auxiliary operation lamp is positioned at the lateral outer side of the boarding step.

According to the invention of claim 3, the auxiliary work lamp is different from the headlamp of the hood provided on the upper side of the body frame. The auxiliary operation lamp is supported on the support frame of the machine body frame through a support member, and the lateral outer side of the auxiliary operation lamp is covered by the support member. Thus, even if an obstacle approaches the auxiliary operation lamp from the outside, the auxiliary operation lamp can be protected by the support member, thereby avoiding damage to the auxiliary operation lamp. Thus, the invention can rationalize the arrangement mode of the auxiliary operation lamp.

Further, since the direction of the auxiliary work lamp connected to the support member by the connection mechanism can be freely changed, the optical axis of the light irradiated by the auxiliary work lamp can be freely adjusted according to the work situation.

Further, since the preliminary seedling frame is used as a support frame for supporting a support member for supporting and protecting the auxiliary work lamp, the auxiliary work lamp can be appropriately supported and protected while effectively utilizing the existing structure.

Further, since the auxiliary task lamp is located at substantially the same height as the head lamp, the irradiation height of the light of the head lamp and the irradiation height of the light of the auxiliary task lamp can be aligned. Here, the work assistance lamp is located at a height substantially equal to the height of the headlamp, and at least a part of the work assistance lamp and a part of the headlamp need only be located on the same horizontal plane, including a case where the heights of the work assistance lamp and the headlamp are slightly different.

Further, since the auxiliary work light is located laterally outside the boarding step on which the operator boards, the auxiliary work light does not interfere with the movement of the operator on the boarding step.

In order to solve the above [ problem 1 to be solved by the present invention ], a planter work machine according to claim 4 of the present invention comprises: a machine body frame; a support frame supported on the body frame; a hood located at an upper side of the body frame; a headlamp provided to the hood; an auxiliary work light different from the head light; and a support member supported by the support frame and supporting the auxiliary operation lamp, the support member covering a lateral outer side of the auxiliary operation lamp, a connection mechanism connecting the auxiliary operation lamp and the support member is provided so that the auxiliary operation lamp can change its orientation with respect to the support member, the support frame is a preliminary seedling frame supporting a plurality of preliminary seedling stages at a lateral outer side portion of the machine body frame, the auxiliary operation lamp is located at a height substantially equal to a height of the head lamp, and the support member includes: an upper support member extending laterally outward from the support frame; a longitudinal support member crossing the upper support member and extending in a longitudinal direction; and a lower support member extending laterally inward from the longitudinal support member toward the support frame, the auxiliary task lamp being covered around a laterally outer side thereof by the support frame, the upper support member, the longitudinal support member, and the lower support member.

According to the invention of claim 4, the auxiliary work lamp is different from the headlamp of the hood provided on the upper side of the body frame. The auxiliary operation lamp is supported on the support frame of the machine body frame through a support member, and the lateral outer side of the auxiliary operation lamp is covered by the support member. Thus, even if an obstacle approaches the auxiliary operation lamp from the outside, the auxiliary operation lamp can be protected by the support member, thereby avoiding damage to the auxiliary operation lamp. Thus, the invention can rationalize the arrangement mode of the auxiliary operation lamp.

Further, since the direction of the auxiliary work lamp connected to the support member by the connection mechanism can be freely changed, the optical axis of the light irradiated by the auxiliary work lamp can be freely adjusted according to the work situation.

Further, since the preliminary seedling frame is used as a support frame for supporting a support member for supporting and protecting the auxiliary work lamp, the auxiliary work lamp can be appropriately supported and protected while effectively utilizing the existing structure.

Further, since the auxiliary task lamp is located at substantially the same height as the head lamp, the irradiation height of the light of the head lamp and the irradiation height of the light of the auxiliary task lamp can be aligned. Here, the work assistance lamp is located at a height substantially equal to the height of the headlamp, and at least a part of the work assistance lamp and a part of the headlamp need only be located on the same horizontal plane, including a case where the heights of the work assistance lamp and the headlamp are slightly different.

In order to solve the above [ problem 1 to be solved by the present invention ], a planter work machine according to claim 5 of the present invention comprises: a machine body frame; a support frame supported on the body frame; a hood located at an upper side of the body frame; a headlamp provided to the hood; an auxiliary work light different from the head light; and a support member supported by the support frame and supporting the auxiliary operation lamp, the support member covering a lateral outer side of the auxiliary operation lamp, a connection mechanism connecting the auxiliary operation lamp and the support member is provided so that the auxiliary operation lamp can change an orientation with respect to the support member, the support frame is a preliminary seedling frame supporting a plurality of layers of preliminary seedling stages at a lateral outer side portion of the body frame, and the support member includes: an upper support member extending laterally outward from the support frame; a longitudinal support member crossing the upper support member and extending in a longitudinal direction; and a lower support member extending laterally inward from the longitudinal support member toward the support frame, the auxiliary task lamp being covered around a laterally outer side thereof by the support frame, the upper support member, the longitudinal support member, and the lower support member.

According to the invention of claim 5, the auxiliary work lamp is different from the headlamp of the hood provided on the upper side of the body frame. The auxiliary operation lamp is supported on the support frame of the machine body frame through a support member, and the lateral outer side of the auxiliary operation lamp is covered by the support member. Thus, even if an obstacle approaches the auxiliary operation lamp from the outside, the auxiliary operation lamp can be protected by the support member, thereby avoiding damage to the auxiliary operation lamp. Thus, the invention can rationalize the arrangement mode of the auxiliary operation lamp.

Further, since the direction of the auxiliary work lamp connected to the support member by the connection mechanism can be freely changed, the optical axis of the light irradiated by the auxiliary work lamp can be freely adjusted according to the work situation.

Further, since the preliminary seedling frame is used as a support frame for supporting a support member for supporting and protecting the auxiliary work lamp, the auxiliary work lamp can be appropriately supported and protected while effectively utilizing the existing structure.

In order to solve the above [ problem 1 to be solved by the present invention ], a planter work machine according to claim 6 of the present invention comprises: a machine body frame; a support frame supported on the body frame; a hood located at an upper side of the body frame; a headlamp provided to the hood; an auxiliary work light different from the head light; and a support member supported by the support frame and supporting the auxiliary operation lamp, the support member covering a lateral outer side of the auxiliary operation lamp, and a connection mechanism connecting the auxiliary operation lamp and the support member so that the auxiliary operation lamp can change its orientation with respect to the support member, the support member including: an upper support member extending laterally outward from the support frame; a longitudinal support member crossing the upper support member and extending in a longitudinal direction; and a lower support member extending laterally inward from the longitudinal support member toward the support frame, the auxiliary task lamp being covered around a laterally outer side thereof by the support frame, the upper support member, the longitudinal support member, and the lower support member.

According to the invention of claim 6, the auxiliary work lamp is different from the headlamp of the hood provided on the upper side of the body frame. The auxiliary operation lamp is supported on the support frame of the machine body frame through a support member, and the lateral outer side of the auxiliary operation lamp is covered by the support member. That is, the support member has both a support function of the auxiliary task lamp and a protection function of the auxiliary task lamp. Thus, even if an obstacle approaches the auxiliary operation lamp from the outside, the auxiliary operation lamp can be protected by the support member, thereby avoiding damage to the auxiliary operation lamp. Thus, the invention can rationalize the arrangement mode of the auxiliary operation lamp.

Further, since the direction of the auxiliary work lamp connected to the support member by the connection mechanism can be freely changed, the optical axis of the light irradiated by the auxiliary work lamp can be freely adjusted according to the work situation.

In order to solve the above [ problem 1 to be solved by the present invention ], a planter work machine according to claim 7 of the present invention comprises: a machine body frame; a support frame supported on the body frame; a hood located at an upper side of the body frame; a headlamp provided to the hood; an auxiliary work light different from the head light; and a support member supported by the support frame and supporting the auxiliary work lamp, the support member covering a lateral outer side of the auxiliary work lamp, the support member including: an upper support member extending laterally outward from the support frame; a longitudinal support member crossing the upper support member and extending in a longitudinal direction; and a lower support member extending laterally inward from the longitudinal support member toward the support frame, the auxiliary task lamp being covered around a laterally outer side thereof by the support frame, the upper support member, the longitudinal support member, and the lower support member.

According to the invention of claim 7, the auxiliary work lamp is different from the headlamp of the hood provided on the upper side of the body frame. The auxiliary operation lamp is supported on the support frame of the machine body frame through a support member, and the lateral outer side of the auxiliary operation lamp is covered by the support member. That is, the support member has both a support function of the auxiliary task lamp and a protection function of the auxiliary task lamp. Thus, even if an obstacle approaches the auxiliary operation lamp from the outside, the auxiliary operation lamp can be protected by the support member, thereby avoiding damage to the auxiliary operation lamp. Thus, the invention can rationalize the arrangement mode of the auxiliary operation lamp.

In order to solve the above [ problem 2 to be solved by the present invention ], a planting work machine according to claim 8 of the present invention includes: a machine body frame; and a boarding step supported on the machine body frame, the boarding step having: a main step part located on the upper side of the machine body frame; and an expanded stepped portion located on a lateral outer edge portion side of the main stepped portion, the expanded stepped portion being configured in a lattice shape by a plurality of first portions and a plurality of second portions, the plurality of first portions being linear portions extending in a first predetermined direction, the plurality of second portions being linear portions extending in a second predetermined direction intersecting the first predetermined direction, a height of an upper surface of each of the second portions being set lower than a height of an upper surface of each of the first portions, convex portions protruding upward from the upper surface of the second portions in a state of being separated from the first portions being provided at positions between the first portions, respectively, and the convex portions being formed in a circular shape in plan view.

According to the invention of claim 8, the expanded step portion is formed in a lattice shape by the plurality of first portions and the plurality of second portions in the riding step supported by the body frame. The height of the upper surface of each second portion is set lower than the height of the upper surface of each first portion. In particular, each of the second portions has a plurality of projections projecting upward on the upper surface thereof. Since these convex portions protrude upward from the upper surface of the second portion at the portion between the first portions, the convex portions are easily caught by the sole portion when the sole is slid in the first predetermined direction on the extending step. Further, since the convex portions protrude upward from the upper surface of the second portion in a state where the first portion is separated, the convex portions are easily caught by the sole portion when the sole portion is slid in the second predetermined direction on the extension step. That is, the anti-slip effect in the first predetermined direction and the anti-slip effect in the second predetermined direction can be improved by the convex portion. Thus, the present invention can uniformize the anti-slip effect of the expanded step portion.

Further, since each convex portion is formed in a circular shape in plan view, even if the sole portion slides in one direction in the upper surface of the extension step, the same hooking force can be applied to the sole portion by the convex portion. Thus, the difference in the anti-slip effect in the extension step caused by the direction can be made smaller.

In order to solve the above [ problem 2 to be solved by the present invention ], a planter work machine according to claim 9 of the present invention comprises: a machine body frame; and a boarding step supported on the machine body frame, the boarding step having: a main step part located on the upper side of the machine body frame; and an expanded stepped portion located on a lateral outer edge portion side of the main stepped portion, the expanded stepped portion being configured in a lattice shape by a plurality of first portions and a plurality of second portions, the plurality of first portions being linear portions extending in a first predetermined direction, the plurality of second portions being linear portions extending in a second predetermined direction intersecting the first predetermined direction, a height of an upper surface of each of the second portions being set lower than a height of an upper surface of each of the first portions, and convex portions protruding upward from the upper surface of each of the second portions in a state of being separated from the first portions being provided at positions between the first portions.

According to the invention of claim 9, the expanded step portion is formed in a lattice shape by the plurality of first portions and the plurality of second portions in the riding step supported by the body frame. The height of the upper surface of each second portion is set lower than the height of the upper surface of each first portion. In particular, each of the second portions has a plurality of projections projecting upward on the upper surface thereof. Since these convex portions protrude upward from the upper surface of the second portion at the portion between the first portions, the convex portions are easily caught by the sole portion when the sole is slid in the first predetermined direction on the extending step. Further, since the convex portions protrude upward from the upper surface of the second portion in a state of being separated from the first portion, the convex portions are easily caught by the ball portion when the ball portion is slid in the second predetermined direction on the extension step. That is, the anti-slip effect in the first predetermined direction and the anti-slip effect in the second predetermined direction can be improved by the convex portion. Thus, the present invention can uniformize the anti-slip effect of the expanded step portion.

Drawings

Fig. 1 is a left side view of the riding rice transplanter.

Fig. 2 is a plan view of the riding rice transplanter.

FIG. 3 is a front view of the left half of the riding rice transplanter and the periphery of the auxiliary operating lamp.

Fig. 4 is a top view of the extension step.

Fig. 5 is a partial perspective view of the extension step.

Fig. 6 is a cross-sectional view VI-VI in fig. 4.

Fig. 7 is a perspective view of the periphery of the upper and lower steps.

Fig. 8 is a front view of the periphery of the auxiliary task lamp according to another embodiment.

Description of the symbols

16: frame of machine body

22: hood

23: front shining lamp

28: boarding step

30: major step part

31: expanding step part

40: seedling preparing frame (supporting frame)

41: prepare seedling platform

42. 100, and (2) a step of: auxiliary operation lamp

53: supporting member

65: electrical wiring

70: the first part

70 a: the upper surface of the first part

71: the second part

71 a: upper surface of the second part

73: convex part

A1, A2: connecting mechanism

D1: a first prescribed direction

D2: a second predetermined direction

Detailed Description

An embodiment of an example of the present invention will be described below with reference to the drawings.

As shown in fig. 1 and 2, a traveling body of a riding rice transplanter (an example of a "work machine of a planter series" which is a kind of a paddy field working machine) is configured to be a self-propelled type including front wheels 10 and rear wheels 11 as traveling devices. The traveling machine body of the riding rice transplanter comprises: a seedling planting device 12; a power section 13; a driver section 14; and left and right preliminary seedling placing sections 15. The power unit 13 and the driver unit 14 are located on the body frame 16.

The seedling planting device 12 is located at the rear side of the walking machine body. The seedling planting device 12 is connected with a machine body frame 16 of the walking machine body through a connecting rod mechanism 17 with a parallel four-connecting-rod structure. The seedling planting device 12 is configured to be movable up and down with respect to the machine frame 16 by lifting and lowering the link mechanism 17 by the hydraulic cylinder 18 for lifting and lowering drive.

The seedling planting device 12 is configured to, for example, eight-row planting standards. In this case, the seedling planting device 12 has: a seedling placing table 12a for placing eight rows of seedlings; eight planting mechanisms 12 b; and five land preparation trowels 12 c. The seedling planting device 12 is configured to plant seedlings taken out from the seedling bed 12a into a field by the planting mechanisms 12b, and to level the field with the leveling trowels 12c as the traveling machine body travels.

The power unit 13 is located on the front side of the traveling machine body. The power unit 13 includes an engine 21 supported by a mount frame 20 at a front end of the body frame 16. The engine 21 is covered by a hood 22. The hood 22 is located at an upper side of the body frame 16. A pair of right and left headlamps 23 arranged in the transverse direction of the machine body is provided at the front end of the hood 22.

The driver unit 14 includes: a driver seat 25 on which an operator sits; a steering wheel 26 for steering; an operation lever 27 for performing a shift operation; and a boarding step 28 on which an operator can board. The engine 21 is disposed on the front side of the driver seat 25.

As shown in fig. 1 to 3, the riding step 28 is supported by the machine frame 16. The riding step 28 has: a main step portion 30; an expanding step portion 31; a back step 32; and a central cover portion 33. The main step portion 30, the expanded step portion 31, the rear step portion 32, and the center cover portion 33 are each formed of a separate member.

As shown in fig. 3, the main step portion 30 is located on the upper side of the mount frame 20, and the mount frame 20 is located at the front end portion of the body frame 16 on the left and right center sides of the body. As shown in fig. 2, the main step portion 30 is formed in a shape that spans both the left and right outer sides of the hood 22, the rear side of the hood 22, and the front side of the driver seat 25. The main step portion 30 extends to the front end of the body through both the left and right sides of the hood 22. The main step portion 30 is fixed to the body frame 16.

As shown in fig. 2, the expanding step portions 31 are disposed on the left and right lateral outer sides of the main step portion 30. Each of the expanded step portions 31 is formed to be detachable with respect to the left and right extension frames 35 of the body frame 16 by bolts or the like. The expanding step portions 31 are located adjacent to each other on the outer edge side in the lateral direction of the machine body of the main step portion 30. The laterally inner edge of each expanded step portion 31 is formed in a shape following the laterally outer edge shape of the main step portion 30. The front portion of the lateral outer edge of the body of each expanded step portion 31 is formed so as to be positioned inside the body from the rear toward the front. As shown in fig. 1 to 3 and 7, each of the steps 31 has an upper step 39 on the lower and laterally outer side thereof.

As shown in fig. 3, the upper surface of the main step portion 30 and the upper surface of the expanded step portion 31 are located at substantially the same height and are substantially the same plane.

As shown in fig. 2 and 3, the back step portion 32 is disposed behind the main step portion 30 and the extended step portion 31. The rear step portion 32 is located on both left and right lateral outer sides of the driver seat 25. The upper surface of the back step portion 32 is located higher than the upper surfaces of the main step portion 30 and the extended step portion 31. On both lateral outer sides of the rear step portion 32, armrests 36 supported by the body frame 16 are provided. The left and right armrests 36 are connected to each other by a bridging member 37 extending in the lateral direction.

As shown in fig. 2, the central cover portion 33 is located rearward of the main step portion 30. The central cover portion 33 is located in a region surrounded by the main step portion 30 and the rear step portion 32. The center cover portion 33 covers the upper side of the support base portion of the driver seat 25 and the lateral side of the support base portion.

As can be understood from fig. 2 and 3, in the boarding step 28 configured as described above, the operator can vertically move the step portion 31 or the main step portion 30 in the lateral direction by the vertical step 39 from the lateral outer side of the body, and can vertically move the step portion 30 in the front-rear direction from the distal end side of the body.

As shown in fig. 2 and 3, the left and right preliminary seedling placing sections 15 are disposed in the front of the traveling machine body, respectively. As shown in fig. 1 to 3, the preliminary seedling placing sections 15 are located on the left and right lateral outer sides of the hood 22, respectively. Each preliminary seedling placing section 15 has: a seedling frame 40 (an example of a "support frame") supported by the body frame 16; a plurality of preliminary seedling stages 41; an auxiliary work lamp 42 different from the head lamp 23; and a support 53 supported by the preliminary seedling frame 40 and supporting the auxiliary work lamp 42. That is, the auxiliary work lamp 42 and the support 53 have a pair of left and right. The preliminary seedling stages 41 are located above the expanded step portions 31, respectively.

As shown in fig. 1 and 3, the preliminary seedling frame 40 is supported by the body frame 16. The prepared seedling frame 40 has: a tubular front pillar 45; and a tubular rear pillar 46 located rearward of the front pillar 45.

As shown in fig. 3, the front pillar 45 is detachably attached to the body lateral outer end portion of the lateral extension member 47 by a bolt via a front bracket 48, and the lateral extension member 47 extends laterally outward from the support frame 20 in the body frame 16. The laterally extending member 47 is formed in the following shape: the support frame 20 extends straight outward in the lateral direction, bends upward, and then inclines upward from the inner side in the lateral direction of the machine body to the outer side in the lateral direction of the machine body. The front pillar 45 extends obliquely upward from the body laterally inward toward the body laterally outward, then bends upward, extends upward, bends rearward near the upper end, and has a rear end connected to the rear pillar 46.

As shown in fig. 1, the rear stays 46 are disposed rearward of the front stays 45. The rear stay 46 is fixed to the body lateral outer edge portion of the extension frame 35 in the body frame 16. As shown in fig. 1 and 3, the lower end portion of the rear pillar 46 is covered by a rear bracket 59, and the rear bracket 59 is connected to the extension frame 35. The rear pillar 46 extends upward and longitudinally, then bends inward in the machine body lateral direction, then extends from the machine body lateral direction outward to the machine body lateral direction inward with the upward bending, and then bends upward and extends upward and longitudinally. As shown in fig. 2, the upper end portions of the left and right rear pillars 46 are connected to each other by a lateral frame 50.

As shown in fig. 1, in each preliminary seedling placing section 15, the front support 45 and the rear support 46 are connected by a connecting member 49 extending in the front-rear direction in the vicinity of the upper-lower center portion thereof. As shown in fig. 1 and 3, in each preliminary seedling placing section 15, a plurality of stage frames 51 are connected to the front support 45 and the rear support 46. As shown in fig. 3, each frame 51 is disposed in a state of extending from the front pillar 45 and the rear pillar 46 outward in the lateral direction of the machine body. The frames 51 are arranged at equal intervals in the vertical direction. The preliminary seedling stage 41 is placed on each frame 51. In this way, the preliminary seedling frame 40 supports the multi-stage preliminary seedling table 41 at the laterally outer side portion of the body frame 16. The seedling for replenishment to the seedling stage 12a is placed on the preliminary seedling stage 41. For example, as shown in fig. 1, the number of the table frames 51 is four, and the preliminary seedling table 41 has four layers corresponding to the number of the table frames 51.

[ support Member and auxiliary work Lamp ]

As shown in fig. 1 to 3, a support 53 formed in a U-shape that opens inward in the lateral direction of the machine body when viewed from the front is fixed to the front pillar 45 of the preliminary seedling frame 40 by welding or the like. The support 53 is formed by bending a flat plate. The support 53 is located laterally outside the body of the front pillar 45 of the preliminary seedling frame 40. The front and rear surfaces of the support 53 are open. The support 53 has: a transverse lower portion 55; a longitudinal portion 57; and a transverse upper portion 58. The body lateral inner end of the lower portion 55 is connected to the buckling portion 56 of the front pillar 45, and the body lateral outer end of the lower portion 55 is connected to the lower end of the vertical portion 57. The lower portion 55 is inclined upward from the lateral inside of the body to the lateral outside of the body. The upper end of the longitudinal portion 57 is connected to the lateral outer end of the upper portion 58. The body-widthwise inner end portion of the upper portion 58 is connected to a portion above the portion where the lower portion 55 is connected in the front pillar 45.

The auxiliary task lamp 42 is supported by each of the left and right supports 53. That is, each auxiliary work lamp 42 is disposed outside the headlamp 23 in the lateral direction of the body. The auxiliary work lamps 42 are disposed on the outer side of the front pillar 45 in the lateral direction of the machine body. Since the front pillars 45 are located on the inner side of the auxiliary task lamp 42 in the lateral direction of the machine body, the auxiliary task lamp 42 can be protected by the front pillars 45, and an obstacle can be prevented from approaching the auxiliary task lamp 42 from the inner side of the lateral direction of the machine body.

As shown in fig. 2, the auxiliary work lamp 42 is disposed on the outer side in the lateral direction of the main step portion 30 and the extended step portion 31 in a plan view. That is, the auxiliary work lamp 42 is located on the main step portion 30 or is located away from the movement path of the operator moving on the extended step portion 31. Therefore, the operator can easily perform the vertical movement of the main step portion 30 from the front end of the machine body, the replenishment work of the seedling on the main step portion 30 or the extended step portion 31 to the preliminary seedling table 41, and the like.

As shown in fig. 1 to 3, the auxiliary work lamp 42 is supported by a support 53. As shown in fig. 3, the auxiliary task light 42 is located in an area enclosed by the support 53. The support 53 covers the upper, lower, and lateral outer sides of the auxiliary task lamp 42. That is, the support 53 functions as a protective member for protecting the auxiliary work lamp 42. The left and right auxiliary work lamps 42 are positioned at substantially the same height as the height of the left and right headlamps 23. The auxiliary task lamp 42 is located on the body lateral outer side of the main step portion 30 of the boarding step 28. The auxiliary work lamp 42 is located below the lowermost preliminary seedling stage 41 among the plurality of preliminary seedling stages 41. The auxiliary task lamp 42 is spaced apart from the vertical portion 57 of the support 53 in the lateral direction and spaced apart from the front pillar 45 in the lateral direction.

As shown in fig. 3, a connection mechanism a1 for connecting the auxiliary work lamp 42 and the support 53 is provided so that the auxiliary work lamp 42 can be changed in orientation with respect to the support 53. The connection mechanism a1 connects the support 53 and the auxiliary work lamp 42 such that the auxiliary work lamp 42 is rotatable about the vertical axis X. The connection mechanism a1 includes: a circular hole portion 60; an upper pin member 61; a lower bracket 62; an upper bracket 63; and a lower pin member 64. The circular hole portions 60 are opened in the left and right central portions of the upper portion 58 of the support 53. The upper pin member 61 is formed in a longitudinal direction and connected to a central portion of an upper end of the auxiliary work lamp 42. The lower bracket 62 is formed in a U-shape that opens downward, and is fixed to the upper surface of the lower portion 55 of the support 53 by welding or the like. The upper bracket 63 is formed in a U-shape that opens upward, and is fixed to the lower end of the auxiliary work lamp 42 by welding or the like. The lower pin member 64 is formed in the vertical direction and is rotatably connected to the upper bracket 63 with respect to the lower bracket 62. The lower surface of the upper bracket 63 is supported on the upper surface of the lower bracket 62. The axial center of the upper pin member 61 and the axial center of the lower pin member 64 coincide with the longitudinal axis X.

As can be understood from fig. 1 to 3, the left and right auxiliary work lamps 42 mounted in this manner are rotatable about the vertical axis X with respect to the support 53, and the irradiation direction of light can be freely changed about the vertical axis X.

As shown in fig. 3, the auxiliary task lamp 42 is connected with a harness 65 for transmitting power, signals, and the like to the auxiliary task lamp 42. A through hole 45A is opened in a portion of the front pillar 45 on the auxiliary task lamp 42 side between a portion to which the lower portion 55 of the support 53 is connected and a portion to which the upper portion 58 is connected. The harness 65 is disposed so as to pass through the through hole 45A and pass through the inside of the front pillar 45 of the preliminary seedling frame 40.

[ concrete Structure of expanded stepped portion ]

The step-expanding portion 31 shown in fig. 1 to 6 is made of a synthetic resin material. As shown in fig. 4, the stepped expansion portion 31 is formed in a lattice shape by a plurality of first portions 70 and a plurality of second portions 71, the plurality of first portions being linear extending in the first predetermined direction D1, and the plurality of second portions being linear extending in the second predetermined direction D2 intersecting the first predetermined direction D1.

As shown in fig. 6, the height of the upper surface 71a of each second portion 71 is set lower than the height of the upper surface 70a of each first portion 70. As shown in fig. 4 to 6, a convex portion 73 protruding upward from the upper surface 71a of the second portion 71 is provided at a position between the adjacent first portions 70, in a state of being separated from each first portion 70. As shown in fig. 4, each convex portion 73 is formed in a perfect circle shape in plan view.

As shown in fig. 6, each convex portion 73 protrudes above the upper surface 70a of the first portion 70. That is, the upper surface 73a of the projection 73 is higher than the upper surface 70a of the first portion 70. Since the expanded stepped portion 31 has the plurality of convex portions 73, when the sole portion of the worker slides, the sole portion is hooked on the plurality of convex portions 73, a high anti-slip effect is exhibited, and a difference in anti-slip effect due to the direction can be eliminated.

[ concrete Structure of Upper and lower Steps ]

As shown in fig. 1, 4, and 7, the upper and lower steps 39 are attached to a support bracket 74 of the extension frame 35 fixed to the machine frame 16 by fastening with fasteners 75 such as a plurality of bolts in the machine longitudinal direction. That is, the upper and lower steps 39 are detachable from the body frame 16. Thus, the upper and lower steps 39 can be easily replaced and repaired as compared with the case where the upper and lower steps 39 are fixed to the machine body frame 16 by welding or the like.

[ other embodiments ]

Next, another embodiment of the present invention will be described. The present invention is the same as the above-described embodiment except for the portions described in the following other embodiments. The above-described embodiment and the following other embodiments may be appropriately combined as long as no contradiction occurs.

(1) In the above embodiment, the electric wiring 65 for the auxiliary task lamp 42 is disposed inside the front pillar 45 of the preliminary seedling frame 40, for example, but not limited thereto. The harness 65 for the auxiliary work lamp 42 may be disposed along the periphery of the preliminary seedling frame 40.

(2) In the above embodiment, the support 53 is located above, below, and laterally outside the auxiliary task lamp 42, but is not limited thereto. Other supports covering the rear side of the auxiliary task light 42 are also possible.

(3) In the above embodiment, the auxiliary task lamp 42 is located at substantially the same height as the headlight 23, but the present invention is not limited thereto. The auxiliary work lamp may be located at a position higher than the headlight 23 or at a position lower than the headlight 23.

(4) In the above embodiment, the auxiliary task lamp 42 is supported so that the direction thereof can be changed with respect to the support 53, but the present invention is not limited thereto. Other auxiliary work lights fixed to the support 53 are also possible.

(5) In the above embodiment, the auxiliary task lamp 42 is, for example, swingable about the vertical axis X by the connection mechanism a1, but is not limited to this. For example, another auxiliary task lamp 100 may be connected and supported to the support 53 by another connection mechanism a2 shown in fig. 8. The other auxiliary task lamp 100 is the same as the auxiliary task lamp 42, and its upper side, lower side, and lateral outside of the machine body are protected by the support 53, and its lateral inside of the machine body is protected by the front pillar 45. The other connection mechanism a2 includes: a circular hole portion 101; a mounting bracket 102; a rotation support member 103 made of a bolt, a nut, or the like; and left and right lateral pin members 104. The circular hole 101 opens in the center of the upper portion 58 of the support 53. The mounting bracket 102 is formed in an inverted U-shape that opens downward. The left and right center portions of the mounting bracket 102 are detachably mounted to the circular hole portion 101 of the support 53 by the rotary support member 103. The rotation axis of the rotation support member 103 coincides with the longitudinal axis X. The mounting bracket 102 is supported on the support 53 to be rotatable about the vertical axis X. The left and right lateral pin members 104 are fixed to the left and right lateral side portions of the other auxiliary task lamp 100 so as to project in the lateral direction. The axial center of the left and right lateral pin members 104 coincides with the lateral axis Y. Left and right lateral pin members 104 are supported at left and right lower ends of the mounting bracket 102 so as to be rotatable about the lateral axis Y. That is, the other auxiliary work lamp 100 is rotatable about the vertical axis X and about the horizontal axis Y with respect to the support 53. Thus, the other auxiliary work lamp 100 can freely adjust the optical axis of the irradiation light in the lateral and vertical directions.

(6) In the above embodiment, the preliminary seedling frame 40 is exemplified as an example of the "support frame", but the present invention is not limited thereto. For example, other frames such as the frame of the seedling table 12a may be used as the "support frame".

(7) In the above embodiment, the convex portion 73 protruding upward from the upper surface of the second portion 71 in the stepped-up portion 31 is formed in a perfect circular shape in plan view, but the present invention is not limited thereto. Other convex portions may be elliptical or polygonal in plan view.

(8) In the above embodiment, the preliminary seedling stage 41 has four layers, but the present invention is not limited thereto. For example, the seedling preparation table 41 may have one to three or more layers.

(9) In the above embodiment, the engine 21 is disposed on the front side of the driver seat 25 by way of example, but not limited thereto. The engine may be disposed below the driver seat 25.

(10) In the other embodiments described above, the left and right statements are used, but the left and right statements may be reversed from the above embodiments.

The present invention can be applied to other planting-series working machines such as a traveling rice transplanter and a traveling direct seeder, in addition to the riding rice transplanter.

Claims (7)

1. A planting and seeding series working machine is characterized by comprising:

a machine body frame;

a support frame supported on the body frame;

a hood located at an upper side of the body frame;

a headlamp provided to the hood;

an auxiliary work light different from the head light; and

a support member supported by the support frame and supporting the auxiliary operation lamp,

the support member covers a lateral outer side of the auxiliary task lamp,

the planting series working machine is provided with a connecting mechanism for connecting the auxiliary working lamp and the support so that the auxiliary working lamp can change the orientation relative to the support,

the support frame is a prepared seedling frame for supporting the multilayer prepared seedling platform at the transverse outer side part of the machine body frame,

the auxiliary work light is located at substantially the same height as the head lamp,

the planting series working machine is provided with a riding step supported on the machine body frame,

the auxiliary operation lamp is positioned at the transverse outer side of the boarding step,

the auxiliary operation lamp is positioned at the lower side of the preparation seedling table at the lowest layer in the multilayer preparation seedling tables,

the planting series working machine is provided with an electric wiring connected with the auxiliary working lamp,

the electric wiring is disposed through the inside of the preliminary seedling frame.

2. A planting and seeding series working machine is characterized by comprising:

a machine body frame;

a support frame supported on the body frame;

a hood located at an upper side of the body frame;

a headlamp provided to the hood;

an auxiliary work light different from the head light; and

a support member supported by the support frame and supporting the auxiliary operation lamp,

the support member covers a lateral outer side of the auxiliary task lamp,

the planting series working machine is provided with a connecting mechanism for connecting the auxiliary working lamp and the support so that the auxiliary working lamp can change the orientation relative to the support,

the support frame is a prepared seedling frame for supporting the multilayer prepared seedling platform at the transverse outer side part of the machine body frame,

the auxiliary work light is located at substantially the same height as the head lamp,

the planting series working machine is provided with a riding step supported on the machine body frame,

the auxiliary operation lamp is positioned at the transverse outer side of the boarding step,

the auxiliary operation lamp is positioned on the lower side of the preparation seedling table at the lowest layer in the multilayer preparation seedling tables.

3. A planting and seeding series working machine is characterized by comprising:

a machine body frame;

a support frame supported on the body frame;

a hood located at an upper side of the body frame;

a headlamp provided to the hood;

an auxiliary work light different from the head light; and

a support member supported by the support frame and supporting the auxiliary operation lamp,

the support member covers a lateral outer side of the auxiliary task lamp,

the planting series working machine is provided with a connecting mechanism for connecting the auxiliary working lamp and the support so that the auxiliary working lamp can change the orientation relative to the support,

the support frame is a prepared seedling frame for supporting the multilayer prepared seedling platform at the transverse outer side part of the machine body frame,

the auxiliary work light is located at substantially the same height as the head lamp,

the planting series working machine is provided with a riding step supported on the machine body frame,

the auxiliary operation lamp is located on the transverse outer side of the boarding step.

4. A planting and seeding series working machine is characterized by comprising:

a machine body frame;

a support frame supported on the body frame;

a hood located at an upper side of the body frame;

a headlamp provided to the hood;

an auxiliary work light different from the head light; and

a support member supported by the support frame and supporting the auxiliary operation lamp,

the support member covers a lateral outer side of the auxiliary task lamp,

the planting series working machine is provided with a connecting mechanism for connecting the auxiliary working lamp and the support so that the auxiliary working lamp can change the orientation relative to the support,

the support frame is a prepared seedling frame for supporting the multilayer prepared seedling platform at the transverse outer side part of the machine body frame,

the auxiliary work light is located at substantially the same height as the head lamp,

the support member has: an upper support member extending laterally outward from the support frame; a longitudinal support member crossing the upper support member and extending in a longitudinal direction; and a lower support extending laterally inboard from the longitudinal support toward the support frame,

the auxiliary task lamp is covered around the lateral outer side thereof by the support frame, the upper support, the longitudinal support, and the lower support.

5. A planting and seeding series working machine is characterized by comprising:

a machine body frame;

a support frame supported on the body frame;

a hood located at an upper side of the body frame;

a headlamp provided to the hood;

an auxiliary work light different from the head light; and

a support member supported by the support frame and supporting the auxiliary operation lamp,

the support member covers a lateral outer side of the auxiliary task lamp,

the planting series working machine is provided with a connecting mechanism for connecting the auxiliary working lamp and the support so that the auxiliary working lamp can change the orientation relative to the support,

the support frame is a prepared seedling frame for supporting the multilayer prepared seedling platform at the transverse outer side part of the machine body frame,

the support member has: an upper support member extending laterally outward from the support frame; a longitudinal support member crossing the upper support member and extending in a longitudinal direction; and a lower support extending laterally inboard from the longitudinal support toward the support frame,

the auxiliary task lamp is covered around the lateral outer side thereof by the support frame, the upper support, the longitudinal support, and the lower support.

6. A planting and seeding series working machine is characterized by comprising:

a machine body frame;

a support frame supported on the body frame;

a hood located at an upper side of the body frame;

a headlamp provided to the hood;

an auxiliary work light different from the head light; and

a support member supported by the support frame and supporting the auxiliary operation lamp,

the support member covers a lateral outer side of the auxiliary task lamp,

the planting series working machine is provided with a connecting mechanism for connecting the auxiliary working lamp and the support so that the auxiliary working lamp can change the orientation relative to the support,

the support member has: an upper support member extending laterally outward from the support frame; a longitudinal support member crossing the upper support member and extending in a longitudinal direction; and a lower support extending laterally inboard from the longitudinal support toward the support frame,

the auxiliary task lamp is covered around the lateral outer side thereof by the support frame, the upper support, the longitudinal support, and the lower support.

7. A planting and seeding series working machine is characterized by comprising:

a machine body frame;

a support frame supported on the body frame;

a hood located at an upper side of the body frame;

a headlamp provided to the hood;

an auxiliary work light different from the head light; and

a support member supported by the support frame and supporting the auxiliary operation lamp,

the support member covers a lateral outer side of the auxiliary task lamp,

the support member has: an upper support member extending laterally outward from the support frame; a longitudinal support member crossing the upper support member and extending in a longitudinal direction; and a lower support extending laterally inboard from the longitudinal support toward the support frame,

the auxiliary task lamp is covered around the lateral outer side thereof by the support frame, the upper support, the longitudinal support, and the lower support.

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