JP6928150B1 - Attachment for construction machinery - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an attachment for a construction machine capable of finely adjusting the ground surface. An attachment 1 for a construction machine includes a base frame 7 and plates 33 and 40. The base frame 7 is attached to the earth removal plate 5 of the backhoe 2. The plates 33 and 40 are supported by the base frame 7 along a plane facing the earth removal plate 5. The relative positions of the plates 33 and 40 in the width direction can be displaced. Therefore, with the positions of the plates 33 and 40 in the width direction finely adjusted, the backhoe 2 is moved along the existing pavement surface to spread the soil removal plate 5 with the plates 33 and 40 at an arbitrary construction width. Can be done. [Selection diagram] Fig. 1

Description

The present invention relates to an attachment for a construction machine which is attached to a construction machine provided with a soil discharge plate extending in the width direction and is used for leveling the ground surface.

Various supply pipes for water, sewerage, gas, etc. are buried in the ground below the road, and these supply pipes are regularly maintained. At that time, the road is first excavated, and then the supply pipe is maintained, backfilled, and paved.

In such a series of operations, when the pavement work is performed, the ground surface is evenly spread and a pavement material such as asphalt is spread on the ground surface. In this case, if the ground surface is evenly spread by hand, the burden on the worker increases and the work efficiency deteriorates. From this point of view, an apparatus for leveling the ground surface has been proposed (see, for example, Patent Document 1 below).

The device described in Patent Document 1 includes a plurality of plate materials extending in the vertical direction, and is used by being attached to a backhoe soil removal plate. Then, by operating the backhoe, the ground surface can be spread and leveled by a plurality of plate materials.

Utility Model Registration No. 3197433

In the apparatus of Patent Document 1, a steel pipe extending in the horizontal direction is fixed to a backhoe soil discharging plate, and a plurality of plate members extending in the vertical direction are provided so as to be arranged in the width direction with respect to the steel pipe. In addition, the positions of each of the plurality of plate materials in the vertical direction can be adjusted. Then, by adjusting the vertical positions of the plurality of plate materials, the position of the lower end edge of each plate material can be adjusted, and the height of the ground surface to be spread can be adjusted.

However, in the above device, since the position of each plate material can only be adjusted in the vertical direction, there is a problem that fine adjustment is difficult. Therefore, in particular, there is a problem that it is difficult to finely adjust the width direction dimension (horizontal dimension) of the ground surface and spread it evenly.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an attachment for construction machinery capable of finely adjusting the ground surface.

(1) The attachment for a construction machine according to the present invention is an attachment for a construction machine that is attached to a construction machine provided with a soil removal plate extending in the width direction and is used for leveling the ground surface. The construction machine attachment includes a base frame and a plurality of plates. The base frame is attached to the soil removal plate. The plurality of plates are provided on the base frame along a plane facing the soil removal plate. The plurality of plates can be displaced in relative positions in the width direction.

According to such a configuration, the relative positions of the plurality of plates can be displaced in the width direction.

Therefore, the relative positions of the plurality of plates in the width direction can be finely adjusted according to the width (horizontal dimension) of the ground surface to be spread. Then, with the positions of multiple plates in the width direction finely adjusted, the construction machine is moved so that the plates follow the ground surface, so that the ground surface is spread in the optimum state (optimum construction width). Can be done.

That is, according to the attachment for construction machinery according to the present invention, the ground surface can be finely adjusted. Specifically, according to the attachment for construction machinery according to the present invention, the construction width can be finely adjusted.

(2) Further, each of the plurality of plates may be movable in the width direction while being supported by the base frame.

According to such a configuration, each of the plurality of plates can be moved in the width direction each time.

Therefore, the position of the plate (position in the width direction) can be changed each time according to an arbitrary construction width during the laying and leveling work.

As a result, the ground surface can be smoothly adjusted.

(3) Further, each of the plurality of plates may be provided at a position adjacent to the soil removal plate in the width direction when viewed in an orthogonal direction orthogonal to the width direction and the vertical direction.

For example, when excavating a part of the existing pavement surface and then backfilling the excavated part and paving, the shape of the existing pavement surface (of the unexcavated part) in order to uniformly form the road surface after pavement. It is preferable that the road surface shape) and the ground surface shape are spread out so as to correspond to each other.

According to the above configuration, by moving the construction machine so that the soil discharge plate follows the existing pavement surface, the ground surface can be spread with the plate so as to correspond to the shape of the existing pavement surface. That is, by moving the construction machine along the existing pavement surface, the ground surface can be spread so as to maintain a certain depth from the existing pavement surface.

Therefore, the ground surface can be laid out in an optimum state so as to correspond to the shape of the existing pavement surface.

(4) Further, the attachment for construction machinery may further include a height adjusting member. The height adjusting member is integrally provided on each of the plurality of plates. Each of the height adjusting members includes a flange portion and a rod-shaped portion. The flange portion is continuous with the plate. The rod-shaped portion engages with the flange portion in a relatively movable state, and the tip portion thereof engages with the base frame. The height position of the plate may be adjustable by adjusting the position of the rod-shaped portion with respect to the flange portion.

According to such a configuration, the height position of the plates can be adjusted by the height adjusting members provided on each of the plurality of plates.

Therefore, the height of the ground surface can be finely adjusted to even out the ground surface. That is, the height position of the plate can be adjusted according to an arbitrary construction depth.

Further, the height adjusting member is integrally provided on each of the plurality of plates.

Therefore, the configuration of the attachment for construction machinery can be simplified.

(5) Further, the base frame may include a first steel material and a second steel material. The first steel material extends in the width direction and is attached to the soil removal plate. The second steel material is provided in a state of extending in the width direction and maintaining a constant distance from the first steel material in orthogonal directions orthogonal to the width direction and the vertical direction. The plurality of plates may be located between the first steel material and the second steel material.

According to such a configuration, the configuration of the attachment for construction machinery can be simplified.

(6) Further, the plurality of plates may be two. The rod-shaped portion of the height adjusting member provided on one of the plates may engage with the first steel material. The rod-shaped portion of the height adjusting member provided on the other plate may engage with the second steel material.

According to such a configuration, the height adjusting member can be engaged with the base frame in a well-balanced manner.

Therefore, the two plates can be supported by the base frame in a well-balanced manner.

According to the present invention, the ground surface can be finely adjusted.

It is a perspective view which showed the backhoe in the state which attached the attachment for construction machinery which concerns on 1st Embodiment of this invention. It is a perspective view which showed by disassembling a part of the base frame of the attachment for construction machinery. It is a perspective view which showed the structure of the movable frame of the attachment for construction machinery. It is a top view of the attachment for construction machinery. It is the figure which showed the state which the attachment for construction machinery was seen from the front side. It is the figure which showed the state which the attachment for construction machinery was seen from the back side. It is a figure which showed the state which looked at the attachment for construction machinery which concerns on 2nd Embodiment of this invention from the front side. It is a figure which showed the state which looked at the attachment for construction machinery which concerns on 2nd Embodiment of this invention from the back side.

1. 1. Overall Configuration of Attachments for Construction Machines FIG. 1 is a perspective view showing a backhoe 2 in a state where the attachments 1 for construction machines according to the first embodiment of the present invention are attached.

As shown in FIG. 1, the construction machine attachment 1 is used by being attached to a backhoe 2 as an example of a construction machine.

The backhoe 2 includes a main body 3, an arm 4, and a soil removal plate 5.

The arm 4 extends from the main body 3 toward the front side. The arm 4 can be operated so as to move the tip end portion (front end portion) in the vertical direction around the base end portion (end portion on the main body 3 side).

The soil removal plate 5 is provided at the tip end portion (front end portion) of the arm 4. The soil removal plate 5 is formed in the shape of a rectangular plate when viewed from the front, and extends in the width direction.

The attachment 1 for construction machinery is used by being attached to the earth removal plate 5 of the backhoe 2 when the ground surface is leveled. The attachment 1 for construction machinery includes a base frame 7 and a movable frame 8. The base frame 7 is attached (fixed) to the earth removal plate 5 of the backhoe 2. The movable frame 8 is supported by the base frame 7 in a horizontally movable state (sliding movable). The position of the movable frame 8 in the width direction (horizontal direction) is adjusted (sliding in the width direction) according to the width of the ground surface to be spread. Further, the position of the movable frame 8 is adjusted in the vertical direction (vertical direction) according to the depth of the ground surface to be laid out (sliding in the width direction). Then, the movable frame 8 is fixed in a state where the position (position in the width direction) of the movable frame 8 is adjusted, and by moving the backhoe 2 back and forth, the ground surface is made uniform by the lower end portion (lower end edge) of the movable frame 8. It is spread on the ground. It should be noted that the front-rear direction constitutes an example of the orthogonal direction.

2. Detailed configuration of the attachment for construction machinery FIG. 2 is a perspective view showing a part of the base frame 7 of the attachment 1 for construction machinery in an exploded manner. FIG. 3 is a perspective view showing the configuration of the movable frame 8 of the attachment 1 for construction machinery. FIG. 4 is a plan view of the attachment 1 for construction machinery. FIG. 5 is a view showing a state in which the attachment 1 for construction machinery is viewed from the front side. FIG. 6 is a view showing a state in which the attachment 1 for construction machinery is viewed from the back side.

As shown in FIG. 2, the base frame 7 includes a first steel material 10 and a second steel material 20.

The first steel material 10 is located on the rear side of the base frame 7. The first steel material 10 extends in the width direction. The first steel material 10 includes two horizontal members 11, a plurality of vertical members 12, two joint portions 13, and two side plates 17. In FIG. 2, the side plate 17 is omitted for convenience.

The horizontal member 11 is a steel material (grooved steel) having a U-shaped cross section, and extends in the horizontal direction. The two horizontal members 11 are arranged at intervals in the vertical direction. Each horizontal member 11 includes an upper flange 14, a lower flange 15, and a web 16. Each of the upper flange 14 and the lower flange 15 is formed in a rectangular plate shape in a plan view, and extends in the width direction. The upper flange 14 and the lower flange 15 are arranged at intervals in the vertical direction. The web 16 is arranged between the upper flange 14 and the lower flange 15. The web 16 is formed in a rectangular plate shape when viewed from the front, and is continuous with the front end portion of the upper flange 14 and the front end portion of the lower flange 15.

The vertical member 12 is a steel material extending in the vertical direction, and is arranged between the upper horizontal member 11 and the lower horizontal member 11. The vertical member 12 is, for example, an I-shaped steel or a steel pipe, and is continuous with the lower flange 15 of the upper horizontal member 11 and the upper flange 14 of the lower horizontal member 11.

The connecting portion 13 is integrally provided on the upper horizontal member 11. The connecting portion 13 is a hook-shaped member having a certain thickness. Specifically, the joint portion 13 is formed in a flat plate shape on the front side, and is curved in a U-shape in a side view from the center to the rear side. The flat plate-shaped portion on the front side of the joint portion 13 is fixed to the upper surface of the upper flange 14 of the upper horizontal member 11 by welding. The rear side portion (curved portion) of the joint portion 13 projects to the rear side of the horizontal member 11. The two joints 13 are provided on one side of the horizontal member 11 in the width direction (the right side portion in FIG. 2) with a distance between them in the width direction.

As shown in FIGS. 5 and 6, the side plate 17 is a plate-shaped member extending in the vertical direction, and has a substantially rectangular shape when viewed in the width direction. The side plate 17 is provided at one end of the first steel material 10 in the width direction (right side in FIG. 5) and at the center of the first steel material 10 in the width direction.

As shown in FIGS. 2 and 4, the second steel material 20 is located on the front side of the base frame 7. Specifically, the second steel material 20 is arranged on the front side of the first steel material 10 at intervals. As shown in FIG. 2, the second steel material 20 extends in the width direction. The second steel member 20 includes two horizontal members 21 and a plurality of vertical members 22.

The horizontal member 21 is a steel material (grooved steel) having a U-shaped cross section and extends in the horizontal direction. The two horizontal members 21 are arranged at intervals in the vertical direction. Each horizontal member 21 includes an upper flange 24, a lower flange 25, and a web 26. Each of the upper flange 24 and the lower flange 25 is formed in a rectangular plate shape in a plan view and extends in the width direction. The upper flange 24 and the lower flange 25 are arranged at intervals in the vertical direction. The web 26 is arranged between the upper flange 24 and the lower flange 25. The web 26 is formed in a rectangular plate shape when viewed from the front, and is continuous with the rear end portion of the upper flange 24 and the rear end portion of the lower flange 25.

A plurality of holes 26a are formed in the web 26 of the lower horizontal member 21. The hole 26a penetrates the web 26 (the web 26 of the lower horizontal member 21) in the front-rear direction (see FIG. 2). The inner peripheral surface of the hole 26a in the web 26 is threaded (not shown).

The vertical member 22 is a steel material extending in the vertical direction, and is arranged between the upper horizontal member 21 and the lower horizontal member 21. The vertical member 12 is, for example, I-shaped steel, and is continuous with the lower flange 25 of the upper horizontal member 21 and the upper flange 24 of the lower horizontal member 21.

As shown in FIG. 4, the base frame 7 includes a plurality of connecting members 30 provided between the first steel material 10 and the second steel material 20. The connecting member 30 is between the central portion in the width direction of the first steel material 10 and one side portion in the width direction of the second steel material 20 (the right side portion in FIG. 4), and the other side portion in the width direction of the first steel material 10 (the other side portion in the width direction). It is provided between the left side portion of FIG. 4) and the other side portion of the second steel material 20 in the width direction (left side portion of FIG. 4). Each connecting member 30 is fixed to each of the first steel material 10 and the second steel material 20. That is, each connecting member 30 connects the first steel material 10 and the second steel material 20. As a result, a constant gap G is formed between the first steel material 10 and the second steel material 20.

As shown in FIG. 3, the movable frame 8 includes a front frame 31 and a rear frame 32.

The front frame 31 includes a plate 33 and two adjusters 34. The adjuster 34 is an example of a height adjusting member.

The plate 33 is formed in the shape of a rectangular plate when viewed from the front, and extends in the vertical direction. The plate 33 extends on a plane along both the vertical and horizontal directions. The widthwise dimension of the plate 33 is, for example, 60-80 cm.

The two adjusters 34 are integrally provided on the upper end portion of the plate 33 so as to be spaced apart from each other in the width direction. Each adjuster 34 includes a flange portion 35 and a rod-shaped portion 36.

The flange portion 35 is formed in a rectangular plate shape in a plan view and extends in the front-rear direction. The rear end portion of the flange portion 35 is integrally provided on the upper end edge of the plate 33. Specifically, the rear end portion of the flange portion 35 is fixed (continuous) to the upper end edge of the plate 33 by welding. The flange portion 35 is formed with a hole (not shown) penetrating in the vertical direction. Further, the inner peripheral surface of the hole in the flange portion 35 is threaded (not shown).

The rod-shaped portion 36 includes a grip portion 37 and an engaging portion 38. The grip portion 37 is a rod formed in a crank shape. The outer peripheral surface of the central portion of the grip portion 37 is threaded (not shown). The central portion of the grip portion 37 is fitted (screwed) into the hole (inner peripheral surface of the hole) of the flange portion 35. That is, the grip portion 37 is engaged with the flange portion 35 in a state of being relatively movable. Specifically, the grip portion 37 moves in the vertical direction with respect to the flange portion 35 by being rotated.

The engaging portion 38 is formed in a cylindrical shape and is fitted to the lower end portion of the grip portion 37.

The rear frame 32 includes a plate 40 and an adjuster 41. The adjuster 41 is an example of a height adjusting member.

The plate 40 is formed in the shape of a rectangular plate when viewed from the front, and extends in the vertical direction. The plate 40 extends on a plane along both the vertical and horizontal directions.

The adjuster 41 is provided at the center of the upper end of the plate 40. The adjuster 41 has the same configuration as the adjuster 34 of the front frame 31. Specifically, the adjuster 41 includes a flange portion 42 and a rod-shaped portion 43. As shown in FIG. 6, the rod-shaped portion 43 includes a grip portion 44 and an engaging portion 45. The configurations of the flange portion 42, the grip portion 44, and the engaging portion 45 of the adjuster 41 are the same as the configurations of the flange portion 35, the grip portion 37, and the engaging portion 38 of the adjuster 34.

As shown in FIG. 3, in the adjuster 41, the front end portion of the flange portion 42 is integrally provided on the upper end edge of the plate 33 (fixed by welding). That is, as shown in FIG. 4, in a plan view, the adjuster 34 is located on the front side with respect to the plate 33, while the adjuster 41 is located on the rear side with respect to the plate 40.

Then, as shown in FIGS. 3 and 4, the movable frame 8 (front frame 31 and rear frame 32) is in a state where a part of the plate 33 in the width direction and a part of the plate 40 in the width direction overlap each other. It is placed on the base frame 7 so as to be located in the gap G of the base frame 7.

In this state, as shown in FIG. 5, the engaging portion 38 of each adjuster 34 is engaged with the upper surface of the second steel material 20 of the base frame 7. Specifically, the lower end of the engaging portion 38 of each adjuster 34 is engaged with the upper flange 24 (upper surface of the upper flange 24) of the upper horizontal member 21. That is, the movable frame 8 is supported by the base frame 7 by engaging the engaging portion 38 of each adjuster 34 with the upper flange 24. The rear frame 32 is located on the rear side with respect to the front frame 31.

Further, as shown in FIG. 6, the engaging portion 45 of the adjuster 41 is engaged with the upper surface of the first steel material 10 of the base frame 7. Specifically, the lower end of the engaging portion 45 of the adjuster 41 is engaged with the upper flange 14 (upper surface of the upper flange 14) of the upper horizontal member 11.

In this state, the movable frame 8 (front frame 31 and rear frame 32) is movable in the width direction (slide movable). That is, the movable frame 8 (front frame 31 and rear frame 32) is supported by the base frame 7 in a state of being movable in the width direction. In other words, the movable frame 8 is supported by the base frame 7 in a state in which the relative positions of the front frame 31 and the rear frame 32 in the width direction can be displaced (in a state in which the front frame 31 and the rear frame 32 can be slidably moved).

3. 3. Attachment of Attachment for Construction Machinery As shown in FIGS. 5 and 6, the attachment 1 for construction machinery is attached to the backhoe 2 by attaching the joint portion 13 to the upper end of the earth removal plate 5 of the backhoe 2. Specifically, the position of the attachment 1 for construction machinery is determined so that both ends of the soil removal plate 5 in the width direction are located inside the side plate 17, and further, the attachment 1 is connected to the upper end of the soil removal plate 5. By hooking the hook-shaped portion of the portion 13, the attachment 1 for construction machinery is attached to the backhoe 2 (earth removal plate 5).

In this state, the movable frame 8 (plate 33 and plate 40) is arranged along a plane facing the earth removal plate 5. Specifically, the movable frame 8 (plate 33 and plate 40) is located on a plane along both the vertical direction and the width direction. Further, when viewed in the front-rear direction, the movable frame 8 (plate 33 and plate 40) is provided at a position adjacent to the soil removal plate 5 (a position not overlapping with the soil removal plate 5) in the width direction.

The movable frame 8 may be arranged in the gap G of the base frame 7, and the attachment 1 for construction machinery may be attached to the backhoe 2 while the movable frame 8 is supported by the base frame 7. The movable frame 8 may be arranged in the gap G of the base frame 7 after being attached to the backhoe 2 (earth removal plate 5) as described above.

4. Adjusting the position of the movable frame Depending on the ground surface to be leveled, it may be necessary to adjust the width and height of the surface. In that case, the position of the movable frame 8 is adjusted as follows.

As described above, the movable frame 8 is supported by the base frame 7 in a state of being movable in the width direction. Therefore, when adjusting the width of the ground surface to be leveled, the operator sets either or both of the plate 33 and the plate 40 until the width of the entire movable frame 8 matches the desired width of the ground surface ( Move (slide) in the width direction (until the desired construction width is reached) (see FIGS. 5 and 6).

Further, when adjusting the height of the ground surface to be leveled, the operator grips the grip portion 37 of the adjuster 34 and rotates the rod-shaped portion 36. Then, the rod-shaped portion 36 of the adjuster 34 moves in the vertical direction with respect to the flange portion 35. As a result, the plate 33 is pulled upward, or the plate 33 is moved downward. Then, the height position of the lower end edge of the plate 33 is changed. Similarly, when the rod-shaped portion 43 of the adjuster 41 is rotated by the operator, the rod-shaped portion 43 moves in the vertical direction with respect to the flange portion 42. As a result, the plate 40 is pulled upward or the plate 40 is moved downward, and the height position of the lower end edge of the plate 40 is changed.

After the positions (height position and width direction position) of the movable frame 8 (plate 33 and plate 40) are adjusted in this way, the operator can perform a plurality of positions formed on the web 26 of the lower horizontal member 21. The fixture 27 is attached so as to insert the hole 26a (see FIG. 2). The fixture 27 is, for example, a bolt-shaped member that moves the hole 26a inward (rearward) by tightening.

As a result, the movable frame 8 (plate 33 and plate 40) is pressed rearward by the fixture 27, and the position of the movable frame 8 (plate 33 and plate 40) is fixed.

By moving the backhoe 2 in the front-rear direction while the position of the movable frame 8 is adjusted in this way, the ground surface is evenly spread by the lower end edges of the movable frame 8 (plate 33 and plate 40). NS.

For example, when excavating a part of the existing pavement surface and then backfilling the excavated part to pave the pavement, the soil discharge plate 5 is placed along the existing pavement surface (the part not excavated) to form the excavated part. The backhoe 2 is moved so that the plate 33 and the plate 40 are arranged. As a result, the ground surface of the plate 33 and the plate 40 can be spread evenly so as to correspond to the shape of the existing pavement surface (the shape of the portion not excavated). That is, by moving the backhoe 2 so that the soil discharge plate 5 follows the shape of the existing pavement surface, the ground surface (excavation) is maintained at a certain depth from the existing pavement surface (the portion not excavated). Part) can be spread out.

Further, even when the pavement surface is uneven, since the movable frame 8 (plate 33 and plate 40) is fixed by the fixture 27, the movable frame 8 (plate 33 and plate 40) rattles. Pavement is suppressed. Therefore, the ground surface can be spread and leveled in an appropriate state by the plate 33 and the plate 40.

5. Action Effect (1) According to the present embodiment, as shown in FIG. 1, the construction machine attachment 1 includes a base frame 7 and plates 33 and 40. The base frame 7 is attached to the earth removal plate 5 of the backhoe 2. The plates 33 and 40 are provided on the base frame 7 along a plane facing the earth removal plate 5. The relative positions of the plates 33 and 40 in the width direction can be displaced.

Therefore, the relative positions of the plates 33 and 40 in the width direction can be finely adjusted according to the width (dimension in the width direction) of the ground surface to be spread. Then, with the positions of the plates 33 and 40 in the width direction finely adjusted, the backhoe 2 is moved so that the plates 33 and 40 are along the ground surface, so that the ground surface can be spread in an optimum state. .. That is, according to the attachment 1 for construction machinery, the construction width can be finely adjusted.

(2) Further, according to the present embodiment, each of the plates 33 and 40 is supported by the base frame 7 in a state of being movable in the width direction (sliding movable).

Therefore, each of the plates 33 and 40 can be moved in the width direction each time.

As a result, the positions (positions in the width direction) of the plates 33 and 40 can be changed each time during the laying and leveling work according to an arbitrary construction width.

Therefore, the ground surface can be smoothly adjusted.

(3) Further, according to the present embodiment, each of the plates 33 and 40 is provided at a position adjacent to the soil removal plate 5 (a position not overlapping the soil removal plate 5) when viewed in the front-rear direction. ing.

For example, when excavating a part of the existing pavement surface and then backfilling the excavated part and paving, the shape of the existing pavement surface (of the unexcavated part) in order to uniformly form the road surface after pavement. It is preferable that the road surface shape) and the ground surface shape are spread out so as to correspond to each other.

According to the present embodiment, by moving the backhoe 2 so that the soil discharge plate 5 is along the existing pavement surface, the ground surface of each of the plates 33 and 40 becomes the existing pavement surface (shape of the existing pavement surface). It can be spread out accordingly. That is, by moving the backhoe 2 so that the soil removal plate 5 is along the existing pavement surface, the ground surface can be spread so as to maintain a constant depth from the existing pavement surface.

Therefore, the ground surface can be laid out in an optimum state so as to correspond to the existing pavement surface.

(4) Further, according to the present embodiment, as shown in FIG. 5, the attachment 1 for construction machinery includes adjusters 34 and 41. Each of the adjusters 34 and 41 is integrally provided on each of the plates 33 and 40. The adjuster 34 includes a flange portion 35 and a rod-shaped portion 36. The flange portion 35 is continuous with the plate 33. The rod-shaped portion 36 is engaged (screwed) with the flange portion 35 in a state of being relatively movable, and its tip portion (engaging portion 38) is engaged with the base frame 7. Similarly, the adjuster 41 includes a flange portion 42 and a rod-shaped portion 43. The flange portion 42 is continuous with the plate 40. The rod-shaped portion 43 is engaged (screwed) with the flange portion 42 in a state of being relatively movable, and its tip portion (engaging portion 45) is engaged with the base frame 7. Then, the height positions of the plates 33 and 40 can be adjusted by the adjusters 34 and 41 provided on the plates 33 and 40, respectively.

As a result, the height of the ground surface can be finely adjusted to even out the ground surface.

Further, each of the adjusters 34 and 41 is integrally provided on each of the plates 33 and 40.

Therefore, the configuration of the attachment 1 for construction machinery can be simplified.

(5) Further, according to the present embodiment, as shown in FIG. 5, the base frame 7 includes a first steel material 10 and a second steel material 20. The first steel material 10 extends in the width direction and is attached to the earth removal plate 5. The second steel material 20 is provided in a state of extending in the width direction and maintaining a constant interval with respect to the first steel material 10 in the orthogonal direction (front-back direction) orthogonal to the width direction and the vertical direction. The plates 33 and 40 are arranged between the first steel material 10 and the second steel material 20.

Therefore, the configuration of the attachment 1 for construction machinery can be simplified.

(6) Further, according to the present embodiment, the attachment 1 for construction machinery includes two plates 33 and 40. The rod-shaped portion 43 (engagement portion 45) of the adjuster 41 provided on the plate 40 is engaged with the first steel material 10. The rod-shaped portion 36 (engagement portion 38) of the adjuster 34 provided on the plate 33 is engaged with the second steel material 20.

Therefore, the adjusters 34 and 41 can be engaged with the base frame 7 in a well-balanced manner.

As a result, the plates 33 and 40 can be supported by the base frame 7 in a well-balanced manner.

6. Second Embodiment Hereinafter, the second embodiment of the present invention will be described with reference to FIGS. 7 and 8. The same configuration as in the first embodiment will be omitted by using the same reference numerals as above.

FIG. 7 is a view showing a state in which the attachment 100 for construction machinery according to the second embodiment of the present invention is viewed from the front side. FIG. 8 is a view showing a state in which the attachment 100 for construction machinery according to the second embodiment of the present invention is viewed from the back side.

In the first embodiment described above, the plates 33 and 40 (front frame 31 and rear frame 32) are supported on the base frame 7 including the first steel 10 and the second steel 20. On the other hand, in the second embodiment, the plates 110 and 120 are fixed to the simple base frame 101.

Specifically, the attachment 100 for construction machinery of the second embodiment includes two base frames 101, plates 110 and 120, and two fixing members 130.

As shown in FIG. 8, the base frame 101 is an L-shaped member in a side view, and is engaged with the soil removal plate 5. The two base frames 101 are arranged at intervals in the width direction. Each base frame 101 is formed with a plurality of holes (not shown) penetrating in the front-rear direction.

The plate 110 is a square-shaped member in front view, and is arranged in front of the soil removal plate 5. As shown in FIG. 7, when the attachment 100 for construction machinery is attached to the backhoe 2 (soil removal plate 5), the plate 110 is located on one side of the soil removal plate 5 in the width direction from the center. .. The plate 110 is formed with an opening 110a extending in the vertical direction and an opening 110b extending in the width direction.

The plate 120 is a plate-shaped member having a square shape when viewed from the front, and is arranged in front of the earth removal plate 5 so that a part thereof overlaps the plate 110. The plate 120 is arranged on the rear side with respect to the plate 110. In a state where the attachment 100 for construction machinery is attached to the backhoe 2 (soil removal plate 5), the plate 120 is located on the other side in the width direction from the center of the soil removal plate 5. The plate 120 is formed with an opening 120a extending in the vertical direction. Further, although not shown, a hole is formed in the plate 120 at a position corresponding to the opening 110b of the plate 110.

As shown in FIG. 8, the fixing member 130 is a member corresponding to the base frame 101 and is a member for fixing the position of the base frame 101.

When adjusting the width of the ground surface to be leveled, the operator first places the two base frames 101 on the soil removal plate 5 at intervals corresponding to the width of the ground surface. Then, each base frame 101 is fixed to the earth removal plate 5 by the fixing member 130.

Further, as shown in FIGS. 7 and 8, the operator can make the plate 110 and the plate 120 relative to each other in the width direction so that the total width of the plate 110 and the plate 120 coincides with the width of the ground surface. Adjust the position. Then, the operator attaches the fixture 141 so as to insert the opening 110b of the plate 110 and the hole (not shown) of the plate 120. As a result, the entire width of the plate 110 and the plate 120 is fixed.

Then, the operator arranges the plates 110 and 120 in this state in front of the soil removal plate 5, and further inserts the opening 110a of the plate 110 and the hole (not shown) of the base frame 101. Attach the fixture 142. Similarly, the operator attaches the fixture 143 so as to insert the opening 120a of the plate 120 and the hole (not shown) of the base frame 101.

As a result, the plates 110 and 120 are fixed to the soil removal plate 5. Then, by moving the backhoe 2 in the front-rear direction in this state, the ground surface is evenly spread by the lower end edges of the movable frames 8 (plates 110 and 120).

As described above, according to the second embodiment, the relative positions of the plates 110 and 120 in the width direction can be displaced while simplifying the configuration of the attachment 100 for construction machinery.

Therefore, the relative positions of the plates 110 and 120 in the width direction can be finely adjusted while simplifying the configuration of the attachment 100 for construction machinery. Then, with the positions of the plates 110 and 120 in the width direction finely adjusted, the backhoe 2 can be moved so that the plates 110 and 120 are along the ground surface so that the plates 110 and 120 can be spread at the optimum construction width and depth. can.

7. Modifications In the above embodiments, the number of plates provided in the attachment for construction machinery has been described as two, but three or more plates may be used. Further, when the adjusters are integrally provided on each plate, the number of adjusters can be changed as appropriate.

Further, in the first embodiment, the base frame 7 has been described as having a configuration including the first steel material 10 and the second steel material 20, but the base frame 7 may have a configuration including only the first steel material 10. ..

1 Attachment for construction machinery 2 Backhoe 5 Soil removal plate 7 Base frame 8 Movable frame 10 1st steel material 20 2nd steel material 31 Front side frame 32 Rear side frame 33 Plate 34 Adjuster 35 Flange part 36 Rod-shaped part 38 Engagement part 40 Plate 41 Adjuster 42 Flange part 43 Rod-shaped part 45 Engagement part 100 Attachment for construction machinery 101 Base frame 110 Plate 120 Plate

Claims (5)

An attachment for construction machinery that is attached to a construction machine equipped with a soil removal plate that extends in the width direction and is used to level the ground surface.
The base frame attached to the soil removal plate and
A plurality of plates provided on the base frame along a plane facing the soil removal plate are provided.
Wherein the plurality of plates, Ri relative position displaceable der in the width direction,
An attachment for construction machinery , each of the plurality of plates being slidable in the width direction while being supported by the base frame. An attachment for construction machinery that is attached to a construction machine equipped with a soil removal plate that extends in the width direction and is used to level the ground surface.
The base frame attached to the soil removal plate and
A plurality of plates provided on the base frame along a plane facing the soil removal plate are provided.
The plurality of plates can be displaced in relative positions in the width direction.
The base frame is
A first steel material that extends in the width direction and is attached to the soil removal plate,
It is provided with a second steel material extending in the width direction and provided at a constant distance from the first steel material in an orthogonal direction orthogonal to the width direction and the vertical direction.
The plurality of plates are attachments for construction machinery located between the first steel material and the second steel material. The invention according to claim 1 or 2, wherein each of the plurality of plates is provided at a position adjacent to the soil removal plate in the width direction when viewed in an orthogonal direction orthogonal to the width direction and the vertical direction. Attachment for construction machinery. Further, a height adjusting member provided integrally with each of the plurality of plates is provided.
Each of the height adjusting members
A flange portion continuous with the plate and
It is provided with a rod-shaped portion whose tip portion engages with the base frame while engaging with the flange portion in a relatively movable state.
The attachment for construction machinery according to any one of claims 1 to 3, wherein the height position of the plate can be adjusted by adjusting the position of the rod-shaped portion with respect to the flange portion. Further, a height adjusting member provided integrally with each of the plurality of plates is provided.
Each of the height adjusting members
A flange portion continuous with the plate and
It is provided with a rod-shaped portion whose tip portion engages with the base frame while engaging with the flange portion in a relatively movable state.
The height position of the plate can be adjusted by adjusting the position of the rod-shaped portion with respect to the flange portion.
The plurality of plates are two.
The rod-shaped portion of the height adjusting member provided on one of the plates engages with the first steel material and engages with the first steel material.
The bar portion of the height adjusting member provided on the other of said plate, said second to steel and engage, construction machine attachment of claim 2.

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