CN213523024U - Excavating gear is transplanted in gardens - Google Patents

Abstract

The application relates to a garden transplantation excavating device, which comprises a vehicle body, a first hydraulic cylinder arranged on the vehicle body, a rocker arm component arranged on the vehicle body, a third hydraulic cylinder arranged on the rocker arm component and an excavating component arranged on the third hydraulic cylinder, wherein the rocker arm component comprises a fixed arm hinged on the vehicle body, a telescopic arm connected with the fixed arm in a sliding way and a second hydraulic cylinder arranged on the fixed arm, the cylinder body of the second hydraulic cylinder is positioned on the fixed arm, a piston rod is positioned on the telescopic arm, the excavating component comprises a frame arranged on the piston rod of the third hydraulic cylinder, two spade boards that articulate on the frame, establish the head rod on the spade board, rotate the lead screw of being connected with the frame, with lead screw threaded connection's screwed pipe, two second connecting rods that articulate on the screwed pipe and establish the motor on the frame, the head rod is articulated with the second connecting rod, the output and the screw connection of motor. This application has improved the efficiency of transplanting in the gardens construction.

Description

Excavating gear is transplanted in gardens

Technical Field

The utility model belongs to the technical field of gardens construction and specifically relates to an excavating gear is transplanted in gardens.

Background

In garden construction, trees need to be transplanted, a pit needs to be dug on the ground when the trees are transplanted, then the trees are transplanted into the pit, and finally soil is backfilled into the pit to finish the transplantation of the trees.

At present use the spade to excavate the hole position by constructor usually in the gardens construction, then transplant the trees to the hole position in, the manual work uses the spade to excavate the hole position and wastes time and energy, and the efficiency of construction is low.

SUMMERY OF THE UTILITY MODEL

In order to improve the efficiency of transplanting in the gardens construction, this application provides a excavating gear is transplanted in gardens.

The application provides a pair of excavating gear is transplanted in gardens adopts following technical scheme:

a garden transplantation excavating device comprises a vehicle body, a first hydraulic cylinder arranged on the vehicle body, a rocker arm assembly arranged on the vehicle body, a third hydraulic cylinder arranged on the rocker arm assembly and an excavating assembly arranged on the third hydraulic cylinder;

the rocker arm assembly comprises a fixed arm hinged on the vehicle body, a telescopic arm in sliding connection with the fixed arm and a second hydraulic cylinder arranged on the fixed arm;

the cylinder body of the second hydraulic cylinder is positioned on the fixed arm, and the piston rod is positioned on the telescopic arm;

the excavating component comprises a frame arranged on a piston rod of the third hydraulic cylinder, two shovel plates hinged on the frame, a first connecting rod arranged on the shovel plates, a lead screw rotationally connected with the frame, a threaded pipe in threaded connection with the lead screw, two second connecting rods hinged on the threaded pipe and a motor arranged on the frame;

the first connecting rod is hinged with the second connecting rod;

the output end of the motor is connected with the screw rod.

Through adopting above-mentioned technical scheme, constructor drives the automobile body to the place of required excavation hole position, then the position of excavating the subassembly is adjusted to the operation rocking arm subassembly, the piston rod of adjustment first pneumatic cylinder stretches out the angle of elevation that the rocking arm subassembly was adjusted to the length of cylinder body, the flexible arm of second pneumatic cylinder adjustment stretches out the length of fixed arm, the position adjustment of excavating the subassembly is good back, the screwed pipe in excavating the subassembly this moment is located the lead screw and is close to the one end of spade board, two spade boards are in the state of opening, after adjusting the position of excavating the subassembly, the piston rod push frame of third pneumatic cylinder, make the spade board inject in the soil.

After the spade board is inserted in the soil, the motor drives the lead screw and rotates, the lead screw rotates and drives the screwed pipe and remove to motor department, when the screwed pipe removes to motor department, the one end that the second connecting rod articulates on the screwed pipe removes to motor department, the pin joint of head rod and second connecting rod removes to the direction of keeping away from the lead screw, the head rod is the angle grow with the second connecting rod, the second connecting rod drives the spade board and rotates, the one end that the frame was kept away from to two spade boards is drawn close, soil between two spade boards is pressed from both sides tightly, then the third pneumatic cylinder will excavate the subassembly and pull out ground formation hole position, then the staff with trees transplant to in the hole position can.

Optionally, a motor base is arranged on the frame;

the motor base is located below the first hydraulic cylinder piston rod.

Through adopting above-mentioned technical scheme, the motor is installed on the motor cabinet, reduces the motor and installs the back to frame construction's destruction on the frame.

Optionally, a support rod is arranged on the frame;

one end of the supporting rod is connected to the frame, and the other end of the supporting rod is connected to the motor base.

Through adopting above-mentioned technical scheme, the bracing piece has increased the intensity of frame, and when first pneumatic cylinder promoted to excavate the subassembly and inserted in the soil, on the bracing piece was dispersed to the power of applying for the frame to first pneumatic cylinder, first pneumatic cylinder was difficult to bad with the frame top of excavating the subassembly.

Optionally, a limit pipe is arranged on the third hydraulic cylinder, and a slide rod is connected to the limit pipe in a sliding manner;

one end of the sliding rod is connected to the frame, and the other end of the sliding rod is a free end.

Through adopting above-mentioned technical scheme, first pneumatic cylinder is when promoting to excavate the subassembly, and the slide bar slides in spacing pipe, excavates the subassembly and is difficult to produce and rock.

Optionally, the end of the two shovel plates far away from the threaded pipe is a tip.

Through adopting above-mentioned technical scheme, when first pneumatic cylinder spade board inserted the ground, the pointed end and the ground contact of spade board, the resistance when spade board inserted the ground is littleer, and the spade board inserts in the ground more easily.

Optionally, a soil collecting box is arranged on the vehicle body;

the soil collection box is positioned below the swing arm assembly.

Through adopting above-mentioned technical scheme, place the collection case after excavating the subassembly with soil and going out ground, the collection case conveniently collects the soil of excavating out.

Optionally, one end of the soil collection box, which is far away from the vehicle body, is provided with a soil outlet;

the soil outlet extends in the direction far away from the vehicle body;

the size of the soil outlet is gradually reduced along the extending direction of the soil outlet.

By adopting the technical scheme, excavated soil is placed in the soil collection box, and after a constructor transplants trees into the pit position, the opening of the soil collection box is aligned with the pit position, so that the constructor can conveniently backfill the soil in the soil collection box into the pit position, and the soil in the soil collection box is not easy to fall on the ground around the pit position.

Optionally, a second hydraulic cylinder is arranged on the vehicle body;

and a piston rod of the second hydraulic cylinder is hinged on the soil collection box.

Through adopting above-mentioned technical scheme, the degree of inclination of receiving the soil box can be changed to the length of adjustment second pneumatic cylinder piston rod, and the soil in receiving the soil box slides out and receives the soil box and backfill to the position of a hole under the effect of gravity.

In summary, the present application includes at least one of the following beneficial technical effects:

1. constructor drives the automobile body to the place of required excavation position, then the position of excavating the subassembly is adjusted to the operation rocking arm subassembly, the piston rod of adjustment first pneumatic cylinder stretches out the length of cylinder body and adjusts the angle of elevation of rocking arm subassembly, the length of fixed arm is stretched out in the flexible arm of second pneumatic cylinder adjustment, the position adjustment of excavating the subassembly is good the back, the screwed pipe in excavating the subassembly this moment is located the lead screw and is close to the one end of spade board, two spade boards are in the state of opening, after adjusting the position of excavating the subassembly, the piston rod of third pneumatic cylinder promotes the frame, make the spade board inject in the soil.

After the shovel plates are inserted into the soil, the motor drives the lead screw to rotate, the lead screw rotates to drive the threaded pipe to move towards the motor, when the threaded pipe moves towards the motor, one end, hinged to the threaded pipe, of the second connecting rod moves towards the motor, the hinged point of the first connecting rod and the second connecting rod moves towards the direction far away from the lead screw, the angle formed by the first connecting rod and the second connecting rod is increased, the second connecting rod drives the shovel plates to rotate, one ends, far away from the frame, of the two shovel plates are closed, soil between the two shovel plates is clamped, then the excavating component is pulled out of the ground by the third hydraulic cylinder to form a pit, and then a worker transplants trees into the pits;

2. the bracing piece has increased the intensity of frame, and when first pneumatic cylinder promoted to excavate the subassembly and inserted in the soil, first pneumatic cylinder was difficult to the frame top that will excavate the subassembly bad on the bracing piece for the force dispersion of frame application, first pneumatic cylinder.

Drawings

Fig. 1 is an axonometric view of a garden transplantation excavation device shown in an embodiment of the present application.

Fig. 2 is a schematic view illustrating an excavation state of the garden transplantation excavation device shown in fig. 1.

Fig. 3 is a schematic view of the shovel plate of fig. 1 in a state inserted into the ground.

Fig. 4 is a schematic view of the shovel plate of fig. 1 in a state of excavating earth.

Description of reference numerals: 111. a cab; 11. a vehicle body; 12. a first hydraulic cylinder; 13. a rocker arm assembly; 131. a fixed arm; 132. a telescopic arm; 133. a second hydraulic cylinder; 2. a third hydraulic cylinder; 3. a digging component; 31. a frame; 32. a spade plate; 33. a first connecting rod; 34. a lead screw; 35. a threaded pipe; 36. a second connecting rod; 37. a motor; 4. a motor base; 5. a support bar; 6. a limiting pipe; 7. a slide bar; 8. a soil collection box; 81. a soil outlet; 9. and a fourth hydraulic cylinder.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses excavating gear is transplanted in gardens.

Referring to fig. 1 and 2, the garden transplantation excavation apparatus includes a vehicle body 11, a first hydraulic cylinder 12, a swing arm assembly 13, a third hydraulic cylinder 2, and an excavation assembly 3.

The vehicle body 11 includes a cab 111, one end of the cab 111 is a front end of the vehicle body 11, and the swing arm assembly 13 includes a fixed arm 131, a telescopic arm 132, and a second hydraulic cylinder 133. One end of the fixed arm 131 is hinged on the vehicle body 11, the other end is a free end, the cylinder body of the first hydraulic cylinder 12 is hinged on the vehicle body 11, and the piston rod is hinged on the fixed arm 131. The telescopic arm 132 is installed in the fixed arm 131, the telescopic arm 132 is slidably connected to the fixed arm 131, a cylinder body of the second hydraulic cylinder 133 is fixedly connected to the fixed arm 131, and a piston rod of the second hydraulic cylinder 133 is fixed to the telescopic arm 132. The third hydraulic cylinder 2 is fixedly connected to one end of the telescopic arm 132, which is far away from the vehicle body 11, a piston rod of the third hydraulic cylinder 2 is perpendicular to the ground, and the excavating component 3 is connected with a piston rod of the first hydraulic cylinder 12 through a flange or a bolt.

Referring to fig. 1 and 2, a constructor enters a cab 111 to drive a vehicle body 11, drives the vehicle body 11 to a position where a pit site needs to be excavated in a garden construction site, adjusts the elevation angles of a fixed arm 131 and a telescopic arm 132 by a first hydraulic cylinder 12 to adjust the height of the excavating component 3 from the ground, adjusts the position of the excavating component 3 by adjusting the length of the telescopic arm 132 extending out of the fixed arm 131 by a second hydraulic cylinder 133, and then pushes the excavating component 3 to perform an excavating operation by a third hydraulic cylinder 2.

Referring to fig. 3 and 4, the excavating assembly 3 includes a frame 31, two shovel plates 32, two first connecting rods 33, a lead screw 34, a threaded pipe 35, two second connecting rods 36, and a motor 37.

Frame 31 passes through flange joint or welding with the piston rod of third pneumatic cylinder 2, and the piston rod of third pneumatic cylinder 2 is connected at the top of frame 31, and third pneumatic cylinder 2 perpendicular to frame 31, two spade boards 32 articulate the one end of keeping away from third pneumatic cylinder 2 on frame 31, and the one end that frame 31 was kept away from to spade board 32 is pointed end, and the resistance is littleer when the pointed end of spade board 32 inserts the soil, and it is easier when spade board 32 injects in the soil. The first connecting rod 33 is welded on the shovel plate 32, the frame 31 is provided with a motor 37 seat, the motor 37 seat and the frame 31 are integrally formed, and the motor 37 seat is parallel to the top surface of the frame 31. The lead screw 34 is rotatably connected with the motor 37 seat, the lead screw 34 is perpendicular to the motor 37 seat, and the threaded pipe 35 is in threaded connection with the lead screw 34. The second connecting rod 36 is hinged on the threaded pipe 35, and the first connecting rod 33 is hinged with the second connecting rod 36. The motor 37 is fixedly connected to the motor 37 seat, and the output end of the motor 37 is fixedly connected with the lead screw 34.

Referring to fig. 3 and 4, the end of the screw 34 away from the motor 37 is the bottom end of the screw 34, the initial position of the threaded pipe 35 is at the bottom end of the screw 34, at this time, the two shovel plates 32 are opened, the first connecting rod 33 is perpendicular to the screw 34, and the included angle between the first connecting rod 33 and the second connecting rod 36 is an acute angle.

After the constructor adjusts the position of the excavating component 3, the third hydraulic cylinder 2 pushes the frame 31 to insert the two shovel plates 32 into the ground, when the two shovel plates 32 are inserted into the ground to the depth required for transplanting trees, the third hydraulic cylinder 2 stops pushing the frame 31, then the motor 37 drives the lead screw 34 to rotate, the lead screw 34 rotates to drive the screwed pipe 35 to move towards the motor 37, the second connecting rod 36 moves along with the screwed pipe 35 while the screwed pipe 35 moves towards the motor 37, the hinged point of the first connecting rod 33 and the second connecting rod 36 moves towards the direction far away from the lead screw 34, the two first connecting rods 33 incline and drive the tips of the two shovel plates 32 to approach, when the two shovel plates 32 contact, the soil between the two shovel plates 32 is clamped, the motor 37 stops rotating after the two shovel plates 32 clamp the soil, the piston rod of the third hydraulic cylinder 2 retracts to lift the excavating component 3 from the ground to form a pit position, the constructor transplants the tree into the pit, and then backfills soil into the pit to complete the transplantation of the tree.

Referring to fig. 3 and 4, the third hydraulic cylinder 2 applies a force to the frame 31 directed to the ground when pushing the shovel plate 32 into the ground, and the frame 31 may break. In order to reduce the possibility of breakage of the frame 31 when the frame 31 is stressed, four support rods 5 are fixedly connected to the frame 31, one end of each support rod 5 is fixedly connected to the frame 31, and the other end of each support rod 5 is fixedly connected to a motor 37 seat. Two support rods 5 are respectively arranged on two sides of the motor 37, when the third hydraulic cylinder 2 applies thrust to the frame 31, the thrust applied to the frame 31 is dispersed to the four support rods 5, the four support rods 5 increase the strength of the frame 31, and the frame 31 is not easy to break.

Referring to fig. 1 and 2, since the frame 31 and the third hydraulic cylinder 2 are connected by only the piston rod of the third hydraulic cylinder 2, when the third hydraulic cylinder 2 pushes the excavating component 3 into the ground, relative shaking may occur between the excavating component 3 and the third hydraulic cylinder 2, and further, the piston rods of the frame 31 and the third hydraulic cylinder 2 may be broken. In order to make the third hydraulic cylinder 2 more stable when pushing the excavating component 3, two limit pipes 6 are fixedly connected to the third hydraulic cylinder 2, two slide bars 7 are fixedly connected to the frame 31, one end of each slide bar 7 is fixedly connected to the frame 31, the other end of each slide bar 7 is a free end, and each slide bar 7 is slidably connected with the limit pipe 6. When third pneumatic cylinder 2 promoted to excavate subassembly 3, it has the trend of rocking to excavate subassembly 3, slide bar 7 and spacing pipe 6's inner wall butt, slide bar 7 withstands spacing pipe 6, excavates subassembly 3 and is difficult to produce and rock.

Referring to fig. 1, when the digging assembly 3 digs soil out of the ground and places it on the ground, the constructor needs to use a shovel or other tool to backfill the soil into the pit to complete the tree transplantation. In order to conveniently backfill soil to the pit, the front end of the vehicle body 11 is hinged with the soil collecting box 8, one end, far away from the vehicle body 11, of the soil collecting box 8 is provided with a soil outlet 81, the soil outlet 81 extends towards the direction far away from the vehicle body 11, the size of the soil outlet 81 gradually decreases along the extending direction, soil in the soil collecting box 8 slides out from the soil outlet 81, and the soil in the soil collecting box 8 is not easy to scatter to the ground around the pit. Two fourth pneumatic cylinders 9 of fixedly connected with on automobile body 11, two fourth pneumatic cylinders 9 are all installed in the below of receiving soil box 8, and the piston rod of fourth pneumatic cylinder 9 articulates the bottom of receiving soil box 8.

After the excavation subassembly 3 is dug the hole position, constructor manipulates rocker arm subassembly 13 and will excavate the top that subassembly 3 brought to collecting box 8, then excavate the motor 37 reversal of subassembly 3, motor 37 drives lead screw 34 and rotates, lead screw 34 rotates and drives the bottom motion of screwed pipe 35 to lead screw 34, when screwed pipe 35 moved to the bottom of lead screw 34, second connecting rod 36 followed screwed pipe 35 and moved to the bottom of lead screw 34, the pin joint of first connecting rod 33 and second connecting rod 36 moves to lead screw 34 department, first connecting rod 33 becomes parallel lead screw 34 by the slope gradually, the contained angle that two parts of connecting rod are diminishes, two first connecting rods 33 drive spade board 32 and rotate, two spade board 32 open gradually, soil between two spade boards 32 falls into collecting box 8.

After the constructor transplants trees into the pit, the piston rods of the two fourth hydraulic cylinders 9 contract, the fourth hydraulic cylinders 9 apply a pulling force along the piston rods to one ends, far away from the vehicle body, of the soil collecting boxes 8, the soil collecting boxes 8 incline, the height of the opening ends of the soil collecting boxes 8 is lower than that of one ends, hinged to the vehicle body 11, of the soil, the soil in the soil collecting boxes 8 slides to the soil outlet 81 under the action of gravity, and the soil is backfilled into the pit from the soil outlet 81.

The implementation principle of the garden transplantation excavating device in the embodiment of the application is as follows: constructor drives automobile body 11 and need excavate the position of pot position in the gardens job site, then third pneumatic cylinder 2 promotes frame 31 and makes spade plate 32 inject in the soil, close third pneumatic cylinder 2 after spade plate 32 inserts the required degree of depth of transplanting trees, motor 37 drives lead screw 34 and rotates this moment, lead screw 34 rotates and drives screwed pipe 35 and move on lead screw 34, screwed pipe 35 moves to the top of lead screw 34, screwed pipe 35 pivoted in the time, the pointed end of two spade plates 32 is close to, press from both sides the soil between two spade plates 32 tightly, then the piston rod of third pneumatic cylinder 2 is withdrawed and is lifted out ground with excavation component 3.

After the excavating component 3 is lifted out of the ground, the rocker arm component 13 brings the excavating component 3 to the upper part of the soil collecting box 8, at the moment, the motor 37 rotates reversely, the threaded pipe 35 moves towards the bottom end of the screw rod 34, the distance between the tips of the two shovel plates 32 is increased while the threaded pipe 35 moves towards the bottom end of the screw rod 34, soil between the two shovel plates 32 falls into the soil collecting box 8, after a constructor transplants trees into a pit, the driving vehicle body 11 moves the soil outlet 81 of the soil collecting box 8 to the upper part of the pit, the piston rod of the fourth hydraulic cylinder 9 is retracted, the height of the opening of the soil collecting box 8 is lower than the height close to one end of the vehicle body 11, soil in the soil collecting box 8 slides to the soil outlet 81 under the action of gravity, slides out of the soil outlet 81 and falls into the pit from the soil collecting box 8, and backfills the soil is completed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a digging device is transplanted in gardens which characterized in that: comprises a vehicle body (11), a first hydraulic cylinder (12) arranged on the vehicle body (11), a rocker arm component (13) arranged on the vehicle body (11), a third hydraulic cylinder (2) arranged on the rocker arm component (13) and an excavating component (3) arranged on the third hydraulic cylinder (2);

the rocker arm assembly (13) comprises a fixed arm (131) hinged on the vehicle body (11), a telescopic arm (132) connected with the fixed arm (131) in a sliding manner and a second hydraulic cylinder (133) arranged on the fixed arm (131);

the cylinder body of the second hydraulic cylinder (133) is positioned on the fixed arm (131), and the piston rod is positioned on the telescopic arm (132);

the excavating component (3) comprises a frame (31) arranged on a piston rod of the third hydraulic cylinder (2), two shovel plates (32) hinged on the frame (31), a first connecting rod (33) arranged on the shovel plates (32), a lead screw (34) rotatably connected with the frame (31), a threaded pipe (35) in threaded connection with the lead screw (34), two second connecting rods (36) hinged on the threaded pipe (35) and a motor (37) arranged on the frame (31);

the first connecting rod (33) is hinged with the second connecting rod (36);

the output end of the motor (37) is connected with the lead screw (34).

2. The garden transplantation excavation device of claim 1, wherein: a motor seat (4) is arranged on the frame (31);

the motor base (4) is positioned below the piston rod of the third hydraulic cylinder (2).

3. The garden transplantation excavation device of claim 1, wherein: the frame (31) is provided with a support rod (5);

one end of the supporting rod (5) is connected to the frame (31), and the other end of the supporting rod is connected to the motor base (4).

4. The garden transplantation excavation device of claim 1, wherein: a limiting pipe (6) is arranged on the third hydraulic cylinder (2), and a sliding rod (7) is connected to the limiting pipe (6) in a sliding manner;

one end of the sliding rod (7) is connected to the frame (31), and the other end is a free end.

5. The garden transplantation excavation device of claim 1, wherein: the end of the two shovel plates (32) far away from the threaded pipe (35) is a pointed end.

6. The garden transplantation excavation device of claim 5, wherein: the vehicle body (11) is provided with a soil collecting box (8);

the soil collecting box (8) is positioned below the telescopic arm (132).

7. The garden transplantation excavation device of claim 6, wherein: one end of the soil collection box (8) far away from the vehicle body (11) is provided with a soil outlet (81);

the soil outlet (81) extends in the direction away from the vehicle body (11);

the size of the soil outlet (81) is gradually reduced along the extension direction of the soil outlet (81).

8. The garden transplantation excavation device of claim 7, wherein: a fourth hydraulic cylinder (9) is arranged on the vehicle body (11);

and a piston rod of the fourth hydraulic cylinder (9) is hinged to the soil collection box (8).

Images