CN215835876U - Digging device for vegetation planting in storage tank - Google Patents

Abstract

The utility model discloses a pit digging device for planting vegetation in a storage pond, which comprises: a support frame having a plurality of landing legs; the lifting rotating mechanism is arranged at the top of the support frame, and two first connecting ends are arranged at the bottom of the lifting rotating mechanism; the soil lifting mechanism is arranged below the lifting and rotating mechanism, and the top of the soil lifting mechanism is provided with two second connecting ends respectively corresponding to the first connecting ends; the first connecting unit is arranged between a pair of first and second connecting ends and is provided with a compression spring; the second connecting unit is arranged between the other pair of the first connecting end and the second connecting end and is provided with a trigger electrically connected with the lifting rotating mechanism; when the soil lifting mechanism performs rotary excavation operation and meets hard obstacles, the second connecting end moves upwards to enable the compression amount of the compression spring to be larger than a preset value, and meanwhile, the trigger stops working of the lifting and rotating mechanism. According to the utility model, the rotary digging operation can be stopped in time through the automatic control mechanism, and the adverse phenomena of equipment abrasion, cable digging and breaking and the like caused by continuous work are avoided.

Description

Digging device for vegetation planting in storage tank

Technical Field

The utility model relates to the technical field of storage tank greening planting equipment, in particular to a pit digging device for planting vegetation in a storage tank.

Background

The regulation and storage pool is a rainwater collection facility, and can be a special artificial structure, such as an overground reservoir and an underground concrete pool, or a natural place or an existing facility, such as a river channel, a pond, an artificial lake, a landscape pool and the like. The regulation and storage pool is mainly used for drainage scheduling, namely temporarily storing the peak flow of the rainwater runoff in the regulation and storage pool, and slowly discharging rainwater after the maximum flow is reduced, so that the dual purposes of avoiding rainwater flood peaks and recycling rainwater are achieved. In order to beautify the environment, when a storage tank is constructed near a park, a sports ground, or the like, vegetation is generally planted around the storage tank. At present, the pit digging planting is carried out through manpower or machines, the speed of manual pit digging is low, and the underground condition cannot be detected when the existing pit digging equipment is used, so that the pit digging planting cannot be stopped in time. When large obstacles such as large stones are encountered, pit digging equipment can be worn; when the cable and the water pipe are in small obstacles, the cable and the water pipe are dug and broken, and unnecessary loss is caused.

Disclosure of Invention

In order to solve the problems, the utility model provides a pit digging device for planting vegetation in a regulation and storage pool, which can be shut down in time, and the following technical scheme can be adopted:

the pit digging device for planting the vegetation in the storage tank comprises

A support frame having a plurality of landing legs;

the lifting and rotating mechanism is arranged at the top of the support frame, and two first connecting ends are arranged at the bottom of the lifting and rotating mechanism;

the soil lifting mechanism is arranged below the lifting and rotating mechanism, and the top of the soil lifting mechanism is provided with two second connecting ends respectively corresponding to the first connecting ends;

the first connecting unit is arranged between the first connecting end and the second connecting end of one pair of the first connecting units and is provided with a compression spring;

the second connecting unit is arranged between the other pair of the first connecting ends and the second connecting end and is provided with a trigger electrically connected with the lifting rotating mechanism;

when the soil lifting mechanism performs rotary excavation operation and meets hard obstacles, the second connecting end moves upwards to enable the compression amount of the compression spring to be larger than a preset value, and meanwhile, the trigger stops working of the lifting and rotating mechanism.

The lifting and rotating mechanism comprises

The electric push rod is arranged at the top of the support frame, and a piston rod of the electric push rod extends to a position between the landing legs;

the lifting frame is connected with the piston rod and is provided with a horizontal bearing surface and a vertical through hole;

the rotating motor is arranged on the horizontal bearing surface of the lifting frame, and a motor shaft of the rotating motor is arranged corresponding to the vertical through hole of the lifting frame;

the T-shaped connecting frame is connected with a motor shaft of the rotating motor and is provided with a vertical connecting shaft positioned in the vertical through hole and two first connecting ends which are vertically downward.

The lifting frame is provided with an annular cavity connected with the vertical through hole, and a rotary table matched with the annular cavity is arranged on the vertical connecting shaft of the T-shaped connecting frame.

And an annular guide rail is arranged in the annular cavity, and the upper surface and the lower surface of the turntable are provided with balls positioned in the annular guide rail.

The bottom of the lifting frame is provided with a plurality of indicating lamps which are arranged into a ring structure.

The soil lifting mechanism comprises a rotary impeller and a door-shaped connecting frame positioned at the top of the rotary impeller, and the door-shaped connecting frame is provided with two second connecting ends which are vertically upward.

The first connecting unit comprises a first connecting cylinder, the top of the first connecting cylinder is connected with a first connecting end of the T-shaped connecting frame, a second connecting end of the door-shaped connecting frame is arranged at the bottom of the first connecting cylinder in a penetrating mode, an anti-falling block matched with the first connecting cylinder is arranged at the edge of the second connecting end, and the compression spring is arranged in the first connecting cylinder above the second connecting end.

The second connecting unit comprises a second connecting cylinder, the top of the second connecting cylinder is connected with another second connecting end of the T-shaped connecting frame, another second connecting end of the door-shaped connecting frame is arranged at the bottom of the second connecting cylinder in a penetrating mode, and the trigger is correspondingly arranged on the second connecting cylinder above the second connecting end.

And the first connecting cylinder is provided with anti-collision columns positioned around the trigger.

The bottom of the landing leg is provided with a universal wheel.

The pit digging device for planting the vegetation in the regulation pool, provided by the utility model, has the advantages of simple structure, small volume and convenience in movement, and can timely stop rotary digging operation through the automatic control mechanism once hard obstacles such as large stones, cables, water pipes and the like are encountered during work, so that adverse phenomena such as equipment abrasion, cable breakage and the like caused by continuous work are avoided.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a cross-sectional view of fig. 1.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the drawings, and the embodiments are implemented on the premise of the technical solution of the present invention, and detailed embodiments and specific construction processes are given, but the scope of the present invention is not limited to the following embodiments.

As shown in fig. 1 and 2, the digging device for planting vegetation in a regulation and storage pond of the utility model comprises a support frame 1, a lifting and rotating mechanism, a soil lifting mechanism, a first connecting unit and a second connecting unit. Wherein, support frame 1 has a plurality of landing legs that fall to the ground, and for the convenience to remove, the universal wheel is all installed to the bottom of every landing leg that falls to the ground. Lifting and rotating mechanism is including installing electric putter 201 at support frame 1 top center, and electric putter 201's piston rod downwardly extending is to falling to the ground between the landing leg, and the crane 202 of piston rod bottom installation has a horizontal bearing face and a vertical through-hole, and the horizontal bearing face is used for installing rotating electrical machines 203, and the motor shaft and the vertical through-hole of this rotating electrical machines 203 correspond the setting. The motor shaft of the rotating motor 203 is connected with the vertical connecting shaft of the T-shaped connecting frame 204, the vertical connecting shaft is arranged in the vertical through hole of the lifting frame 202 in a penetrating mode, the horizontal shaft below the lifting frame 202 is connected with the vertical connecting shaft, and the two ends of the horizontal shaft are respectively provided with a first connecting end which faces vertically downwards. Further, the lifting frame 202 is further provided with an annular cavity connected with the vertical through hole, an annular guide rail is arranged on the inner surface of the annular cavity, correspondingly, a rotating disc 205 matched with the annular cavity is sleeved on the vertical connecting shaft of the T-shaped connecting frame 204, and the upper surface and the lower surface of the rotating disc 205 are both provided with balls 206 connected with the annular guide rail in a sliding manner. Preferably, a plurality of indicator lamps 207 arranged in a ring structure are further installed at the bottom of the crane 202, so as to ensure the accuracy of the pit digging position of the soil lifting mechanism. The electric push rod 201, the rotating motor 203 and the indicator lamp 207 are all powered by a storage battery on the support frame 1, and the support frame 1 is also provided with a control switch group.

The soil lifting mechanism is positioned below the lifting and rotating mechanism and comprises a rotating impeller 301 and a door-shaped connecting frame 302 positioned at the top of the rotating impeller. The door-shaped connecting frame 302 has two second connecting ends which are vertically upward and are respectively arranged corresponding to the two first connecting ends of the T-shaped connecting frame 204. A first connecting unit is arranged between one pair of the first connecting end and the second connecting end, and a second connecting unit is arranged between the other pair of the first connecting end and the second connecting end.

The first connecting unit comprises a first connecting cylinder 401 and a compression spring 402 positioned in the first connecting cylinder 401, the top of the first connecting cylinder 401 is connected with a first connecting end of the T-shaped connecting frame 204, a second connecting end of the door-shaped connecting frame 302 is arranged at the bottom of the first connecting cylinder in a penetrating mode, an anti-falling block 303 matched with the first connecting cylinder 401 is arranged on the edge of the second connecting end, and the compression spring 402 is positioned above the second connecting end. The second connecting unit comprises a second connecting cylinder 501 and a trigger 502 positioned in the second connecting cylinder 501, the top of the second connecting cylinder 501 is connected with the other second connecting end of the T-shaped connecting frame 204, the other second connecting end of the door-shaped connecting frame 302 is arranged at the bottom of the second connecting cylinder in a penetrating manner, and the trigger 502 fixed on the second connecting cylinder 501 is correspondingly arranged above the second connecting end. The trigger 502 is electrically connected to the lifting and rotating mechanism, so that the lifting and rotating mechanism can stop working. To prevent damage to the trigger 502, a plurality of crash posts 503 are mounted around it. The length of the anti-collision post 503 is smaller than the length of the trigger 502 when not triggered and larger than the length of the trigger 502 after being triggered, so that the door-shaped connecting frame 302 can be ensured to stably trigger the trigger 502 and not to excessively press the trigger 502.

When the lifting device is used, the indicating lamp 207 is turned on through the control switch group, the electric push rod 201 is started, the lifting frame 202 is driven to move upwards, and the rotary impeller 301 is pulled upwards to be away from the ground; then, the support frame 1 is pushed according to an aperture formed on the ground by the indicator lamp 207, so that the pit digging mark on the ground is positioned in the aperture, and the soil lifting position of the rotary impeller 301 is accurate; then, the electric push rod 201 is operated in the reverse direction, the lifting frame 202 drives the T-shaped connecting frame 204, the first connecting unit, the second connecting unit and the rotary impeller 301 to move downwards, and simultaneously, the rotary motor 203 is started, the T-shaped connecting frame 204 and the rotary disc 205 rotate, and the first connecting unit, the second connecting unit and the rotary impeller 301 connected with the T-shaped connecting frame are rotated along with the rotation of the T-shaped connecting frame 204 and the rotary disc 205, so that pit digging operation is performed. In the process, the T-shaped connecting frame 204 pushes the door-shaped connecting frame 302 to move downwards through the compression spring 402, so that the compression spring 402 generates certain deformation, and the deformation amount is within a preset value; when the rotary impeller 301 meets hard objects such as large stones, cables, water pipes and the like, the door-shaped connecting frame 302 moves upwards relative to the first connecting cylinder 401 and the second connecting cylinder 501, so that the deformation of the compression spring 402 is increased, when the deformation exceeds a preset value, the trigger 502 in the second connecting cylinder 501 is in contact with the door-shaped connecting frame 302, the trigger 502 is started, the electric push rod 201 and the rotary motor 203 which are connected with the trigger are powered off, and the lifting and rotating mechanism stops working. At this time, the rotary impeller 301 does not rotate and move downwards any more, so that the rotary impeller 301 can be prevented from being seriously abraded, cables, water pipes and the like can be prevented from being damaged; thereafter, the operator turns off the control switch group, and manually pushes the first connecting cylinder 401 and the second connecting cylinder 501 in the reverse direction, so that the rotary impeller 301 is rotated out in the reverse direction. When the rotary impeller 301 does not collide with large stones, water pipes, cables and the like any more, the trigger 502 can be returned, and after the pit digging position is changed, the pit digging can be continued according to the above steps.

It should be noted that in the description of the present invention, terms of orientation or positional relationship such as "front", "rear", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Claims (10)

1. The utility model provides a regulation pond vegetation is planted with digging device which characterized in that: comprises that

A support frame having a plurality of landing legs;

the lifting and rotating mechanism is arranged at the top of the support frame, and two first connecting ends are arranged at the bottom of the lifting and rotating mechanism;

the soil lifting mechanism is arranged below the lifting and rotating mechanism, and the top of the soil lifting mechanism is provided with two second connecting ends respectively corresponding to the first connecting ends;

the first connecting unit is arranged between the first connecting end and the second connecting end of one pair of the first connecting units and is provided with a compression spring;

the second connecting unit is arranged between the other pair of the first connecting ends and the second connecting end and is provided with a trigger electrically connected with the lifting rotating mechanism;

when the soil lifting mechanism performs rotary excavation operation and meets hard obstacles, the second connecting end moves upwards to enable the compression amount of the compression spring to be larger than a preset value, and meanwhile, the trigger stops working of the lifting and rotating mechanism.

2. The apparatus of claim 1, wherein the pit digging apparatus for planting vegetation in the storage tank comprises: the lifting and rotating mechanism comprises

The electric push rod is arranged at the top of the support frame, and a piston rod of the electric push rod extends to a position between the landing legs;

the lifting frame is connected with the piston rod and is provided with a horizontal bearing surface and a vertical through hole;

the rotating motor is arranged on the horizontal bearing surface of the lifting frame, and a motor shaft of the rotating motor is arranged corresponding to the vertical through hole of the lifting frame;

the T-shaped connecting frame is connected with a motor shaft of the rotating motor and is provided with a vertical connecting shaft positioned in the vertical through hole and two first connecting ends which are vertically downward.

3. The apparatus of claim 2, wherein the pit digging apparatus for planting vegetation in the storage tank comprises: the lifting frame is provided with an annular cavity connected with the vertical through hole, and a rotary table matched with the annular cavity is arranged on the vertical connecting shaft of the T-shaped connecting frame.

4. The apparatus of claim 3, wherein the pit digging apparatus for planting vegetation in the storage tank comprises: and an annular guide rail is arranged in the annular cavity, and the upper surface and the lower surface of the turntable are provided with balls positioned in the annular guide rail.

5. The apparatus of claim 2, wherein the pit digging apparatus for planting vegetation in the storage tank comprises: the bottom of the lifting frame is provided with a plurality of indicating lamps which are arranged into a ring structure.

6. The apparatus of claim 1, wherein the pit digging apparatus for planting vegetation in the storage tank comprises: the soil lifting mechanism comprises a rotary impeller and a door-shaped connecting frame positioned at the top of the rotary impeller, and the door-shaped connecting frame is provided with two second connecting ends which are vertically upward.

7. The apparatus of claim 1, wherein the pit digging apparatus for planting vegetation in the storage tank comprises: the first connecting unit comprises a first connecting cylinder, the top of the first connecting cylinder is connected with a first connecting end of the T-shaped connecting frame, a second connecting end of the door-shaped connecting frame is arranged at the bottom of the first connecting cylinder in a penetrating mode, an anti-falling block matched with the first connecting cylinder is arranged at the edge of the second connecting end, and the compression spring is arranged in the first connecting cylinder above the second connecting end.

8. The apparatus of claim 1, wherein the pit digging apparatus for planting vegetation in the storage tank comprises: the second connecting unit comprises a second connecting cylinder, the top of the second connecting cylinder is connected with another second connecting end of the T-shaped connecting frame, another second connecting end of the door-shaped connecting frame is arranged at the bottom of the second connecting cylinder in a penetrating mode, and the trigger is correspondingly arranged on the second connecting cylinder above the second connecting end.

9. The apparatus of claim 8, wherein the pit digging apparatus for planting vegetation in the storage tank comprises: and the first connecting cylinder is provided with anti-collision columns positioned around the trigger.

10. The apparatus of claim 1, wherein the pit digging apparatus for planting vegetation in the storage tank comprises: the bottom of the landing leg is provided with a universal wheel.

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