CN112145067A

CN112145067A - Tamping type ground punching device

Info

Publication number: CN112145067A
Application number: CN202010975046.0A
Authority: CN
Inventors: 陈凤芝
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-16
Filing date: 2020-09-16
Publication date: 2020-12-29

Abstract

The invention discloses a tamping type ground punching device which comprises a main mounting substrate, wherein a plurality of annular array type protruding structures are arranged at the bottom of the main mounting substrate, and a driving motor mounting shell is arranged at the center of the upper surface of the main mounting substrate. The invention utilizes the telescopic spiral structure to generate an upward conveying function for soil below the ground so as to realize the punching function, because the upward conveyed soil can be concentrated and accumulated on the surface of the hole, the electromagnetic principle is utilized to carry out downward tamping work on the soil accumulated around during the work, so that the soil around becomes more firm, thereby improving the transverse impact resistance of the soil around, simultaneously, the soil output by punching is directly utilized, the utilization rate and the rapid working efficiency of the soil around during the punching are reduced, and the stability and the safety performance during the work after the rod-shaped component is installed are improved.

Description

Tamping type ground punching device

Technical Field

The invention relates to the technical field of ground punching devices, in particular to a tamping type ground punching device.

Background

At present, current ground perforating device only erects ascending hole to ground production, then will need the body of rod of installation to insert inside the hole to realize quick installation, however, because current mode of punching utilizes the rotatory ascending transport effect that produces of helicitic texture, this kind of mode also can make the soil quality around the hole become loose, and does not benefit to the installation stability of equipment.

Disclosure of Invention

The invention aims to provide a tamping type ground punching device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a tamping type ground punching device comprises a main mounting substrate, wherein a plurality of annular array type protruding structures are arranged at the bottom of the main mounting substrate, a driving motor mounting shell is mounted at the center of the upper surface of the main mounting substrate, a driving motor is mounted inside the driving motor mounting shell, a motor main shaft in the driving motor penetrates through the center structure of the main mounting substrate, a spiral spring compression type rotary abutting mechanism is mounted at the bottom end of the motor main shaft through a main first connecting plate, a spiral cylinder is mounted at the bottom end of the spiral spring compression type rotary abutting mechanism through a main second connecting plate, spiral structures are arranged on the side surfaces of the spiral cylinder, an electromagnetic core is mounted inside the bottom end of each protruding structure, an electromagnetic coil is sleeved on the side surface of each electromagnetic core, and a current controller is mounted on the upper surface of the main mounting substrate, it is a plurality of communicate through the wire between solenoid's the current input end series connection and current controller's the current output end, just main mounting substrate and protruding mechanism's inside is equipped with the wire guide that is used for placing the wire, a plurality of coil spring compression canceling release mechanical system are installed to the edge of main mounting substrate bottom, main third connecting plate is installed, and is a plurality of to coil spring compression canceling release mechanical system's bottom an annular ramming plate of installation between the main third connecting plate, the center of annular ramming plate is equipped with the centre bore that is used for the part to remove, a plurality of permanent magnets that correspond with electromagnetic core of annular ramming plate's upper surface internal installation.

Further, the rotatory conflict mechanism of coil spring compression includes that the rotatory conflict mechanism of coil spring compression uses hollow shell, the rotatory conflict mechanism of coil spring compression uses flexible space, the rotatory conflict mechanism of coil spring compression uses coil spring, the rotatory conflict mechanism of coil spring compression uses the movable plate, the rotatory conflict mechanism of coil spring compression uses the telescopic link, the rotatory conflict mechanism of coil spring compression uses first connecting plate, the rotatory conflict mechanism of coil spring compression uses second connecting plate and the rotatory conflict mechanism of coil spring compression uses the bolt hole.

Further, the inside center of the hollow shell for the spiral spring compression type rotary abutting mechanism is provided with a telescopic space for the spiral spring compression type rotary abutting mechanism, the inside of the telescopic space for the spiral spring compression type rotary abutting mechanism is provided with a spiral spring for the spiral spring compression type rotary abutting mechanism in a compression state, one end of the spiral spring for the spiral spring compression type rotary abutting mechanism is provided with a movable plate for the spiral spring compression type rotary abutting mechanism, the end face center of the movable plate for the spiral spring compression type rotary abutting mechanism is provided with a telescopic rod for the spiral spring compression type rotary abutting mechanism, the rod body of the telescopic rod for the spiral spring compression type rotary abutting mechanism runs through the end face center structure of the hollow shell for the spiral spring compression type rotary abutting mechanism, the other end of the hollow shell for the spiral spring compression type rotary abutting mechanism and the telescopic rod for the spiral spring compression type rotary abutting mechanism are positioned outside One end is respectively provided with a first connecting plate for a spiral spring compression type rotary abutting mechanism and a second connecting plate for the spiral spring compression type rotary abutting mechanism, and bolt holes for the spiral spring compression type rotary abutting mechanism are respectively arranged on plate bodies of the first connecting plate for the spiral spring compression type rotary abutting mechanism and the second connecting plate for the spiral spring compression type rotary abutting mechanism.

Furthermore, the structural shape of the cross section of the telescopic space for the spiral spring compression type rotary abutting mechanism is consistent with that of the cross section of the moving plate for the spiral spring compression type rotary abutting mechanism, and the structural shape is a rectangular structure.

Further, the first connecting plate for the spiral spring compression type rotary abutting mechanism and the second connecting plate for the spiral spring compression type rotary abutting mechanism are fixedly connected with the bottom of the main first connecting plate and the top of the main second connecting plate respectively.

Further, the coil spring compression type resetting mechanism comprises a hollow shell for the coil spring compression type resetting mechanism, a telescopic space for the coil spring compression type resetting mechanism, a movable plate for the coil spring compression type resetting mechanism, a telescopic rod for the coil spring compression type resetting mechanism, a coil spring for the coil spring compression type resetting mechanism, a first connecting plate for the coil spring compression type resetting mechanism, a second connecting plate for the coil spring compression type resetting mechanism and a bolt hole for the coil spring compression type resetting mechanism.

Further, a coil spring compression type telescopic space for the reset mechanism is arranged at the center inside the hollow shell for the reset mechanism, a movable plate for the reset mechanism is placed inside the telescopic space for the reset mechanism, a telescopic rod for the reset mechanism is installed at the center of one end face of the movable plate for the reset mechanism, the rod body of the telescopic rod for the reset mechanism penetrates through the center of one end face of the hollow shell for the reset mechanism, the telescopic rod for the reset mechanism is sleeved with a coil spring for the reset mechanism in a compression state on the rod body inside the hollow shell for the reset mechanism, and the other end face of the hollow shell for the reset mechanism and the telescopic rod for the reset mechanism are respectively arranged at one end outside the other end face The first connecting plate for the spiral spring compression type resetting mechanism and the second connecting plate for the spiral spring compression type resetting mechanism are installed, and bolt holes for the spiral spring compression type resetting mechanism are arranged in the first connecting plate for the spiral spring compression type resetting mechanism and the second connecting plate for the spiral spring compression type resetting mechanism.

Further, the coil spring compression type return mechanism is mounted on the bottom of the main mounting substrate with a first connecting plate.

Further, the spiral spring compression type resetting mechanism is arranged on the upper surface of the main third connecting plate through a second connecting plate.

Compared with the prior art, the invention has the beneficial effects that: the invention utilizes the telescopic spiral structure to generate an upward conveying function for soil below the ground so as to realize the punching function, because the upward conveyed soil can be concentrated and accumulated on the surface of the hole, the electromagnetic principle is utilized to carry out downward tamping work on the soil accumulated around during the work, so that the soil around becomes more firm, thereby improving the transverse impact resistance of the soil around, simultaneously, the soil output by punching is directly utilized, the utilization rate and the rapid working efficiency of the soil around during the punching are reduced, and the stability and the safety performance during the work after the rod-shaped component is installed are improved.

Drawings

FIG. 1 is a schematic view of a full-section of a tamping type ground perforating device of the present invention;

FIG. 2 is a schematic structural view of a compression type rotary abutting mechanism of a helical spring in the tamping type ground punching device according to the present invention;

FIG. 3 is a schematic structural view of a compression-type restoring mechanism of a coil spring in the tamping type ground perforating device according to the present invention;

in the figure: 1, a main mounting base plate, 2, a protrusion structure, 3, a driving motor mounting case, 4, a driving motor, 5, a motor main shaft, 6, a main first connecting plate, 7, an annular tamping plate, 8, a center hole, 9, a permanent magnet, 10, a main third connecting plate, 11, an electromagnetic core, 12, an electromagnetic coil, 13, a wire hole, 14, a wire, 15, a current controller, 16, a coil spring compression type rotary abutting mechanism, 161, a hollow case for the coil spring compression type rotary abutting mechanism, 162, a telescopic space for the coil spring compression type rotary abutting mechanism, 163, a coil spring for the coil spring rotary abutting mechanism, 164, a telescopic rod for the coil spring compression type rotary abutting mechanism, 165, a movable plate for the coil spring compression type rotary abutting mechanism, a first connecting plate for the coil spring compression type rotary abutting mechanism, 167, a second connecting plate for the coil spring compression type rotary abutting mechanism, 168, bolt hole for coil spring compression type rotary abutting mechanism, 17, main second connecting plate, 18, spiral cylinder, 19, spiral structure, 20, coil spring compression type return mechanism, 201, hollow shell for coil spring compression type return mechanism, 202, flexible space for coil spring compression type return mechanism, 203, moving plate for coil spring compression type return mechanism, 204, telescopic rod for coil spring compression type return mechanism, 205, coil spring for coil spring compression type return mechanism, 206, first connecting plate for coil spring compression type return mechanism, 207, second connecting plate for coil spring compression type return mechanism, 208, bolt hole for coil spring compression type return mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the electromagnetic coil mounting structure comprises a main mounting substrate 1, wherein a plurality of annular array-type protruding structures 2 are arranged at the bottom of the main mounting substrate 1, a driving motor mounting shell 3 is mounted at the center of the upper surface of the main mounting substrate 1, a driving motor 4 is mounted inside the driving motor mounting shell 3, a motor spindle 5 in the driving motor 4 penetrates through the central structure of the main mounting substrate 1, a spiral spring compression type rotary abutting mechanism 16 is mounted at the bottom end of the motor spindle 5 through a main first connecting plate 6, a spiral cylinder 18 is mounted at the bottom of the spiral spring compression type rotary abutting mechanism 16 through a main second connecting plate 17, a spiral structure 19 is arranged on the side surface of the spiral cylinder 18, an electromagnetic core 11 is mounted inside the bottom end of each protruding structure 2, an electromagnetic coil 12 is sleeved on the side surface of each electromagnetic core 11, and a current controller 15 is mounted on the upper surface of the main mounting substrate 1, it is a plurality of communicate through wire 14 between the current output end of the current input end series connection of solenoid 12 and current controller 15, just main mounting substrate 1 and protruding mechanism 2's inside is equipped with the wire guide 13 that is used for placing the wire, a plurality of coil spring compression canceling release mechanical system 20 are installed to the edge of main mounting substrate 1 bottom, main third connecting plate 10 is installed to coil spring compression canceling release mechanical system 20's bottom, and is a plurality of install an annular ramming plate 7 between the main third connecting plate 10, the center of annular ramming plate 7 is equipped with the centre bore 8 that is used for the part to remove, a plurality of permanent magnets 9 that correspond with electromagnet core 11 of upper surface internally mounted of annular ramming plate 7.

Referring to fig. 2, the spiral spring compression type rotary abutting mechanism 16 includes a hollow housing 161 for the spiral spring compression type rotary abutting mechanism, a telescopic space 162 for the spiral spring compression type rotary abutting mechanism, a spiral spring 163 for the spiral spring compression type rotary abutting mechanism, a moving plate 164 for the spiral spring compression type rotary abutting mechanism, a telescopic rod 165 for the spiral spring compression type rotary abutting mechanism, a first connecting plate 166 for the spiral spring compression type rotary abutting mechanism, a second connecting plate 167 for the spiral spring compression type rotary abutting mechanism, and a bolt hole 168 for the spiral spring compression type rotary abutting mechanism; the coil spring compression type rotary collision mechanism is provided with a coil spring compression type telescopic space 162 at the center inside the hollow housing 161, a coil spring 163 for a coil spring compression type rotary collision mechanism in a compression state is placed inside the coil spring compression type telescopic space 162 for the rotary collision mechanism, a movable plate 164 for a coil spring compression type rotary collision mechanism is placed at one end of the coil spring 163 for the rotary collision mechanism, a coil spring compression type telescopic rod 165 for the rotary collision mechanism is installed at one end surface center of the movable plate 164 for the coil spring compression type rotary collision mechanism, a rod body of the telescopic rod 165 for the rotary collision mechanism runs through a end surface center structure of the hollow housing 161 for the rotary collision mechanism, the other end of the hollow housing 161 for the rotary collision mechanism and the coil spring compression type rotary collision mechanism are provided with a coil spring compression type telescopic rod center structure 165 a first connecting plate 166 for a coil spring compression type rotary abutting mechanism and a second connecting plate 167 for a coil spring compression type rotary abutting mechanism are respectively installed at one end located outside, and bolt holes 168 for a coil spring compression type rotary abutting mechanism are respectively arranged on plate bodies of the first connecting plate 166 for a coil spring compression type rotary abutting mechanism and the second connecting plate 167 for a coil spring compression type rotary abutting mechanism; the structural appearance of the cross section of the telescopic space 162 for the spiral spring compression type rotary abutting mechanism is consistent with that of the cross section of the movable plate 164 for the spiral spring compression type rotary abutting mechanism, and both the structural appearance and the structural appearance are rectangular structures; the first connecting plate 166 for the coil spring compression type rotary abutting mechanism and the second connecting plate 167 for the coil spring compression type rotary abutting mechanism are fixedly connected with the bottom of the main first connecting plate 6 and the top of the main second connecting plate 17, respectively.

Referring to fig. 3, the coil spring compression-type restoring mechanism 20 includes a hollow housing 201 for a coil spring compression-type restoring mechanism, a telescopic space 202 for a coil spring compression-type restoring mechanism, a moving plate 203 for a coil spring compression-type restoring mechanism, a telescopic rod 204 for a coil spring compression-type restoring mechanism, a coil spring 205 for a coil spring compression-type restoring mechanism, a first connecting plate 206 for a coil spring compression-type restoring mechanism, a second connecting plate 207 for a coil spring compression-type restoring mechanism, and a bolt hole 208 for a coil spring compression-type restoring mechanism; the coil spring compression type is that the inside center of hollow shell 201 for the return mechanism of coil spring compression type is equipped with flexible space 202 for the return mechanism of coil spring compression type, a movable plate 203 for the return mechanism of coil spring compression type is laid to the inside of flexible space 202 for the return mechanism of coil spring compression type, a telescopic link 204 for the return mechanism of coil spring compression type is installed at a terminal surface center of movable plate 203 for the return mechanism of coil spring compression type, the body of rod of the telescopic link 204 for the return mechanism of coil spring compression type runs through a terminal surface center of hollow shell 201 for the return mechanism of coil spring compression type, telescopic link 204 for the return mechanism of coil spring compression type cup joints a coil spring 205 for the return mechanism of coil spring compression type of compression state on the body of rod that is located inside hollow shell 201 for the return mechanism of coil spring compression type, another terminal surface of hollow shell 201 for the return mechanism of coil spring compression A first connecting plate 206 for a coil spring compression type resetting mechanism and a second connecting plate 207 for a coil spring compression type resetting mechanism are respectively arranged at one external end, and bolt holes 208 for the coil spring compression type resetting mechanism are respectively arranged in the first connecting plate 206 for the coil spring compression type resetting mechanism and the second connecting plate 207 for the coil spring compression type resetting mechanism; the first connecting plate 206 for the coil spring compression type return mechanism is mounted on the bottom of the main mounting substrate 1; the coil spring compression type return mechanism is mounted on the upper surface of the main third link plate 10 with a second link plate 207.

The specific use mode is as follows: in the work of the invention, a main mounting base plate 1 is mounted on a mounting part of a steering mechanism, then the device is in an integral inverted working state, a power switch of a current controller 15 is inserted into a power supply, a driving motor 4 is turned on, a spiral cylinder 18 can also rotate rapidly under the rotation driving action of the driving motor 4, when a spiral structure 19 contacts the ground, the contacted soil can generate an upward pushing action under the structural action of the spiral structure, the spiral structure 19 penetrates into the ground to be punched under the action of a spiral spring compression type rotation abutting mechanism 16, when the soil is accumulated around a hole upwards, the current controller 15 is turned on, so that the bottom end of an electromagnetic iron core 11 generates a magnetic pole the same as the top end of a permanent magnet 9, under the principle that like poles repel each other and opposite poles attract each other, an annular tamping plate 7 can rapidly descend to tamp the accumulated soil, when the annular tamping plate 7 is reset under the action of the helical spring compression type resetting mechanism 20, the current controller 15 is opened again, and the principle is utilized, so that the soil is continuously tamped.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a tamping type ground perforating device, includes main mounting substrate (1), its characterized in that: the bottom of the main mounting base plate (1) is provided with a plurality of annular array-type protruding structures (2), the center of the upper surface of the main mounting base plate (1) is provided with a driving motor mounting shell (3), a driving motor (4) is mounted inside the driving motor mounting shell (3), a motor spindle (5) in the driving motor (4) penetrates through the center structure of the main mounting base plate (1), a spiral spring compression type rotary abutting mechanism (16) is mounted at the bottom end of the motor spindle (5) through a main first connecting plate (6), a spiral cylinder (18) is mounted at the bottom of the spiral spring compression type rotary abutting mechanism (16) through a main second connecting plate (17), a spiral structure (19) is arranged on the side surface of the spiral cylinder (18), and an electromagnetic iron core (11) is mounted inside the bottom end of each protruding structure (2), every solenoid (12) all cup joints a solenoid (12) in the side of solenoid core (11), a surface mounting current controller (15) of main mounting substrate (1), it is a plurality of communicate through wire (14) between the current output end of the current controller (15) and the current input end series connection of solenoid (12), just the inside of main mounting substrate (1) and bellying mechanism (2) is equipped with wire guide (13) that are used for placing the wire, a plurality of coil spring compression canceling release mechanical system (20) are installed to the edge of main mounting substrate (1) bottom, main third connecting plate (10) is installed to the bottom of coil spring compression canceling release mechanical system (20), it is a plurality of install an annular ramming plate (7) between main third connecting plate (10), the center of annular ramming plate (7) is equipped with centre bore (8) that are used for the part to remove, and a plurality of permanent magnets (9) corresponding to the electromagnetic iron cores (11) are arranged in the upper surface of the annular tamping plate (7).

2. The rammed ground perforating apparatus of claim 1, wherein: the spiral spring compression type rotary abutting mechanism (16) comprises a hollow shell (161) for the spiral spring compression type rotary abutting mechanism, a telescopic space (162) for the spiral spring compression type rotary abutting mechanism, a spiral spring (163) for the spiral spring compression type rotary abutting mechanism, a movable plate (164) for the spiral spring compression type rotary abutting mechanism, a telescopic rod (165) for the spiral spring compression type rotary abutting mechanism, a first connecting plate (166) for the spiral spring compression type rotary abutting mechanism, a second connecting plate (167) for the spiral spring compression type rotary abutting mechanism and a bolt hole (168) for the spiral spring compression type rotary abutting mechanism.

3. The rammed ground perforating apparatus of claim 2, wherein: the coil spring compression type rotary collision mechanism is characterized in that a telescopic space (162) for the coil spring compression type rotary collision mechanism is arranged at the center inside a hollow shell (161) for the coil spring compression type rotary collision mechanism, a coil spring (163) for the coil spring compression type rotary collision mechanism in a compressed state is placed inside the telescopic space (162) for the coil spring compression type rotary collision mechanism, a movable plate (164) for the coil spring compression type rotary collision mechanism is placed at one end of the coil spring (163) for the coil spring compression type rotary collision mechanism, a telescopic rod (165) for the coil spring compression type rotary collision mechanism is installed at the center of one end face of the movable plate (164) for the coil spring compression type rotary collision mechanism, and a rod body of the telescopic rod (165) for the coil spring compression type rotary collision mechanism penetrates through a center structure of one end face of the hollow shell (161), the other end of the hollow shell (161) for the spiral spring compression type rotary abutting mechanism and the telescopic rod (165) for the spiral spring compression type rotary abutting mechanism are respectively provided with a first connecting plate (166) for the spiral spring compression type rotary abutting mechanism and a second connecting plate (167) for the spiral spring compression type rotary abutting mechanism at one end positioned outside, and the plate bodies of the first connecting plate (166) for the spiral spring compression type rotary abutting mechanism and the second connecting plate (167) for the spiral spring compression type rotary abutting mechanism are respectively provided with a bolt hole (168) for the spiral spring compression type rotary abutting mechanism.

4. The rammed ground perforating apparatus of claim 3, wherein: the cross section of the telescopic space (162) for the spiral spring compression type rotary abutting mechanism is consistent with the cross section of the moving plate (164) for the spiral spring compression type rotary abutting mechanism in structural appearance, and the structural appearance is a rectangular structure.

5. The rammed ground perforating apparatus of claim 3, wherein: and the first connecting plate (166) for the spiral spring compression type rotary abutting mechanism and the second connecting plate (167) for the spiral spring compression type rotary abutting mechanism are respectively and fixedly connected with the bottom of the main first connecting plate (6) and the top of the main second connecting plate (17).

6. The rammed ground perforating apparatus of claim 1, wherein: the spiral spring compression type resetting mechanism (20) comprises a hollow shell (201) for the spiral spring compression type resetting mechanism, a telescopic space (202) for the spiral spring compression type resetting mechanism, a moving plate (203) for the spiral spring compression type resetting mechanism, a telescopic rod (204) for the spiral spring compression type resetting mechanism, a spiral spring (205) for the spiral spring compression type resetting mechanism, a first connecting plate (206) for the spiral spring compression type resetting mechanism, a second connecting plate (207) for the spiral spring compression type resetting mechanism and a bolt hole (208) for the spiral spring compression type resetting mechanism.

7. The rammed ground perforating apparatus of claim 6, wherein: the coil spring compression type reset mechanism is characterized in that a coil spring compression type telescopic space (202) for a reset mechanism is arranged at the center inside a hollow shell (201) for the reset mechanism, a movable plate (203) for the reset mechanism is placed inside the coil spring compression type telescopic space (202) for the reset mechanism, a telescopic rod (204) for the reset mechanism is installed at the center of one end face of the movable plate (203) for the reset mechanism, the rod body of the telescopic rod (204) for the reset mechanism of the coil spring compression type penetrates through the center of one end face of the hollow shell (201) for the reset mechanism of the coil spring compression type, the telescopic rod (204) for the reset mechanism of the coil spring compression type is sleeved with a coil spring (205) for the reset mechanism of the coil spring compression type in a compression state on the rod body inside the hollow shell (201) for the reset mechanism of the coil spring, the other end face of the hollow shell (201) for the spiral spring compression type resetting mechanism and the telescopic rod (204) for the spiral spring compression type resetting mechanism are respectively provided with a first connecting plate (206) for the spiral spring compression type resetting mechanism and a second connecting plate (207) for the spiral spring compression type resetting mechanism at one end positioned outside, and bolt holes (208) for the spiral spring compression type resetting mechanism are arranged inside the first connecting plate (206) for the spiral spring compression type resetting mechanism and the second connecting plate (207) for the spiral spring compression type resetting mechanism.

8. The rammed ground perforating apparatus of claim 7, wherein: the first connecting plate (206) for the coil spring compression type return mechanism is mounted on the bottom of the main mounting substrate (1).

9. The rammed ground perforating apparatus of claim 7, wherein: and the spiral spring compression type resetting mechanism is arranged on the upper surface of the main third connecting plate (10) by a second connecting plate (207).