CN108130909B

CN108130909B - Stake tamp for civil engineering

Info

Publication number: CN108130909B
Application number: CN201711433589.4A
Authority: CN
Inventors: 孙培丽
Original assignee: Guangdong Hongzhan Construction Engineering Co Ltd
Current assignee: Guangdong Hongzhan Construction Engineering Co., Ltd
Priority date: 2017-12-26
Filing date: 2017-12-26
Publication date: 2020-01-10
Anticipated expiration: 2037-12-26
Also published as: CN108130909A

Abstract

The invention discloses a timber pile tamper for civil engineering, which comprises a cylindrical hollow shell, wherein a supporting base plate of an integrated structure with the cylindrical hollow shell is arranged at the bottom of the cylindrical hollow shell, a tamping space and a through hole structure are respectively arranged at the centers of the cylindrical hollow shell and the supporting base plate, an insertion groove communicated with the tamping space is arranged on the side surface of the cylindrical hollow shell, a limiting hole structure of an integrated structure with the cylindrical hollow shell is arranged in the middle of the tamping space on the side surface of the cylindrical hollow shell, and a heavy object block is arranged above the limiting hole structure in the tamping space. The device is tamped by utilizing an electromagnetic principle and the gravity of an object, has the characteristics of high working efficiency, time saving and labor saving, is provided with an electromagnetic driving mechanism, can utilize the acting force between electromagnets, can play a role in resetting and pressing, is provided with a winding type lifting mechanism, can realize a quick resetting effect, is relatively stable in resetting process and is high in practicability.

Description

Stake tamp for civil engineering

Technical Field

The invention relates to the technical field of civil construction, in particular to a timber pile tamper for civil engineering.

Background

At present, timber piles are inevitably used in civil construction, and when the timber piles are wedged into the ground, the common mode is to manually swing a sledge hammer to carry out the pressing work, and the mode has great danger and time and labor consumption.

Disclosure of Invention

The invention aims to provide a timber pile tamper for civil engineering to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a timber pile tamper for civil engineering comprises a cylindrical hollow shell, wherein a supporting substrate of an integrated structure is arranged at the bottom of the cylindrical hollow shell, tamping spaces and through hole structures are respectively arranged at the centers of the cylindrical hollow shell and the supporting substrate, an insertion groove communicated with the tamping spaces is formed in the side face of the cylindrical hollow shell, a limiting hole structure of an integrated structure with the cylindrical hollow shell is arranged in the middle of the tamping spaces, a heavy object block is arranged above the limiting hole structure in the tamping spaces, a main connecting plate is fixed at the center of the lower surface of the heavy object block through a bolt, a touch plate structure of an integrated structure with the main connecting plate is arranged at the center of the lower surface of the main connecting plate, a main permanent magnet is arranged on the upper surface of the heavy object block, an electromagnetic driving mechanism is arranged above the main permanent magnet of the cylindrical hollow shell, the center of the cylindrical hollow shell is provided with a main center hole for communicating the upper surface of the cylindrical hollow shell with a ramming space, one side of the upper surface of the cylindrical hollow shell is provided with a motor mounting plate through a bolt, the upper surface of the motor mounting plate is provided with a motor, the end part of a main shaft of the motor in the motor is provided with a hoisting type lifting mechanism, the hoisting type lifting mechanism is arranged at the top of the cylindrical hollow shell, the electromagnetic driving mechanism comprises an iron core for the electromagnetic driving mechanism, a center hole for the electromagnetic driving mechanism, a coil mounting shell for the electromagnetic driving mechanism, a coil mounting groove for the electromagnetic driving mechanism, a coil for the electromagnetic driving mechanism, a controller mounting shell for the electromagnetic driving mechanism, a mounting plate for the electromagnetic driving mechanism and a through hole for the electromagnetic driving mechanism, the side surface of the iron core for the electromagnetic driving mechanism is sleeved with the coil mounting shell for the electromagnetic driving mechanism, the center of the iron core for the electromagnetic driving mechanism is provided with a center hole for the electromagnetic driving mechanism, which is connected with the upper end surface and the lower end surface of the iron core for the electromagnetic driving mechanism, the side surface of the coil mounting shell for the electromagnetic driving mechanism is provided with an annular coil mounting groove for the electromagnetic driving mechanism, the coil mounting shell for the electromagnetic driving mechanism is provided with a coil for the electromagnetic driving mechanism inside the coil mounting groove for the electromagnetic driving mechanism, the coil for the electromagnetic driving mechanism is wound on the inner surface of the coil mounting shell for the electromagnetic driving mechanism in a layer-by-layer winding manner, two ends of the coil for the electromagnetic driving mechanism are connected with the controller for the electromagnetic driving mechanism through leads, the bottom of the controller for the electromagnetic driving mechanism is mounted inside the controller mounting shell for the electromagnetic driving mechanism, and the bottom of the controller mounting shell for the electromagnetic driving mechanism is provided with an electromagnetic driving mechanism mounting plate which is of an integral structure with the controller mounting plate, the center of the controller mounting shell for the electromagnetic driving mechanism and the center of the mounting plate for the electromagnetic driving mechanism are both provided with a through hole for the electromagnetic driving mechanism for connecting a coil for the electromagnetic driving mechanism, the mounting plate for the electromagnetic driving mechanism at the bottom of the controller mounting shell for the electromagnetic driving mechanism is mounted on the side surface of the cylindrical hollow shell through a bolt, the hoisting type lifting mechanism comprises a first vertical plate for the hoisting type lifting mechanism, a second vertical plate for the hoisting type lifting mechanism, a connecting plate for the hoisting type lifting mechanism, a bolt for the hoisting type lifting mechanism, a bearing for the hoisting type lifting mechanism, a first rotating shaft for the hoisting type lifting mechanism, a second rotating shaft for the hoisting type lifting mechanism, a mounting plate for the hoisting type lifting mechanism, a hoisting wheel for the hoisting type lifting mechanism, a cable for the hoisting type lifting mechanism and a connecting flange plate for the hoisting type lifting mechanism, and the bottom ends of the first vertical plate for the hoisting type lifting mechanism and the second vertical plate for the hoisting type lifting mechanism are respectively mounted on one vertical plate The center of the upper surface of the connecting plate for the hoisting type lifting mechanism, a plurality of bolts for the hoisting type lifting mechanism are arranged in the connecting plate for the hoisting type lifting mechanism, a bearing for the hoisting type lifting mechanism is arranged at the center of the top of the first vertical plate for the hoisting type lifting mechanism and the top of the second vertical plate for the hoisting type lifting mechanism, the inner ring of the bearing for the hoisting type lifting mechanism positioned in the first vertical plate for the hoisting type lifting mechanism is sleeved on the shaft body of the first rotating shaft for the hoisting type lifting mechanism, the inner ring of the bearing for the hoisting type lifting mechanism positioned in the second vertical plate for the hoisting type lifting mechanism is sleeved on the shaft body of the second rotating shaft for the hoisting type lifting mechanism, the mounting plates for the hoisting type lifting mechanism are arranged at the opposite ends of the first rotating shaft for the hoisting type lifting mechanism and the second rotating shaft for the hoisting type lifting mechanism, the hoisting wheel for the hoisting mechanism is fixed between the mounting plates for the hoisting mechanism through bolts, a cable for the hoisting mechanism is wound on the inner surface of the hoisting wheel for the hoisting mechanism, the cable body of the cable for the hoisting mechanism penetrates through the main central hole, one end of the cable for the hoisting mechanism is embedded in the inner part of the upper surface of the heavy object block, a connecting flange plate for the hoisting mechanism is mounted at the other end of the second rotating shaft for the hoisting mechanism, and the end face of the connecting flange plate for the hoisting mechanism is fixedly connected with the end part of the motor main shaft.

Preferably, a control output terminal of the controller for the electromagnetic drive mechanism is connected to both ends of the coil for the electromagnetic drive mechanism.

Preferably, the center line of the core for the electromagnetic drive mechanism is on the same perpendicular line as the axis line of the cylindrical hollow housing.

Preferably, the connecting plate for the hoisting type lifting mechanism in the first vertical plate for the hoisting type lifting mechanism and the second vertical plate for the hoisting type lifting mechanism is fixed at the top end of the cylindrical hollow shell through bolts for the hoisting type lifting mechanism, and the axial lines of the first vertical plate for the hoisting type lifting mechanism and the second vertical plate for the hoisting type lifting mechanism are symmetrically arranged around the center of the main center hole.

Compared with the prior art, the invention has the beneficial effects that: the device is tamped by utilizing an electromagnetic principle and the gravity of an object, has the characteristics of high working efficiency, time saving and labor saving, is provided with an electromagnetic driving mechanism, can utilize the acting force between electromagnets, can play a role in resetting and pressing, is provided with a winding type lifting mechanism, can realize a quick resetting effect, is relatively stable in resetting process and is high in practicability.

Drawings

FIG. 1 is a schematic view of a full-section structure of a timber pile tamper for civil engineering according to the present invention;

FIG. 2 is a schematic structural view of an electromagnetic driving mechanism in a timber pile tamper for civil engineering of the present invention;

FIG. 3 is a schematic structural view of a hoisting type lifting mechanism in the timber pile tamper for civil engineering of the present invention;

in the figure: 1, a cylindrical hollow housing, 2, a support base plate, 3, a tamping space, 4, a through hole structure, 5, a limiting hole structure, 6, an insertion groove, 7, a heavy object block, 8, a main connecting plate, 9, a touch plate structure, 10, a main permanent magnet, 11, a main center hole, 12, an electromagnetic drive mechanism, 121, an iron core for an electromagnetic drive mechanism, 122, a center hole for an electromagnetic drive mechanism, 123, a coil mounting housing for an electromagnetic drive mechanism, 124, a coil mounting groove for an electromagnetic drive mechanism, 125, a coil for an electromagnetic drive mechanism, 126, a controller for an electromagnetic drive mechanism, 127, a controller mounting housing for an electromagnetic drive mechanism, 128, a mounting plate for an electromagnetic drive mechanism, 129, a through hole for an electromagnetic drive mechanism, 13, a motor mounting plate, 14, a motor, 15, a motor spindle, 16, a hoisting type lifting mechanism, 161, a first vertical plate for a hoisting type lifting mechanism, a second vertical plate for a, 162, second vertical plates for hoisting pulling means, 163, connecting plates for hoisting pulling means, 164, bolts for hoisting pulling means, 165, bearings for hoisting pulling means, 166, first rotating shafts for hoisting pulling means, 167, second rotating shafts for hoisting pulling means, 168, mounting plates for hoisting pulling means, 169, hoisting wheels for hoisting pulling means, 1610, cables for hoisting pulling means, 1611, and connecting flanges for hoisting pulling means.

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 cylindrical hollow shell comprises a cylindrical hollow shell 1, a supporting substrate 2 of an integrated structure is arranged at the bottom of the cylindrical hollow shell 1, a tamping space 3 and a through hole structure 4 are respectively arranged at the centers of the cylindrical hollow shell 1 and the supporting substrate 2, an insertion groove 6 communicated with the tamping space 3 is arranged on the side surface of the cylindrical hollow shell 1, a limiting hole structure 5 of an integrated structure is arranged in the middle of the tamping space 3, a heavy object block 7 is arranged above the limiting hole structure 5 in the tamping space 3, a main connecting plate 8 is fixed at the center of the lower surface of the heavy object block 7 through bolts, a touch plate structure 9 of an integrated structure is arranged at the center of the lower surface of the main connecting plate 8, a main permanent magnet 10 is arranged on the upper surface of the heavy object block 7, an electromagnetic driving mechanism 12 is arranged above the main permanent magnet 10 on the cylindrical hollow shell 1, the center of the cylindrical hollow shell 1 is provided with a main center hole 11 communicating the upper surface of the cylindrical hollow shell with the tamping space 3, one side of the upper surface of the cylindrical hollow shell 1 is provided with a motor mounting plate 13 through bolts, the upper surface of the motor mounting plate 13 is provided with a motor 14, the end part of a motor main shaft 15 in the motor 14 is provided with a hoisting type lifting mechanism 16, and the hoisting type lifting mechanism 16 is arranged at the top of the cylindrical hollow shell 1.

Referring to fig. 2, the electromagnetic drive mechanism 12 includes an electromagnetic drive mechanism iron core 121, an electromagnetic drive mechanism center hole 122, an electromagnetic drive mechanism coil mounting case 123, an electromagnetic drive mechanism coil mounting recess 124, an electromagnetic drive mechanism coil 125, an electromagnetic drive mechanism controller 126, an electromagnetic drive mechanism controller mounting case 127, an electromagnetic drive mechanism mounting plate 128, and an electromagnetic drive mechanism through hole 129; a coil mounting case 123 for an electromagnetic drive mechanism is fitted around a side surface of the core 121 for an electromagnetic drive mechanism, a center hole 122 for an electromagnetic drive mechanism connecting upper and lower end surfaces of the core 121 for an electromagnetic drive mechanism is provided at a center of the core 121 for an electromagnetic drive mechanism, a coil mounting groove 124 for an annular electromagnetic drive mechanism is provided at a side surface of the coil mounting case 123 for an electromagnetic drive mechanism, a coil 125 for an electromagnetic drive mechanism is mounted inside the coil mounting groove 124 for an electromagnetic drive mechanism, the coil 125 for an electromagnetic drive mechanism is wound on an inner surface of the coil mounting case 123 for an electromagnetic drive mechanism in a layer-by-layer winding manner, both ends of the coil 125 for an electromagnetic drive mechanism are connected to the controller 126 for an electromagnetic drive mechanism by wires, a bottom of the controller 126 for an electromagnetic drive mechanism is mounted inside the controller mounting case 127 for an electromagnetic drive mechanism, an electromagnetic drive mechanism mounting plate 128 having an integral structure with the controller mounting case 127 is provided at the bottom of the controller mounting case 127, electromagnetic drive mechanism through-holes 129 for connecting the electromagnetic drive mechanism coil 125 are provided at the centers of the controller mounting case 127 and the electromagnetic drive mechanism mounting plate 128, and the electromagnetic drive mechanism mounting plate 128 at the bottom of the controller mounting case 127 is mounted on the side surface of the cylindrical hollow case 1 by bolts; a control output end of the electromagnetic drive mechanism controller 126 is connected to both ends of the electromagnetic drive mechanism coil 125; the central line of the iron core 121 for the electromagnetic driving mechanism and the axial lead of the cylindrical hollow shell 1 are on the same vertical line, and the main functions are as follows: the controller 126 for the electromagnetic driving mechanism is turned on, after the coil 125 for the electromagnetic driving mechanism is energized with current, magnetic fields are generated at two ends of the iron core 121 for the electromagnetic driving mechanism, the direction of the current is changed, the direction of the magnetic fields at two ends of the iron core 121 for the electromagnetic driving mechanism is changed, the magnitude of the current is changed, and the magnitude of the magnetic fields at two ends of the iron core 121 for the electromagnetic driving mechanism is changed, so that when the heavy object block 7 moves upwards, the magnetic poles at the bottom end of the iron core 121 for the electromagnetic driving mechanism are opposite to the magnetism of the upper surface of the main permanent magnet 10, at the moment, the heavy object block 7 can move upwards to accelerate, when the wooden pile needs to be tamped, the motor 14 is turned off, and meanwhile, through the controller 126 for the electromagnetic driving mechanism, reverse current is injected into the coil 125 for the electromagnetic driving mechanism, at this time, the magnetism of the bottom surface of the iron core 121 for the electromagnetic driving mechanism is the same as that of the upper surface of the main permanent magnet 10, and under the principle that like poles repel each other and opposite poles attract each other, the weight block 7 rapidly moves downwards under the combined action of the self gravity and the electromagnetic acting force, and finally the dynamic force is applied to the surface of the wood pile to realize the tamping effect.

Referring to fig. 3, the hoisting mechanism 16 includes a first vertical plate 161 for hoisting mechanism, a second vertical plate 162 for hoisting mechanism, a connecting plate 163 for hoisting mechanism, a bolt 164 for hoisting mechanism, a bearing 165 for hoisting mechanism, a first rotating shaft 166 for hoisting mechanism, a second rotating shaft 167 for hoisting mechanism, a mounting plate 168 for hoisting mechanism, a hoisting wheel 169 for hoisting mechanism, a cable 1610 for hoisting mechanism, and a connecting flange 1611 for hoisting mechanism; the bottom ends of the first vertical plate 161 for the hoisting type lifting mechanism and the second vertical plate 162 for the hoisting type lifting mechanism are respectively arranged at the center of the upper surface of a connecting plate 163 for the hoisting type lifting mechanism, a plurality of bolts 164 for the hoisting type lifting mechanism are respectively arranged inside the connecting plate 163 for the hoisting type lifting mechanism, bearings 165 for the hoisting type lifting mechanism are respectively arranged at the centers of the tops of the first vertical plate 161 for the hoisting type lifting mechanism and the second vertical plate 162 for the hoisting type lifting mechanism, the inner ring of the bearing 165 for the hoisting type lifting mechanism positioned inside the first vertical plate 161 for the hoisting type lifting mechanism is sleeved on the shaft body of a first rotating shaft 166 for the hoisting type lifting mechanism, the inner ring of the bearing 165 for the hoisting type lifting mechanism positioned inside the second vertical plate 162 for the hoisting type lifting mechanism is sleeved on the shaft body of a second rotating shaft 167 for the hoisting type lifting mechanism, a winch lifting mechanism mounting plate 168 is respectively mounted at the opposite ends of the first rotating shaft 166 and the second rotating shaft 167 for the winch lifting mechanism, a winch wheel 169 for the winch lifting mechanism is fixed between the two winch lifting mechanism mounting plates 168 through bolts, a cable 1610 for the winch lifting mechanism is wound on the inner surface of the winch wheel 169 for the winch lifting mechanism, the rope body of the cable 1610 for the winch lifting mechanism penetrates through the main central hole 11, one end of the cable 1610 for the winch lifting mechanism is embedded in the upper surface of the heavy object block 7, a winch lifting mechanism connecting flange 1611 is mounted at the other end of the second rotating shaft 167 for the winch lifting mechanism, and the end face of the winch lifting mechanism connecting flange 1611 is fixedly connected with the end of the motor spindle 15; the connecting plate 163 for the hoisting type lifting mechanism in the first vertical plate 161 for the hoisting type lifting mechanism and the second vertical plate 162 for the hoisting type lifting mechanism is fixed at the top end of the cylindrical hollow shell 1 through the bolt 164 for the hoisting type lifting mechanism, and the axial leads of the first vertical plate 161 for the hoisting type lifting mechanism and the second vertical plate 162 for the hoisting type lifting mechanism are symmetrically arranged around the center of the main center hole 11, and the main functions of the connecting plate are as follows: the lifting action on the heavy object blocks 7 is achieved, when the heavy object blocks need to be lifted, the motor 14 is turned on, the second rotating shaft 167 for the hoisting type lifting mechanism is driven to move upwards, the hoisting wheel 169 for the hoisting type lifting mechanism fixed by the bolt is driven to rotate, the cable 1610 for the hoisting type lifting mechanism is continuously wound, the cable 1610 for the hoisting type lifting mechanism moves upwards, and when the heavy object blocks need to move downwards, the motor 14 is turned off.

The specific use mode is as follows: during the operation of the invention, the device is placed on the ground surface where the timber pile is required to be installed, the timber pile is inserted into the tamping space 3 through the insertion groove 6, the timber pile is inserted into the limiting hole structure 5, then the motor 14 is turned on, the winch type lifting mechanism 12 drives the heavy object block 7 to move upwards to the highest point, the controller 126 for the electromagnetic driving mechanism is turned on, according to the electromagnetic principle, after the coil 125 for the electromagnetic driving mechanism is electrified, the two ends of the iron core 121 for the electromagnetic driving mechanism can generate magnetic fields, the direction of the current can be changed, the directions of the magnetic fields at the two ends of the iron core 121 for the electromagnetic driving mechanism can be changed, the magnitude of the current can be changed, the magnitudes of the magnetic fields at the two ends of the iron core 121 for the electromagnetic driving mechanism can be changed, according to the principle, when the heavy object block 7 moves upwards, the magnetic poles at the bottom end of the iron core 121 for the electromagnetic driving mechanism are opposite to the magnetism of the upper surface of, at this time, the weight block 7 can accelerate upward moving, when the timber pile needs to be tamped, the motor 14 is turned off, and meanwhile, a reverse current is injected into the coil 125 for the electromagnetic driving mechanism through the controller 126 for the electromagnetic driving mechanism, at this time, the magnetism of the bottom surface of the iron core 121 for the electromagnetic driving mechanism is the same as that of the upper surface of the main permanent magnet 10, under the principle that like poles repel each other and opposite poles attract each other, the weight block 7 rapidly moves downward under the combined action of self gravity and electromagnetic acting force, finally, power is applied to the surface of the timber pile to achieve tamping, and the timber pile can be tamped tightly on the ground by working for a plurality of times in the same principle.

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 stake tamp for civil engineering, includes cylindricality hollow shell (1), its characterized in that: the bottom of the cylindrical hollow shell (1) is provided with a supporting substrate (2) of an integrated structure, the centers of the cylindrical hollow shell (1) and the supporting substrate (2) are respectively provided with a tamping space (3) and a through hole structure (4), the side of the cylindrical hollow shell (1) is provided with an insertion groove (6) communicated with the tamping space (3), the side of the cylindrical hollow shell (1) is provided with a limiting hole structure (5) of the integrated structure at the middle part of the tamping space (3), a heavy object block (7) is arranged above the limiting hole structure (5) in the tamping space (3), the center of the lower surface of the heavy object block (7) is fixed with a main connecting plate (8) through a bolt, the center of the lower surface of the main connecting plate (8) is provided with a touch plate structure (9) of the integrated structure, the upper surface of the heavy object block (7) is provided with a main permanent magnet (10), the cylindrical hollow shell (1) is provided with a magnetic driving mechanism (12) above the main permanent magnet (10), the center of the cylindrical hollow shell (1) is provided with a main central hole (11) communicating the upper surface of the cylindrical hollow shell with a tamping space (3), one side of the upper surface of the cylindrical hollow shell (1) is provided with a motor mounting plate (13) through bolts, the upper surface of the motor mounting plate (13) is provided with a motor (14), the end part of a motor main shaft (15) in the motor (14) is provided with a hoisting type lifting mechanism (16), the hoisting type lifting mechanism (16) is arranged at the top of the cylindrical hollow shell (1), and the magnetic driving mechanism (12) comprises an iron core (121) for the magnetic driving mechanism, a central hole (122) for the magnetic driving mechanism, and a magnetic driving mechanism, The coil mounting shell (123) for the electromagnetic driving mechanism, the coil mounting groove (124) for the electromagnetic driving mechanism, the coil (125) for the electromagnetic driving mechanism, the controller (126) for the electromagnetic driving mechanism, the controller mounting shell (127) for the electromagnetic driving mechanism, the mounting plate (128) for the electromagnetic driving mechanism and the wire through hole (129) for the electromagnetic driving mechanism are arranged, the side surface of the iron core (121) for the electromagnetic driving mechanism is sleeved with the coil mounting shell (123) for the electromagnetic driving mechanism, the center of the iron core (121) for the electromagnetic driving mechanism is provided with the center hole (122) for the electromagnetic driving mechanism which is connected with the upper end surface and the lower end surface of the iron core (121) for the electromagnetic driving mechanism, the side surface of the coil mounting shell (123) for the electromagnetic driving mechanism is provided with the annular coil mounting groove (124) for the electromagnetic driving mechanism, and the coil mounting shell (123) for the electromagnetic driving mechanism is internally provided with an electromagnetic driving mechanism in the electromagnetic driving mechanism mounting groove (124) A coil (125) for mechanism, wherein the coil (125) for electromagnetic drive mechanism is wound on the inner surface of a coil mounting shell (123) for electromagnetic drive mechanism in a layer-by-layer winding manner, two ends of the coil (125) for electromagnetic drive mechanism are connected with a controller (126) for electromagnetic drive mechanism through leads, the bottom of the controller (126) for electromagnetic drive mechanism is mounted in the controller mounting shell (127) for electromagnetic drive mechanism, the bottom of the controller mounting shell (127) for electromagnetic drive mechanism is provided with a mounting plate (128) for electromagnetic drive mechanism which is integrated with the controller mounting shell, the centers of the controller mounting shell (127) for electromagnetic drive mechanism and the mounting plate (128) for electromagnetic drive mechanism are provided with through-wire holes (129) for electromagnetic drive mechanism for connecting the coil (125) for electromagnetic drive mechanism, the controller for the electromagnetic drive mechanism is characterized in that a mounting plate (128) for the electromagnetic drive mechanism at the bottom of a mounting shell (127) for the controller for the electromagnetic drive mechanism is mounted on the side surface of a cylindrical hollow shell (1) through bolts, the hoisting type lifting mechanism (16) comprises a first vertical plate (161) for the hoisting type lifting mechanism, a second vertical plate (162) for the hoisting type lifting mechanism, a connecting plate (163) for the hoisting type lifting mechanism, bolts (164) for the hoisting type lifting mechanism, a bearing (165) for the hoisting type lifting mechanism, a first rotating shaft (166) for the hoisting type lifting mechanism, a second rotating shaft (167) for the hoisting type lifting mechanism, a mounting plate (168) for the hoisting type lifting mechanism, a hoisting wheel (169) for the hoisting type lifting mechanism, a cable (1610) for the hoisting type lifting mechanism and a connecting flange plate (1611) for the hoisting type lifting mechanism, and the bottom ends of the first vertical plate (161) for the hoisting type lifting mechanism and the second vertical plate (162) for the hoisting type lifting mechanism are respectively mounted on a vertical plate (168) for the hoisting A plurality of hoisting lifting mechanism bolts (164) for installation are installed inside the connecting plates (163) for the hoisting lifting mechanisms, bearings (165) for the hoisting lifting mechanisms are installed at the centers of the tops of the first vertical plate (161) and the second vertical plate (162) for the hoisting lifting mechanisms, the inner rings of the bearings (165) for the hoisting lifting mechanisms inside the first vertical plate (161) for the hoisting lifting mechanisms are sleeved on the shaft body of the first rotating shaft (166) for the hoisting lifting mechanisms, the inner rings of the bearings (165) for the hoisting lifting mechanisms inside the second vertical plate (162) for the hoisting lifting mechanisms are sleeved on the shaft body of the second rotating shaft (167) for the hoisting lifting mechanisms, and one hoisting lifting mechanism bolt (164) is installed at the opposite end of each of the first rotating shaft (166) for the hoisting lifting mechanisms and the second rotating shaft (167) for the hoisting lifting mechanisms The mounting plate (168) is fixed between the mounting plates (168) for the hoisting mechanism through bolts, a hoisting wheel (169) for the hoisting mechanism is fixed on the inner surface of the hoisting wheel (169) for the hoisting mechanism, a cable (1610) for the hoisting mechanism is wound on the inner surface of the hoisting wheel (169) for the hoisting mechanism, a cable body of the cable (1610) for the hoisting mechanism penetrates through the main central hole (11), one end of the cable (1610) for the hoisting mechanism is embedded in the inner surface of the upper surface of the heavy object block (7), a connecting flange plate (1611) for the hoisting mechanism is installed at the other end of the second rotating shaft (167) for the hoisting mechanism, and the end face of the connecting flange plate (1611) for the hoisting mechanism is fixedly connected with the end of the motor main shaft (15).

2. The civil engineering timber pile tamper of claim 1, wherein: the control output end of the controller (126) for the electromagnetic drive mechanism is connected to both ends of the coil (125) for the electromagnetic drive mechanism.

3. The civil engineering timber pile tamper of claim 1, wherein: the central line of the iron core (121) for the electromagnetic driving mechanism and the axial line of the cylindrical hollow shell (1) are positioned on the same vertical line.

4. The civil engineering timber pile tamper of claim 1, wherein: the connecting plate (163) for the winch type lifting mechanism in the first vertical plate (161) for the winch type lifting mechanism and the second vertical plate (162) for the winch type lifting mechanism is fixed at the top end of the cylindrical hollow shell (1) through a bolt (164) for the winch type lifting mechanism, and the axial lines of the first vertical plate (161) for the winch type lifting mechanism and the second vertical plate (162) for the winch type lifting mechanism are symmetrically arranged around the center of the main center hole (11).