CN210684688U - Novel side-clamping type vibration hammer - Google Patents

Abstract

The utility model discloses a novel side-clamping type vibration hammer, which comprises a rotary device, an outer box body assembly, an inner box body assembly, an arm-holding assembly, a lower clamping device and damping glue, wherein the arm-holding assembly is arranged on the inner box body assembly, the outer box body assembly is sleeved on the inner box body assembly through the damping glue, the rotary device is arranged above the outer box body assembly, and the lower clamping device is arranged below the inner box body assembly; the rotating device comprises a connector and a rotating mechanism, the connector is arranged above the rotating mechanism, and the rotating mechanism is fixed with the top of the outer box body assembly; the inner box body assembly comprises an inner box body and an eccentric assembly, the eccentric assembly is installed in the inner box body, the arm holding assembly can be installed on the inner box body in an opening and closing mode, and the lower clamping device is fixedly installed below the inner box body. The utility model discloses an embrace arm subassembly can conveniently install and dismantle, can install steel sheet pile respectively according to the pile type and embrace arm or round pile and embrace the arm, has not only saved production design cost, has also saved the transport simultaneously moreover and has deposited the cost.

Description

Novel side-clamping type vibration hammer

Technical Field

The utility model relates to a vibration pile equipment field, in particular to novel side presss from both sides formula vibratory hammer.

Background

The hydraulic vibration hammer is a device which is powered by a hydraulic pump driven by a motor, takes hydraulic oil as a working medium, and utilizes the pressure of the hydraulic oil to transmit power to drive a pile hammer to carry out pile driving operation. Since the advent, the hydraulic vibratory hammer has the advantages of no need of complex external equipment, huge striking energy and wide application occasions, is widely applied to basic construction projects such as city construction, bridges, ports and the like, and is necessary equipment for basic construction. The basic working principle of the hydraulic vibration hammer is as follows: the vibration hammer generates periodic exciting force to vibrate the pile body, so that the soil around the pile body is liquefied to reduce the friction resistance of the soil to the pile body, and the pile body can be driven into the soil under the action of the vibrating force and the gravity.

The side clamp type vibration hammer is a novel hydraulic vibration hammer, is provided with a side clamp and a lower clamp simultaneously, can improve the construction efficiency through the cooperation of double fixtures, and can also carry out construction operation on occasions where some transmission vibration hammers can not be applied. The formula of current side clamp bobbing hammer is the different bobbing hammer of different stake type design usually, for example steel sheet pile side clamp formula bobbing hammer, the formula of circle stake side clamp formula bobbing hammer etc. is completely independent between the different bobbing hammers, when needs carry out multiple stake construction operation simultaneously, has increased production design cost on the one hand, and on the other hand has also increased handling cost.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a can conveniently carry out the construction operation's of steel sheet pile and round pile novel side clamp formula bobbing hammer.

In order to solve the technical problem, the utility model discloses a technical scheme does:

the utility model provides a novel side presss from both sides formula vibratory hammer which characterized in that: the damping device comprises a rotating device, an outer box body assembly, an inner box body assembly, an arm-embracing assembly, a lower clamping device and damping rubber, wherein the arm-embracing assembly is installed on the inner box body assembly; the turning device comprises a connector and a turning mechanism, the connector is arranged above the turning mechanism, and the turning mechanism is fixed with the top of the outer box body assembly; the inner box body assembly comprises an inner box body and an eccentric assembly, the eccentric assembly is installed in the inner box body, the arm holding assembly can be installed on the inner box body in an opening and closing mode, and the lower clamping device is fixedly installed below the inner box body.

Preferably, the connector includes bottom plate, first curb plate and second curb plate symmetry set up in the both sides of bottom plate, processing has a plurality of bolt installation through-holes on the bottom plate, first curb plate and second curb plate upper portion symmetry are equipped with two first sleeves and two second sleeves respectively, be equipped with first deep floor between first curb plate and the second curb plate.

Preferably, rotation mechanism includes lift cylinder, crossover sub and rotary reducer, the crossover sub includes crossover sub and lower crossover sub, both sides between last crossover sub and the lower crossover sub are connected through upper junction plate and lower connecting plate, the middle part between last crossover sub and the lower crossover sub forms the space of installation hydraulic valve piece, go up the crossover sub on offer with the first mounting hole of connector installation, the installation has been seted up at the crossover sub middle part rotary reducer's second mounting hole, rotary reducer lower extreme trompil with outer container body subassembly is connected, the upper junction plate end is upwards extension type of bending, lift cylinder install in one side of crossover sub.

Preferably, the outer box assembly comprises an upper plate, two third side plates are symmetrically arranged on the left side and the right side below the upper plate, a rotating device mounting hole is formed in the upper plate, a guard plate is connected to one side between the two third side plates, and damping rubber mounting holes are formed in the third side plates on the two sides of the outer box assembly.

Preferably, the inner box body is of a hollow structure formed by welding a plurality of plates, and two circular through holes are respectively formed in the front plate and the rear plate of the inner box body.

Preferably, the eccentric assembly comprises a driving eccentric assembly and a driven eccentric assembly, and the driving eccentric assembly and the driven eccentric assembly are respectively installed in circular through holes on the front plate and the rear plate; the driving eccentric assembly comprises a first rotating shaft and a driving gear arranged on the first rotating shaft; driven eccentric subassembly includes the second axis of rotation and installs the epaxial driven gear of second axis of rotation, driving gear and driven gear mesh mutually, install the counter weight alloy on driving gear and the driven gear, first end cover is installed to first axis of rotation front side, the second end cover is installed to second axis of rotation both sides and first axis of rotation rear side, install the motor on the first end cover, motor power take off end with first axis of rotation links to each other.

Preferably, the arm embracing component comprises a left arm embracing and a right arm embracing, the left arm embracing and the right arm embracing are symmetrical and the same in structure, the front ends of the left arm embracing and the right arm embracing are recessed relatively, and a first oil cylinder is arranged between the tail ends of the left arm embracing and the right arm embracing; the left arm-embracing comprises a first upper arm plate and a first lower arm plate, wherein a first connecting shaft mounting hole is formed in the corresponding position of the middle parts of the first upper arm plate and the first lower arm plate, a first connecting shaft is mounted in the first connecting shaft mounting hole, and a first supporting rod is fixedly mounted between the tail ends of the first upper arm plate and the first lower arm plate; the right arm-embracing comprises a second upper arm plate and a second lower arm plate, wherein a second connecting shaft mounting hole is formed in the corresponding position of the middle parts of the second upper arm plate and the second lower arm plate, the specification of the second connecting shaft mounting hole is the same as that of the first connecting shaft mounting hole, a second connecting shaft is mounted in the second connecting shaft mounting hole, and a second supporting rod is fixedly mounted between the second upper arm plate and the tail end of the second lower arm plate; the middle parts of the first upper arm plate and the second upper arm plate are rotationally connected through a transmission part, and the middle parts of the first lower arm plate and the second lower arm plate are rotationally connected through a clamp adapter plate.

Preferably, press from both sides the device down including pressing from both sides the body down, press from both sides body upper surface processing down and have two circular through-holes, press from both sides the body below down and set up the cavity region of the fixed dental lamina of installation and activity dental lamina, the fixed unciform pile board that colludes that is equipped with of lateral surface of the regional one end of cavity, be equipped with fixed mounting on the medial surface of the cavity region of colluding pile board one side on pressing from both sides the body down fixed dental lamina, press from both sides the body below down and be fixed with collude pile board relative position department and install the second hydro-cylinder, the cavity region is installed set up the through-hole on the lateral wall of second hydro-cylinder one side, the hydro-cylinder piston rod of second hydro-cylinder passes through the through-hole stretches into in the dead zone, the.

Preferably, a second reinforcing rib plate is vertically arranged between one end of the bottom plate and the first side plate and between one end of the bottom plate and the second side plate.

Preferably, a third reinforcing rib plate is arranged in the vertical direction between the lower connecting plate and the lower conversion joint.

Adopt above-mentioned technical scheme, the utility model discloses an embrace arm subassembly can conveniently install and dismantle, can install steel sheet pile respectively according to the pile type and embrace arm or round pile and embrace the arm, has not only saved production design cost, has also saved the transport simultaneously and has deposited the cost moreover.

Drawings

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

fig. 2 is a schematic structural diagram of the connecting head of the present invention;

FIG. 3 is a schematic structural view of the swing mechanism of the present invention without a swing reducer;

fig. 4 is a schematic structural view of the outer case assembly of the present invention;

FIG. 5 is a schematic structural view of the cushion gum of the present invention;

fig. 6 is a schematic structural view of the inner box assembly with the arm embracing assembly according to the present invention;

FIG. 7 is a rear view of the inner box assembly of the present invention with the first end cap and the second end cap removed;

FIG. 8 is a schematic structural view of the inner box of the present invention;

fig. 9 is a schematic structural view of the arm embracing assembly of the present invention;

fig. 10 is a schematic structural view of the left arm of the present invention;

FIG. 11 is a schematic structural view of a transmission member according to the present invention;

fig. 12 is a schematic structural view of the lower clamping device of the present invention.

In the figure, 1-a slewing device, 1-1-a bottom plate, 1-2-a first side plate, 1-3-a second side plate, 1-4-a bolt mounting through hole, 1-5-a first sleeve, 1-6-a second sleeve, 1-7-a first reinforcing rib plate, 1-8-a second reinforcing rib plate, 1-9-a lifting oil cylinder, 1-10-an upper conversion joint, 1-11-a lower conversion joint, 1-12-an upper connecting plate, 1-13-a first mounting hole, 1-14-a second mounting hole, 1-15-a lower connecting plate, 1-17-a third reinforcing rib plate, 2-an inner box body component, 2-1-an inner box body and 2-2-an active eccentric component, 2-3-driven eccentric component, 2-4-first end cover, 2-5-second end cover, 2-6-motor, 3-outer box component, 3-1-upper plate, 3-2-third side plate, 3-3-slewing gear mounting hole, 3-4-guard plate, 3-5-shock-absorbing glue mounting hole, 4-shock-absorbing glue, 5-lower clamping device, 5-1-lower clamping body, 5-2-circular through hole, 5-4-fixed dental plate, 5-5-movable dental plate, 5-6-hooking pile plate, 5-7-second oil cylinder, 6-arm-embracing component, 6-1-first oil cylinder, 6-2-first upper arm plate, 6-3-a first lower arm plate, 6-4-a first connecting shaft mounting hole, 6-5-a first connecting shaft, 6-6-a first supporting rod, 6-7-a second upper arm plate, 6-8-a second lower arm plate, 6-9-a second connecting shaft, 6-10-a second supporting rod, 6-11-a transmission part, 6-12-a clamp adapter plate and 6-13-a connecting plate.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1, the novel side-clamping type vibratory hammer comprises a rotary device 1, an outer box assembly 3, an inner box assembly 2, an arm-embracing assembly 6, a lower clamping device 5 and damping rubber 4, wherein the arm-embracing assembly 6 is mounted on the inner box assembly 2, the outer box assembly 3 is sleeved on the inner box assembly 2 through the damping rubber 4, the rotary device 1 is mounted above the outer box assembly 3, and the lower clamping device 5 is mounted below the inner box assembly 2; the slewing device 1 comprises a connector and a slewing mechanism, the connector is arranged above the slewing mechanism and used for connecting an excavator, and the slewing mechanism is fixed with the top of the outer box body assembly 3; the inner box body assembly 2 comprises an inner box body 2-1 and an eccentric assembly, the eccentric assembly is installed in the inner box body 2-1, the arm holding assembly 6 can be opened and closed to be installed on the inner box body 2-1, and the lower clamping device 5 is fixedly installed below the inner box body 2-1.

Further, as shown in fig. 2, the connector includes a bottom plate 1-1, a first side plate 1-2 and a second side plate 1-3, the first side plate 1-2 and the second side plate 1-3 are symmetrically disposed on two sides of the bottom plate 1-1, a plurality of bolt mounting through holes 1-4 are processed on the bottom plate 1-1 for connecting with a swing mechanism below, two first sleeves 1-5 and two second sleeves 1-6 are symmetrically disposed on the upper portions of the first side plate 1-2 and the second side plate 1-3 respectively for connecting with an excavator, and a first reinforcing rib plate 1-7 is disposed between the first side plate 1-2 and the second side plate 1-3 for reinforcing the stability of the connector.

Further, as shown in fig. 2, a second reinforcing rib plate 1-8 is vertically arranged between one end of the bottom plate 1-1 and the first side plate 1-2 and the second side plate 1-3, so that the stability of the first side plate 1-2 and the second side plate 1-3 is further enhanced.

Further, as shown in fig. 1 and 3, the swing mechanism includes lifting cylinders 1-9, a crossover joint and a swing reducer, the crossover joint includes an upper crossover joint 1-10 and a lower crossover joint 1-11, two sides between the upper crossover joint 1-10 and the lower crossover joint 1-11 are connected with a lower connecting plate 1-15 through an upper connecting plate 1-12, a space for installing a hydraulic valve block is formed in the middle between the upper crossover joint 1-10 and the lower crossover joint 1-11, a first mounting hole 1-13 for mounting the connector is formed on the upper crossover joint 1-10, a second mounting hole 1-14 for mounting the swing reducer is formed in the middle of the lower crossover joint 1-11, a hole at the lower end of the swing reducer is connected with the outer case assembly 3, the tail ends of the upper connecting plates 1-12 are upwards extended and bent and used for installing the lifting oil cylinders 1-9, the lifting oil cylinders 1-9 are installed on one sides of the adapter, and the outer box body assembly 3 below can do side-tipping movement under the driving of the lifting oil cylinders 1-9.

Further, as shown in fig. 3, a third reinforcing rib plate 1-17 is arranged in the vertical direction between the lower connecting plate 1-15 and the lower conversion joint 1-11 so as to improve the supporting and fixing functions.

Further, as shown in fig. 4 and 5, the outer box assembly 3 includes an upper plate 3-1, two third side plates 3-2 are symmetrically installed on the left and right sides below the upper plate 3-1, a turning device installation hole 3-3 is formed in the upper plate 3-1, a guard plate 3-4 is connected to one side between the two third side plates 3-2, the guard plate can play a role in blocking and protecting the inner box assembly 2 installed in the outer box assembly 3, and a cushion rubber installation hole 3-5 is formed in the third side plate 3-2 on the two sides of the outer box assembly 3 and used for being fixed with the cushion rubber 4.

Further, as shown in fig. 6-8, the inner box 2-1 is a hollow structure formed by welding a plurality of plates, and two circular through holes are respectively formed in the front plate and the rear plate of the inner box 2-1.

Further, as shown in fig. 6-8, the eccentric assembly comprises a driving eccentric assembly 2-2 and a driven eccentric assembly 2-3, and the driving eccentric assembly 2-2 and the driven eccentric assembly 2-3 are respectively installed in the circular through holes on the front plate and the rear plate; the driving eccentric assembly 2-2 comprises a first rotating shaft and a driving gear arranged on the first rotating shaft; driven eccentric subassembly 2-3 includes the second axis of rotation and installs epaxial driven gear of second rotation, driving gear and driven gear mesh mutually, install the counter weight alloy on driving gear and the driven gear, form the eccentric power when can making the gear revolve, first axis of rotation front side is installed first end cover 2-4, second axis of rotation both sides and first axis of rotation rear side are installed second end cover 2-5, install motor 2-6 on the first end cover 2-4, motor 2-6 power take off end with first axis of rotation links to each other, and under the drive of motor 2-6, the driving gear can drive driven gear and rotate.

Further, as shown in fig. 9-11, the arm embracing component 6 includes a left arm embracing and a right arm embracing, the left arm embracing and the right arm embracing are symmetrical and the same in structure, the front ends of the left arm embracing and the right arm embracing are recessed relatively, a space for embracing and clamping a circular pile can be formed in the process of grabbing and clamping, and a first oil cylinder 6-1 is installed between the tail ends of the left arm embracing and the right arm embracing; the left arm comprises a first upper arm plate 6-2 and a first lower arm plate 6-3, a first connecting shaft mounting hole 6-4 is formed in the corresponding position of the middle of the first upper arm plate 6-2 and the first lower arm plate 6-3, a first connecting shaft 6-5 is mounted in the first connecting shaft mounting hole 6-4 and used for rotatably mounting the left arm on the inner box body 2-1, and a first supporting rod 6-6 is fixedly mounted between the tail ends of the first upper arm plate 6-2 and the first lower arm plate 6-3; the right arm comprises a second upper arm plate 6-7 and a second lower arm plate 6-8, a second connecting shaft mounting hole is formed in the middle of the second upper arm plate 6-7 and the middle of the second lower arm plate 6-8, the second connecting shaft mounting hole is the same as the first connecting shaft mounting hole 6-4 in specification, a second connecting shaft 6-9 is mounted in the second connecting shaft mounting hole and used for rotatably mounting the right arm on the inner box body 2-1, and a second support rod 6-10 is fixedly mounted between the tail ends of the second upper arm plate 6-7 and the second lower arm plate 6-8; the middle parts of the first upper arm plate 6-2 and the second upper arm plate 6-7 are rotationally connected through a transmission piece 6-11, and the middle parts of the first lower arm plate 6-3 and the second lower arm plate 6-8 are rotationally connected through a clamp adapter plate 6-12.

Further, as shown in fig. 9-11, a connecting plate 6-13 is rotatably arranged between the middle parts of the first upper arm plate 6-2 and the second upper arm plate 6-7, so that the transmission member 6-11 can be protected to a certain extent.

Further, as shown in fig. 12, the lower clamp device 5 includes a lower clamp body 5-1, two rows of circular through holes 5-2 are processed on the upper surface of the lower clamp body 5-1 for installing the lower clamp body 5-1 on the lower portion of the inner box 2-1, a hollow area for installing the fixed dental lamina 5-4 and the movable dental lamina 5-5 is opened below the lower clamp body 5-1, a hook-shaped pile hooking lamina 5-6 is fixed on the outer side surface of one end of the hollow area, the fixed dental lamina 5-4 is fixed on the inner side surface of the hollow area on the side of the pile hooking lamina 5-6 on the lower clamp body 5-1, a second cylinder 5-7 is installed at the position of the lower clamp body 5-1 opposite to the position where the pile hooking lamina 5-6 is fixed, a through hole is opened on the side wall of the hollow area on the side where the second cylinder 5-7 is installed, and an oil cylinder piston rod of the second oil cylinder 5-7 extends into the hollow area through the through hole, and the movable dental plate 5-5 is arranged on the oil cylinder piston rod.

When the rotary device is used, the rotary device 1 is arranged on the upper plate 3-1 of the outer box body assembly 3, the arm holding assembly 6 is arranged on the inner box body assembly 2, the inner box body assembly 2 is arranged between the two third side plates 3-2 of the outer box body assembly 3, the damping rubber 4 is arranged, the lower clamping device 5 is arranged below the inner box body assembly 2, and finally an oil way is connected. When the rotary device 1 is fed with oil, the piston rods of the lifting oil cylinders 1-9 move to drive the outer box body assembly 3 to tilt, meanwhile, the rotary speed reducer can drive the outer box body assembly 3 to rotate, when the motors 2-6 of the inner box body assembly 2 are fed with oil, the eccentric assembly can be driven to rotate, horizontal component forces of the driving gear and the driven gear are mutually counteracted when the eccentric assembly rotates due to mutual meshing of the driving gear and the driven gear, vertical component forces are in the same direction to form resultant force, so that periodic upward or downward resultant force is formed, the vibration hammer is driven to vibrate up and down repeatedly, and the purpose of piling is achieved.

The utility model discloses an embrace arm subassembly 6 can conveniently install and dismantle, can install steel sheet pile respectively according to the pile type and embrace arm or round pile and embrace the arm, has not only saved production and design cost, has also saved the transport simultaneously moreover and has deposited the cost.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and the scope of the invention is to be accorded the full scope of the claims.

Claims (10)

1. The utility model provides a novel side presss from both sides formula vibratory hammer which characterized in that: the damping device comprises a rotating device (1), an outer box body assembly (3), an inner box body assembly (2), an arm holding assembly (6), a lower clamping device (5) and damping rubber (4), wherein the arm holding assembly (6) is installed on the inner box body assembly (2), the outer box body assembly (3) is sleeved on the inner box body assembly (2) through the damping rubber (4), the rotating device (1) is installed above the outer box body assembly (3), and the lower clamping device (5) is installed below the inner box body assembly (2); the turning device (1) comprises a connector and a turning mechanism, the connector is mounted above the turning mechanism, and the turning mechanism is fixed with the top of the outer box body assembly (3); the inner box body assembly (2) comprises an inner box body (2-1) and an eccentric assembly, the eccentric assembly is installed in the inner box body (2-1), the arm holding assembly (6) can be opened and closed to be installed on the inner box body (2-1), and the lower clamping device (5) is fixedly installed below the inner box body (2-1).

2. The new side-grip vibratory hammer of claim 1, further comprising: the connector comprises a bottom plate (1-1), a first side plate (1-2) and a second side plate (1-3), wherein the first side plate (1-2) and the second side plate (1-3) are symmetrically arranged on two sides of the bottom plate (1-1), a plurality of bolt installation through holes (1-4) are processed on the bottom plate (1-1), two first sleeves (1-5) and two second sleeves (1-6) are symmetrically arranged on the upper portions of the first side plate (1-2) and the second side plate (1-3) respectively, and a first reinforcing rib plate (1-7) is arranged between the first side plate (1-2) and the second side plate (1-3).

3. The new side-grip vibratory hammer of claim 1, further comprising: the slewing mechanism comprises lifting oil cylinders (1-9), a conversion joint and a slewing reducer, wherein the conversion joint comprises an upper conversion joint (1-10) and a lower conversion joint (1-11), two sides between the upper conversion joint (1-10) and the lower conversion joint (1-11) are connected with lower connecting plates (1-15) through upper connecting plates (1-12), a space for installing a hydraulic valve block is formed in the middle between the upper conversion joint (1-10) and the lower conversion joint (1-11), first installation holes (1-13) installed with the connectors are formed in the upper conversion joint (1-10), second installation holes (1-14) for installing the slewing reducer are formed in the middle of the lower conversion joint (1-11), and an opening at the lower end of the slewing reducer is connected with the outer box body assembly (3), the tail ends of the upper connecting plates (1-12) are of upward extending bending types, and the lifting oil cylinders (1-9) are installed on one sides of the conversion joints.

4. The new side-grip vibratory hammer of claim 1, further comprising: the outer box body assembly (3) comprises an upper plate (3-1), two third side plates (3-2) are symmetrically arranged on the left side and the right side below the upper plate (3-1), a slewing device mounting hole (3-3) is formed in the upper plate (3-1), a shielding plate (3-4) is connected to one side between the two third side plates (3-2), and damping rubber mounting holes (3-5) are formed in the third side plates (3-2) on the two sides of the outer box body assembly (3).

5. The new side-grip vibratory hammer of claim 1, further comprising: the inner box body (2-1) is of a hollow structure formed by welding a plurality of plates, and two circular through holes are respectively formed in the front plate and the rear plate of the inner box body (2-1).

6. The new side-grip vibratory hammer of claim 5, further comprising: the eccentric assembly comprises a driving eccentric assembly (2-2) and a driven eccentric assembly (2-3), and the driving eccentric assembly (2-2) and the driven eccentric assembly (2-3) are respectively installed in circular through holes in the front plate and the rear plate; the driving eccentric assembly (2-2) comprises a first rotating shaft and a driving gear mounted on the first rotating shaft; driven eccentric subassembly (2-3) include the second axis of rotation and install the epaxial driven gear of second axis of rotation, driving gear and driven gear mesh mutually, install the counter weight alloy on driving gear and the driven gear, first end cover (2-4) are installed to first axis of rotation front side, second end cover (2-5) are installed to second axis of rotation both sides and first axis of rotation rear side, install motor (2-6) on first end cover (2-4), motor (2-6) power take off end with first axis of rotation links to each other.

7. The new side-grip vibratory hammer of claim 1, further comprising: the arm embracing component (6) comprises a left arm embracing and a right arm embracing, the left arm embracing and the right arm embracing are symmetrical and the same in structure, the front ends of the left arm embracing and the right arm embracing are recessed relative to each other, and a first oil cylinder (6-1) is arranged between the tail ends of the left arm embracing and the right arm embracing; the left arm comprises a first upper arm plate (6-2) and a first lower arm plate (6-3), a first connecting shaft mounting hole (6-4) is formed in the corresponding position of the middle of the first upper arm plate (6-2) and the middle of the first lower arm plate (6-3), a first connecting shaft (6-5) is mounted in the first connecting shaft mounting hole (6-4), and a first supporting rod (6-6) is fixedly mounted between the tail ends of the first upper arm plate (6-2) and the first lower arm plate (6-3); the right arm-embracing comprises a second upper arm plate (6-7) and a second lower arm plate (6-8), a second connecting shaft mounting hole is formed in the middle of the second upper arm plate (6-7) and the second lower arm plate (6-8) in a corresponding position, the second connecting shaft mounting hole is the same as the first connecting shaft mounting hole (6-4), a second connecting shaft (6-9) is mounted in the second connecting shaft mounting hole, and a second supporting rod (6-10) is fixedly mounted between the tail ends of the second upper arm plate (6-7) and the second lower arm plate (6-8); the middle parts of the first upper arm plate (6-2) and the second upper arm plate (6-7) are rotationally connected through a transmission piece (6-11), and the middle parts of the first lower arm plate (6-3) and the second lower arm plate (6-8) are rotationally connected through a clamp adapter plate (6-12).

8. The new side-grip vibratory hammer of claim 1, further comprising: the lower clamping device (5) comprises a lower clamping body (5-1), two rows of circular through holes (5-2) are processed on the upper surface of the lower clamping body (5-1), a hollow area for installing a fixed tooth plate (5-4) and a movable tooth plate (5-5) is formed below the lower clamping body (5-1), a hooked pile hooking plate (5-6) is fixedly arranged on the outer side surface of one end of the hollow area, a second oil cylinder (5-7) is arranged at the position, opposite to the position where the pile hooking plate (5-6) is fixedly arranged, below the lower clamping body (5-1), of the hollow area, a through hole is formed in the side wall of one side of the second oil cylinder (5-7) in the hollow area, and an oil cylinder piston rod of the second oil cylinder (5-7) extends into the hollow area through the through hole, and the movable dental plate (5-5) is arranged on the oil cylinder piston rod.

9. The new side-grip vibratory hammer of claim 2, further comprising: and a second reinforcing rib plate (1-8) is vertically arranged between one end of the bottom plate (1-1) and the first side plate (1-2) and the second side plate (1-3).

10. The new side-grip vibratory hammer of claim 3, further comprising: and a third reinforcing rib plate (1-17) is arranged in the vertical direction between the lower connecting plate (1-15) and the lower adapter (1-11).

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