CN210104743U - Engineering high-frequency hydraulic vibration hammer - Google Patents

Abstract

The utility model discloses an engineering high frequency hydraulic pressure vibratory hammer relates to hydraulic pressure vibratory hammer technical field, needs to cooperate corresponding auxiliary machinery to carry out work for the hydraulic pressure vibratory hammer who solves among the prior art, but connects comparatively trouble and can't match the problem that different mechanical apparatus goes on using. Damping element piece top is provided with the connection basepan, the surface of connecting the basepan top is provided with the locking disc, the top of connecting the basepan is provided with the regulation carousel, the top of adjusting the carousel is provided with outer connecting rod, the top of outer connecting rod is provided with the activity pivot, the inside of damping element piece is provided with the damping box, and the damping box has two, one side of damping box is provided with hydraulic hose, and hydraulic hose has threely, damping element piece below is provided with the vibration element piece, the inside of vibration element piece is provided with the eccentric block, and the eccentric block has a plurality ofly, the both sides of vibration element piece all are provided with hydraulic motor.

Description

Engineering high-frequency hydraulic vibration hammer

Technical Field

The utility model relates to a hydraulic pressure vibratory hammer technical field specifically is an engineering high frequency hydraulic pressure vibratory hammer.

Background

Hydraulic vibratory hammers were developed on the basis of electric vibratory hammers. There are mainly conventional, high-frequency and resonance-free types (both resonance-free and high-frequency types), and different types of hammers are suitable for different geological environments: the conventional hydraulic vibration hammer has large amplitude and is suitable for construction in clay soil, the high-frequency vibration hammer is suitable for sandy soil, and the resonance-free vibration hammer is suitable for areas with strict limitation on vibration. The sinking and pulling construction of tubular piles, high-strength concrete precast tubular piles, vibrating sinking pipe cast-in-place piles and various steel piles can be realized by utilizing a series of hydraulic vibration hammers.

However, the existing hydraulic vibration hammer needs to be matched with corresponding auxiliary machinery to work, but the connection is troublesome and the hydraulic vibration hammer cannot be matched with different mechanical appliances for use; therefore, the existing requirements are not met, and an engineering high-frequency hydraulic vibration hammer is provided for the requirement.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an engineering high frequency hydraulic pressure vibratory hammer to the hydraulic pressure vibratory hammer who proposes in solving above-mentioned background art needs to cooperate corresponding auxiliary machinery to carry out work, but connects comparatively trouble and can't match different mechanical apparatus and carry out the problem of using.

In order to achieve the above object, the utility model provides a following technical scheme: an engineering high-frequency hydraulic vibratory hammer comprises a damping element block, wherein a connecting base plate is arranged above the damping element block, a lock disc is arranged on the outer surface of the top of the connecting base plate, an adjusting rotary disc is arranged above the connecting base plate, an outer connecting rod is arranged above the adjusting rotary disc, a movable rotating shaft is arranged above the outer connecting rod, two damping box bodies are arranged inside the damping element block, hydraulic hoses are arranged on one side of each damping box body, three hydraulic hoses are arranged, a vibrating element block is arranged below the damping element block, an eccentric block is arranged inside the vibrating element block, a plurality of eccentric blocks are arranged inside the vibrating element block, hydraulic motors are arranged on two sides of the vibrating element block, a supporting base is arranged below the vibrating element block, an I-shaped rail rod is arranged below the supporting base, and two I-shaped rail rods are arranged, the anti-skid rail is characterized in that a first clamp is arranged below the I-shaped rail rod, a second clamp is arranged on one side of the first clamp, hydraulic oil cylinders are arranged inside the first clamp and the second clamp, a main fixing clamp plate is arranged on one side of each hydraulic oil cylinder, a movable clamp plate is arranged on the other side of the main fixing clamp plate, and anti-skid thread grooves are formed in the outer surfaces of the inner sides of the movable clamp plate and the main fixing clamp plate.

Preferably, the damping element block is connected with the connection base plate through a bolt, the connection base plate is fixedly connected with the lock plate, and the adjusting turntable is connected with the connection base plate through the lock plate.

Preferably, the damping element block is fixedly connected with the vibration element block, the adjusting turntable is connected with the outer connecting rod through an electric control rotating shaft, and the outer connecting rod is rotatably connected with the movable rotating shaft.

Preferably, the damping element block is connected with the damping box body through a screw, and the damping box body is connected with the hydraulic motor through a hydraulic hose.

Preferably, the vibration element block is connected with a support base in a welding mode, the support base is connected with the I-shaped rail rod through a bolt, and the first clamp and the second clamp are connected with the I-shaped rail rod in a sliding mode.

Preferably, the first clamp and the second clamp are slidably connected with the movable clamp plate, and the first clamp and the second clamp are fixedly connected with the main fixed clamp plate.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a connection base plate at damping element piece top can be connected with outside auxiliary machine, the regulation carousel of connecting rod bottom outside with be connected the lock dish on the base plate and carry out the calibration and be connected, agree with the two fixed, avoid when using, the condition that drops appears between machine and the component, the activity pivot and loop wheel machine or other relevant equipment at connecting back connecting rod top outside are connected, because the shape of construction article probably has certain difference, when the commodity price is hoisted, the deviation appears and can't coincide each other with the ground recess, at this moment alright come to control the angle that the bottom pressed from both sides its article through rotating the regulation carousel, make it can agree with each other with the ground recess.

Drawings

FIG. 1 is an overall front view of the present invention;

FIG. 2 is an overall side view of the present invention;

fig. 3 is a schematic view of the connection base plate structure of the present invention.

In the figure: 1. a shock-absorbing element block; 2. an outer connecting rod; 3. a movable rotating shaft; 4. adjusting the turntable; 5. a hydraulic hose; 6. a vibrating element block; 7. a hydraulic motor; 8. an eccentric block; 9. a support base; 10. an I-shaped rail rod; 11. a first clamp; 12. a second clamp; 13. a hydraulic cylinder; 14. a main fixed splint; 15. a lock disc; 16. a damping box body; 17. a movable splint; 18. an anti-skid groove; 19. and connecting the basal disc.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, the present invention provides an embodiment: an engineering high-frequency hydraulic vibratory hammer comprises a damping element block 1, wherein a connecting base plate 19 is arranged above the damping element block 1, a lock plate 15 is arranged on the outer surface of the top of the connecting base plate 19, an adjusting rotary plate 4 is arranged above the connecting base plate 19, an outer connecting rod 2 is arranged above the adjusting rotary plate 4, a movable rotating shaft 3 is arranged above the outer connecting rod 2, two damping box bodies 16 are arranged inside the damping element block 1 and play a role in damping, hydraulic hoses 5 are arranged on one sides of the damping box bodies 16, three hydraulic hoses 5 are arranged, a vibration element block 6 is arranged below the damping element block 1, an eccentric block 8 is arranged inside the vibration element block 6, a plurality of eccentric blocks 8 are arranged, hydraulic motors 7 are arranged on two sides of the vibration element block 6, a supporting base 9 is arranged below the vibration element block 6, and an I-shaped rail rod 10 is arranged below the supporting base 9, and worker shape rail pole 10 has two, the regulation of the interval of being convenient for, the below of worker shape rail pole 10 is provided with first anchor clamps 11, one side of first anchor clamps 11 is provided with second anchor clamps 12, the inside of first anchor clamps 11 and second anchor clamps 12 all is provided with hydraulic cylinder 13, one side of hydraulic cylinder 13 is provided with main solid fixed splint 14, the opposite side of main solid fixed splint 14 is provided with movable clamp plate 17, movable clamp plate 17 and the inboard surface of main solid fixed splint 14 all are provided with anti-skidding thread groove 18, increase the frictional force between object and the anchor clamps.

Further, damping element piece 1 passes through bolted connection with connecting the base plate 19, connects base plate 19 and lock dish 15 fixed connection, adjusts carousel 4 and is connected through lock dish 15 with connecting base plate 19, and the component drops when preventing to use.

Further, damping element piece 1 and vibrating element piece 6 fixed connection, regulation carousel 4 is connected through automatically controlled pivot with outer connecting rod 2, and outer connecting rod 2 rotates with activity pivot 3 to be connected, is convenient for remember nature regulation and uses.

Further, the damping element block 1 is connected with a damping box 16 through screws, and the damping box 16 is connected with the hydraulic motor 7 through a hydraulic hose 5.

Further, the vibration element block 6 is connected with a support base 9 in a welding mode, the support base 9 is connected with the I-shaped rail 10 through bolts, the first clamp 11 and the second clamp 12 are connected with the I-shaped rail 10 in a sliding mode, and the distance is adjusted according to the conditions of different construction objects.

Further, the first clamp 11 and the second clamp 12 are slidably connected with the movable clamp plate 17, the first clamp 11 and the second clamp 12 are fixedly connected with the main fixed clamp plate 14, and the two clamp plates are matched with each other to fix an object.

The working principle is as follows: when in use, the adjusting rotary disc 4 at the bottom of the outer connecting rod 2 is connected with the locking disc 15 on the connecting base disc 19 in a calibration way, the adjusting rotary disc 4 and the locking disc are matched and fixed, so that the condition that a device and an element fall off when in use is avoided, and the movable rotary shaft 3 at the top of the outer connecting rod 2 is connected with a crane or other corresponding equipment after connection, because the shape of a construction object possibly has a certain difference, when the object price is lifted, the angle is deviated and can not be matched with a ground groove, at the moment, the angle of the object clamped at the bottom can be controlled by controlling the rotation of the adjusting rotary disc 4, so that the object can be matched with the ground groove, then the distance between the movable clamping plate 17 and the main fixed clamping plate 14 can be adjusted by the extension and retraction of the hydraulic oil cylinder 13, so that a pile can be clamped or loosened, the shape of a used groove is determined according to the shape, hydraulic motor 7 drives the vibration subassembly and rotates, and every two turn to the same in four vibration subassemblies, during the same motion of speed, produced horizontal eccentric power will offset each other, and vertical eccentric power adds, makes vibrating element piece 6 produce vertical reciprocating's high-frequency vibration, when the rotational speed of engine constantly improves, makes hydraulic motor 7 produce high-speed operation, makes the vibration system have very high quality and speed to produce powerful impact momentum, can squeeze into the ground with the stake in.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. 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 (6)

1. An engineering high-frequency hydraulic vibration hammer comprises a damping element block (1), and is characterized in that: the damping element block is characterized in that a connecting base plate (19) is arranged above the damping element block (1), a lock plate (15) is arranged on the outer surface of the top of the connecting base plate (19), an adjusting rotary plate (4) is arranged above the connecting base plate (19), an outer connecting rod (2) is arranged above the adjusting rotary plate (4), movable rotating shafts (3) are arranged above the outer connecting rod (2), damping box bodies (16) are arranged inside the damping element block (1), the number of the damping box bodies (16) is two, hydraulic hoses (5) are arranged on one side of each damping box body (16), the number of the hydraulic hoses (5) is three, a vibration element block (6) is arranged below the damping element block (1), eccentric blocks (8) are arranged inside the vibration element block (6), the number of the eccentric blocks (8) is multiple, hydraulic motors (7) are arranged on two sides of the vibration element block (6), the vibration element comprises a vibration element block (6), a support base (9) is arranged below the vibration element block (6), an I-shaped rail rod (10) is arranged below the support base (9), two I-shaped rail rods (10) are arranged, a first clamp (11) is arranged below the I-shaped rail rod (10), a second clamp (12) is arranged on one side of the first clamp (11), hydraulic oil cylinders (13) are arranged inside the first clamp (11) and the second clamp (12), a main fixing clamp plate (14) is arranged on one side of each hydraulic oil cylinder (13), a movable clamp plate (17) is arranged on the other side of the main fixing clamp plate (14), and anti-skid grooves (18) are formed in the outer surfaces of the inner sides of the movable clamp plate (17) and the main fixing clamp plate (14).

2. An engineered high frequency hydraulic vibratory hammer as set forth in claim 1, wherein: damping element piece (1) passes through bolted connection with connection base plate (19), connect base plate (19) and lock dish (15) fixed connection, adjust carousel (4) and be connected through lock dish (15) with connection base plate (19).

3. An engineered high frequency hydraulic vibratory hammer as set forth in claim 1, wherein: damping element piece (1) and vibrating element piece (6) fixed connection, adjust carousel (4) and be connected through automatically controlled pivot with outer connecting rod (2), outer connecting rod (2) rotate with activity pivot (3) and are connected.

4. An engineered high frequency hydraulic vibratory hammer as set forth in claim 1, wherein: the damping element block (1) is connected with a damping box body (16) through screws, and the damping box body (16) is connected with a hydraulic motor (7) through a hydraulic hose (5).

5. An engineered high frequency hydraulic vibratory hammer as set forth in claim 1, wherein: the vibration element block (6) is connected with the supporting base (9) in a welding mode, the supporting base (9) is connected with the I-shaped rail rod (10) through bolts, and the first clamp (11) and the second clamp (12) are connected with the I-shaped rail rod (10) in a sliding mode.

6. An engineered high frequency hydraulic vibratory hammer as set forth in claim 1, wherein: the first clamp (11) and the second clamp (12) are connected with the movable clamp plate (17) in a sliding mode, and the first clamp (11) and the second clamp (12) are fixedly connected with the main fixed clamp plate (14).

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