CN215518952U - Combined type drilling rotary digging structure - Google Patents

Abstract

The utility model relates to the technical field of drilling rotary excavating structures, and discloses a combined type drilling rotary excavating structure which comprises a crane, a vibration breaking hammer and a grab shovel, wherein the crane is used for hoisting the vibration breaking hammer and the grab shovel, and the vibration breaking hammer is used for breaking a soil layer; the grab shovel comprises a shovel seat and a shovel body, the shovel seat is movably connected with the shovel body and is arranged, the shovel body is used for grabbing muck, the vibration breaking hammer is longitudinally penetrating through the shovel seat, and the vibration breaking hammer is separated from or abutted against the shovel seat. When construction is carried out, when a soft soil layer is encountered, the grabbing shovel is directly adopted to grab the muck, and meanwhile, when the muck is collected, the muck is conveniently separated from the grabbing shovel by utilizing the vibration of the vibration breaking hammer; when meetting harder geology, transfer the vibration quartering hammer through the loop wheel machine, transfer to the below of grabhook shovel, then carry out the broken construction of vibration through the vibration quartering hammer, accomplish broken back, lift the vibration quartering hammer, then, use the grabhook shovel to borrow, the switching operation between the vibration quartering hammer of being convenient for and the grabhook shovel greatly improves the efficiency of construction.

Description

Combined type drilling rotary digging structure

Technical Field

The utility model relates to the technical field of drilling rotary excavating structures, in particular to a combined type drilling rotary excavating structure.

Background

The breaking hammer can more effectively break stones and rocks in engineering construction, and improves the working efficiency; the breaking hammer is mounted on an excavating loader or a wheel loader for breaking operation.

In the prior art, the breaking hammer can only perform mechanical striking and breaking work, and in actual use, the breaking hammer and the bucket are alternately used, so that the construction efficiency is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a combined type drilling rotary excavating structure and aims to solve the problem that the efficiency of drilling shoveling operation is poor in the prior art.

The combined type drilling rotary excavating structure comprises a crane, a vibration breaking hammer and a grab shovel, wherein the crane is used for hoisting the vibration breaking hammer and the grab shovel, and the vibration breaking hammer is used for breaking a soil layer; the grab shovel comprises a shovel seat and a shovel body, the shovel seat is movably connected with the shovel body and is arranged, the shovel body is used for grabbing muck, the vibration breaking hammer is longitudinally penetrated through the shovel seat, and the vibration breaking hammer is separated from or contradicted to the shovel seat.

Further, the crane comprises a main crane and an auxiliary crane, the auxiliary crane is used for hoisting the vibration breaking hammer, and the main crane is used for hoisting the grabbing shovel; the vibration quartering hammer includes the hammer ring, the grapple includes the shovel ring, the hammer ring with the shovel ring is to corresponding the arranging, the hammer ring with the shovel ring is the separation or is contradicted and arranges.

Furthermore, the hammer ring is provided with protruding strips, the protruding strips are arranged in an upward protruding mode, the shovel ring is provided with shovel grooves, and the shovel grooves and the protruding strips are arranged in an up-down corresponding mode; when the protruding strip is embedded into the shovel groove, the vibration breaking hammer is in abutting arrangement with the shovel seat.

Further, the vibratory breaking hammer comprises a clamping arm, the clamping arm is located above the grab blade, and the clamping arm is used for clamping or separating the grab blade.

Furthermore, the grab shovel comprises two shovel bodies which are movably connected with the shovel seat respectively, the two shovel bodies are arranged correspondingly, and the two shovel bodies are arranged in a swinging manner along opposite directions or along opposite directions; the lower part of the vibration breaking hammer is arranged between the two shovel bodies.

Further, along the horizontal direction, two the shovel body is the parallel and level and arranges.

Further, the shovel body is provided with a soil grabbing cavity which is arranged in a shape of big end up,

furthermore, the soil grabbing cavity is arranged in a shape of an upper cone and a lower cone.

Furthermore, the shovel body comprises a shovel head and a shovel plate, the lower part of the shovel head is connected with the shovel plate, and the upper part of the shovel head is movably connected with the shovel seat; the shovel plate is provided with a top end surface and a bottom end surface, the top end surface of the shovel plate is arranged in an arc shape, and the middle part of the top end surface of the shovel plate is gradually arranged downwards in an inclined mode from the middle part to the two ends of the top end surface of the shovel plate; the bottom surface of the shovel plate is arc-shaped, and the middle part of the bottom surface of the shovel plate is gradually arranged upwards in an inclined mode to the two ends.

Further, the shovel plate is arranged in a flat shape.

Compared with the prior art, the combined type drilling rotary excavating structure provided by the utility model has the advantages that when construction is carried out, when a soft soil layer is met, the grabbing shovel is directly adopted to grab the muck, and meanwhile, when the muck is collected, the muck is conveniently separated from the grabbing shovel by utilizing the vibration of the vibration breaking hammer; when meetting harder geology, transfer the vibration quartering hammer through the loop wheel machine, transfer to the below of grabhook shovel, then carry out the broken construction of vibration through the vibration quartering hammer, accomplish broken back, lift the vibration quartering hammer, then, use the grabhook shovel to borrow, the switching operation between the vibration quartering hammer of being convenient for and the grabhook shovel greatly improves the efficiency of construction.

Drawings

FIG. 1 is a schematic plan view of a combined drilling rotary excavating structure provided by the present invention;

FIG. 2 is a schematic perspective view of two shovel bodies of the combined drilling rotary excavating structure provided by the utility model;

FIG. 3 is a schematic plan view of a shovel plate of the combined drilling rotary excavating structure provided by the utility model;

fig. 4 is a schematic plan view of the vibration breaking hammer of the combined drilling rotary excavating structure provided by the utility model.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-4, preferred embodiments of the present invention are shown.

The combined type drilling rotary excavating structure comprises a crane, a vibration breaking hammer 2 and a grab shovel 1, wherein the crane is used for hoisting the vibration breaking hammer 2 and the grab shovel 1, and the vibration breaking hammer 2 is used for breaking a soil layer; grab shovel 1 includes shovel seat 11 and shovel body 12, and shovel seat 11 is swing joint with shovel body 12 and arranges, and shovel body 12 is used for snatching the dregs, and vibration quartering hammer 2 is and vertically runs through shovel seat 11, and vibration quartering hammer 2 is the separation or contradicts with shovel seat 11 and arranges.

When the combined drilling and rotary excavating structure is constructed and meets a soft soil layer, the grab shovel 1 is directly adopted to grab the muck, and meanwhile, when the muck is collected, the muck is conveniently separated from the grab shovel 1 by utilizing the vibration of the vibration breaking hammer 2; when meetting harder geology, transfer vibration quartering hammer 2 through the loop wheel machine, transfer to the below of grabhook 1, then carry out the broken construction of vibration through vibration quartering hammer 2, accomplish broken back, lift vibration quartering hammer 2, then, use grabhook 1 to get soil, the switching operation between the vibration quartering hammer 2 of being convenient for and the grabhook 1 greatly improves the efficiency of construction.

The vibration breaking hammer 2 can adopt a hydraulic mode and a pneumatic mode; and the crushing construction of harder geology is realized.

The crane comprises a main crane and an auxiliary crane, the auxiliary crane is used for hoisting the vibration breaking hammer 2, and the main crane is used for hoisting the grab shovel 1; like this, according to the demand of construction, select main to hang or vice to hang, realize the position change of vibration quartering hammer 2 and grab shovel 1, realize vibration quartering hammer 2 and grab shovel 1 and be conflict or the separation arrangement.

The vibration breaking hammer 2 comprises a hammer ring, the grab shovel 1 comprises a shovel ring, the hammer ring and the shovel ring are arranged correspondingly, and the hammer ring and the shovel ring are arranged in a separated or abutting mode; like this, through the cooperation of hammer ring and shovel ring, realize that vibration quartering hammer 2 is conflict or the separation arrangement with grab shovel 1.

That is to say, in actual operation, when meetting soft soil layer, main control grapple 1 that hangs is in the below of vibration quartering hammer 2, directly adopts grapple 1 to carry out snatching of dregs, and at this moment, the hammer ring can be the separation with the shovel ring and arrange, also can be the conflict and arrange, until the dregs snatch the back that finishes, shifts to and prevents the region, and main control grapple 1 that hangs is lifted and is contradicted with vibration quartering hammer 2 and arranges, utilizes the vibration of vibration quartering hammer 2, is convenient for the dregs to break away from grapple 1.

When meetting harder geology, transfer vibratory breaking hammer 2 through vice the hanging, transfer to the below of grapple 1, at this moment, grapple 1 is the separation arrangement with vibratory breaking hammer 2, then vibrates broken construction through vibratory breaking hammer 2, accomplishes broken back, lifts vibratory breaking hammer 2, is in the top of grapple 1 until vibratory breaking hammer 2, then, uses grapple 1 to borrow.

The hammer ring is provided with protruding strips which are arranged in a protruding mode upwards, the shovel ring is provided with shovel grooves, and the shovel grooves and the protruding strips are arranged in an up-down corresponding mode; when the protruding strips are embedded into the shovel grooves, the vibration breaking hammer 2 is arranged in a contact manner with the shovel seat 11; like this, when needs vibration quartering hammer 2 is to contradict with shovel seat 11 and arranges, through the cooperation in protruding strip and shovel groove, reinforcing vibration quartering hammer 2 and shovel seat 11's conflict effect.

The protruding strip is cyclic annular and arranges, and the shovel groove is cyclic annular and arranges, and like this, the protruding strip of being convenient for and the cooperation in shovel groove, simultaneously, increase protruding strip and the area of contact in shovel groove.

The vibration breaking hammer 2 comprises a clamping arm, the clamping arm is positioned above the grab shovel 1, and the clamping arm is used for clamping or separating the grab shovel 1; like this, when needs vibration quartering hammer 2 is conflict with shovel seat 11 and arranges, grab shovel 1 through centre gripping arm centre gripping to reinforcing vibration quartering hammer 2 and shovel seat 11's conflict effect.

The clamping arm comprises a clamping head and at least two arm rods, the inner ends of the arm rods are hinged with the clamping head, and the outer ends of the arm rods are movably arranged; the grab shovel 1 is clamped or separated by swinging the two arm rods towards or away from each other.

The clamping arm comprises three arm rods which are arranged at intervals in a surrounding manner along the circumferential direction of the clamping head, and the three arm rods synchronously swing in the opposite direction or in the opposite direction to realize clamping or separation of the grab shovel 1; and, under the effect of three armed levers, improve the centre gripping steadiness.

The grab shovel 1 comprises two shovel bodies 12, the two shovel bodies 12 are respectively movably connected with a shovel seat 11, the two shovel bodies 12 are correspondingly arranged, and the two shovel bodies 12 are arranged in a swinging manner along opposite directions or along opposite directions; when the muck needs to be grabbed, the two shovel bodies 12 swing along the opposite direction to clamp the muck to the muck grabbing cavity; when the shovel body is transferred to a collection area, the two shovel bodies 12 swing along opposite directions, and therefore the residue soil is separated from the soil grabbing cavity.

The lower part of the vibratory breaking hammer 2 is arranged between the two shovel bodies 12; therefore, the overall stability is better, and the vibration breaking hammer 2 and the grab shovel 1 are convenient to hang.

The grab shovel 1 comprises a limiting ring, and a shovel seat 11 is sleeved on the limiting ring; the vibration breaking hammer 2 is provided with a limiting part 21, a limiting ring is arranged above the limiting part 21, when the vibration breaking hammer 2 is lifted, the limiting part 21 is limited by the limiting ring to be lifted continuously, and the vibration breaking hammer 2 is prevented from being separated from the grab shovel 1 by mistake.

And along the horizontal direction, the two shovel bodies 12 are arranged in parallel and level; the two shovel bodies 12 can grab the residual soil and the residual soil below the shovel bodies conveniently and synchronously, and the whole structure is more balanced.

The shovel body 12 is provided with a soil grabbing cavity which is arranged in a large-size manner and a small-size manner, so that the slag soil can be grabbed conveniently, and the grabbing amount of the slag soil can be increased.

The soil grabbing cavities are arranged in a shape of an upper cone, a lower cone and a big cone; the slag soil is convenient to grab, and the grabbing amount of the slag soil is increased.

The shovel body 12 comprises a shovel head 121 and a shovel plate 122, the lower part of the shovel head 121 is connected with the shovel plate 122, and the upper part of the shovel head 121 is movably connected with the shovel base 11; the shovel plate 122 has a top end surface and a bottom end surface, the top end surface of the shovel plate 122 is arranged in an arc shape, and the middle part to the two ends of the top end surface of the shovel plate 122 is gradually arranged downwards in an inclined manner; the bottom end surface of the shovel plate 122 is arranged in an arc shape, and the middle part of the bottom end surface of the shovel plate 122 is gradually arranged upwards in an inclined manner in the direction from the middle to the two ends; this facilitates the swinging of blade 122, reduces the interference between vibratory breaking hammer 2 and blade 12, and facilitates the switching operation.

The shovel plate 122 is arranged in a flat shape, so that the dead weight of the shovel body 12 is reduced, and the shovel body 12 can be conveniently hoisted.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The combined type drilling and rotary excavating structure is characterized by comprising a crane, a vibration breaking hammer and a grab shovel, wherein the crane is used for hoisting the vibration breaking hammer and the grab shovel, and the vibration breaking hammer is used for breaking a soil layer; the grab shovel comprises a shovel seat and a shovel body, the shovel seat is movably connected with the shovel body and is arranged, the shovel body is used for grabbing muck, the vibration breaking hammer is longitudinally penetrated through the shovel seat, and the vibration breaking hammer is separated from or contradicted to the shovel seat.

2. The combined type drilling and rotary excavating structure of claim 1, wherein the crane comprises a main crane and an auxiliary crane, the auxiliary crane is used for hoisting the vibration breaking hammer, and the main crane is used for hoisting the grabbing shovel; the vibration quartering hammer includes the hammer ring, the grapple includes the shovel ring, the hammer ring with the shovel ring is to corresponding the arranging, the hammer ring with the shovel ring is the separation or is contradicted and arranges.

3. The combined type drilling and rotary excavating structure of claim 2, wherein the hammer ring is provided with protruding strips which are arranged in an upward protruding manner, the shovel ring is provided with shovel grooves which are arranged corresponding to the protruding strips up and down; when the protruding strip is embedded into the shovel groove, the vibration breaking hammer is in abutting arrangement with the shovel seat.

4. The combined drilling and rotary excavating structure according to any one of claims 1 to 3, wherein the vibratory breaking hammer comprises a clamping arm which is located above the grapple and is used for clamping or separating the grapple.

5. The combined type drilling and rotary excavating structure according to any one of claims 1 to 3, wherein the grappling shovel comprises two shovel bodies, the two shovel bodies are respectively movably connected with the shovel base and arranged correspondingly, and the two shovel bodies are arranged in a swinging manner along opposite directions or along opposite directions; the lower part of the vibration breaking hammer is arranged between the two shovel bodies.

6. The combined type drilling and rotary excavating structure of claim 5, wherein the two shovel bodies are arranged in parallel and level along the horizontal direction.

7. The combined type drilling and rotary excavating structure according to any one of claims 1 to 3, wherein the shovel body is provided with a soil grabbing cavity which is arranged in a shape of a big end up.

8. The combined type drilling and rotary excavating structure of claim 7 wherein the soil grabbing cavities are arranged in a shape of an upper cone and a lower cone.

9. The combined type drilling and rotary excavating structure of any one of claims 1 to 3, wherein the shovel body comprises a shovel head and a shovel plate, the lower part of the shovel head is connected with the shovel plate, and the upper part of the shovel head is movably connected with the shovel base; the shovel plate is provided with a top end surface and a bottom end surface, the top end surface of the shovel plate is arranged in an arc shape, and the middle part of the top end surface of the shovel plate is gradually arranged downwards in an inclined mode from the middle part to the two ends of the top end surface of the shovel plate; the bottom surface of the shovel plate is arc-shaped, and the middle part of the bottom surface of the shovel plate is gradually arranged upwards in an inclined mode to the two ends.

10. The structure of claim 9, wherein the shovels are arranged in a flat shape.

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