DIAPHRAGM WALL DOWN-THE-HOLE HAMMER TRENCHING MACHINE AND USE METHOD THEREOF

Abstract

A diaphragm wall down-the-hole hammer trenching machine comprises a crane, a guide frame, a push-pull device, cluster down-the-hole hammers, gas collecting hoods, a high-pressure medium pipe or cable, and a slurry discharge pipe. The crane suspends the guide frame; the cluster down-the-hole hammers are connected to the bottom of the guide frame by means of the push-pull device; each cluster down-the-hole hammer comprises a primary hammer and secondary hammers; the plurality of secondary hammers are provided on each primary hammer; one gas collecting hood is provided on the lower part of each primary hammer; the high-pressure medium pipe or cable passes through the guide frame and the push-pull device to enter a primary hammer distribution pipeline to drive the secondary hammers to perform percussive drilling; mud channels are provided in each primary hammer; and the slurry discharge pipe passes through the guide frame and communicates with the gas collecting hoods.

Claims

1. A diaphragm wall down-the-hole hammer trenching machine, comprising a crane (1), a guide frame (2), a push-pull device (3), cluster down-the-hole hammers (4), gas collecting hoods (5), a high-pressure medium pipe or cable (6), and a slurry discharge pipe (7); wherein the crane (1) suspends the guide frame (2); the cluster down-the-hole hammers (4) are connected to the bottom of the guide frame (2) by means of the push-pull device (3); the cluster down-the-hole hammers (4) are rectangular, and are in a separate arrangement; each cluster down-the-hole hammer (4) comprises a primary hammer (4.1) and secondary hammers (4.2); and the plurality of the secondary hammers (4.2) are disposed on each primary hammer (4.1), the secondary hammers (4.2) being down-the-hole hammers driven by a high-pressure medium or electrically; the lower part of each primary hammer (4.1) is provided with one gas collecting hood (5); the high-pressure medium pipe or cable (6) passes through the guide frame (2) to enter a primary hammer distribution pipeline to drive the secondary hammers (4.2) to perform percussive drilling; mud channels (8) are formed in each primary hammer (4.1); and the slurry discharge pipe (7) passes through the guide frame (2) and communicates with the gas collecting hoods (5).

2. The diaphragm wall down-the-hole hammer trenching machine according to claim 1, wherein an exhaust port is formed in the middle-upper parts of the secondary hammers (4.2); and the exhaust port is higher than a lower opening of each gas collecting hood (5).

3. The diaphragm wall down-the-hole hammer trenching machine according to claim 2, wherein the secondary hammers (4.2) comprise first secondary hammers (4.21) and second secondary hammers (4.22); and the first secondary hammers (4.21) are located on the outer sides and adjacent sides of the primary hammers (4.1); and the first secondary hammers (4.21) are rectangular and close to each other.

4. The diaphragm wall down-the-hole hammer trenching machine according to claim 3, wherein each gas collecting hood (5) is of a skirt-like structure.

5. The diaphragm wall down-the-hole hammer trenching machine according to claim 4, wherein the cluster down-the-hole hammers (4) are movably connected with the guide frame (2) by means of the push-pull device (3).

6. A use method of the diaphragm wall down-the-hole hammer trenching machine according to claim 1, comprising the steps of, Step 1: installation; connecting a crane (1) with a guide frame (2); connecting cluster down-the-hole hammers (4) to the bottom of the guide frame (2) by means of a push-pull device (3); allowing a high-pressure medium pipe or cable (6) to pass through the guide frame (2) and the push-pull device (3) to enter a primary hammer distribution pipeline; and allowing a slurry discharge pipe (7) to pass through the guide frame (2) and communicate with gas collecting hoods (5); Step 2: hoisting; suspending, by the crane (1), the guide frame (2) to a working point; and Step 3: diaphragm wall down-the-hole hammer trenching driving secondary hammers (4.2) to perform percussive drilling after the high-pressure medium pipe or cable (6) enters the primary hammer distribution pipeline; pushing and pulling primary hammers (4.1) by the push-pull device (3) so that the primary hammers (4.1) are constantly and symmetrically separated or close to each other to achieve full-section rock drilling with the down-the-hole hammers; and mixing waste gas from the down-the-hole hammers with mud in the gas collecting hoods (5), discharging the mixture into the slurry discharge pipe (7) through mud channels (8) in the middles of the primary hammers (4.1) under the action of mud pressure to form air-lift reverse circulation for slag removal, and discharging the mixture upwardly into a ground mud treatment system through the slurry discharge pipe (7).

7. The use method of the diaphragm wall down-the-hole hammer trenching machine according to claim 6, wherein a plurality of the secondary hammers (4.2) are provided; and percussive drilling is randomly performed by the plurality of the secondary hammers (4.2).

8. A use method of the diaphragm wall down-the-hole hammer trenching machine according to claim 2, comprising the steps of, Step 1: installation; connecting a crane (1) with a guide frame (2); connecting cluster down-the-hole hammers (4) to the bottom of the guide frame (2) by means of a push-pull device (3); allowing a high-pressure medium pipe or cable (6) to pass through the guide frame (2) and the push-pull device (3) to enter a primary hammer distribution pipeline; and allowing a slurry discharge pipe (7) to pass through the guide frame (2) and communicate with gas collecting hoods (5); Step 2: hoisting; suspending, by the crane (1), the guide frame (2) to a working point; and Step 3: diaphragm wall down-the-hole hammer trenching driving secondary hammers (4.2) to perform percussive drilling after the high-pressure medium pipe or cable (6) enters the primary hammer distribution pipeline; pushing and pulling primary hammers (4.1) by the push-pull device (3) so that the primary hammers (4.1) are constantly and symmetrically separated or close to each other to achieve full-section rock drilling with the down-the-hole hammers; and mixing waste gas from the down-the-hole hammers with mud in the gas collecting hoods (5), discharging the mixture into the slurry discharge pipe (7) through mud channels (8) in the middles of the primary hammers (4.1) under the action of mud pressure to form air-lift reverse circulation for slag removal, and discharging the mixture upwardly into a ground mud treatment system through the slurry discharge pipe (7).

9. The use method of the diaphragm wall down-the-hole hammer trenching machine according to claim 8, wherein a plurality of the secondary hammers (4.2) are provided; and percussive drilling is randomly performed by the plurality of the secondary hammers (4.2).

10. A use method of the diaphragm wall down-the-hole hammer trenching machine according to claim 3, comprising the steps of, Step 1: installation; connecting a crane (1) with a guide frame (2); connecting cluster down-the-hole hammers (4) to the bottom of the guide frame (2) by means of a push-pull device (3); allowing a high-pressure medium pipe or cable (6) to pass through the guide frame (2) and the push-pull device (3) to enter a primary hammer distribution pipeline; and allowing a slurry discharge pipe (7) to pass through the guide frame (2) and communicate with gas collecting hoods (5); Step 2: hoisting; suspending, by the crane (1), the guide frame (2) to a working point; and Step 3: diaphragm wall down-the-hole hammer trenching driving secondary hammers (4.2) to perform percussive drilling after the high-pressure medium pipe or cable (6) enters the primary hammer distribution pipeline; pushing and pulling primary hammers (4.1) by the push-pull device (3) so that the primary hammers (4.1) are constantly and symmetrically separated or close to each other to achieve full-section rock drilling with the down-the-hole hammers; and mixing waste gas from the down-the-hole hammers with mud in the gas collecting hoods (5), discharging the mixture into the slurry discharge pipe (7) through mud channels (8) in the middles of the primary hammers (4.1) under the action of mud pressure to form air-lift reverse circulation for slag removal, and discharging the mixture upwardly into a ground mud treatment system through the slurry discharge pipe (7).

11. The use method of the diaphragm wall down-the-hole hammer trenching machine according to claim 10, wherein a plurality of the secondary hammers (4.2) are provided; and percussive drilling is randomly performed by the plurality of the secondary hammers (4.2).

12. A use method of the diaphragm wall down-the-hole hammer trenching machine according to claim 4, comprising the steps of, Step 1: installation; connecting a crane (1) with a guide frame (2); connecting cluster down-the-hole hammers (4) to the bottom of the guide frame (2) by means of a push-pull device (3); allowing a high-pressure medium pipe or cable (6) to pass through the guide frame (2) and the push-pull device (3) to enter a primary hammer distribution pipeline; and allowing a slurry discharge pipe (7) to pass through the guide frame (2) and communicate with gas collecting hoods (5); Step 2: hoisting; suspending, by the crane (1), the guide frame (2) to a working point; and Step 3: diaphragm wall down-the-hole hammer trenching driving secondary hammers (4.2) to perform percussive drilling after the high-pressure medium pipe or cable (6) enters the primary hammer distribution pipeline; pushing and pulling primary hammers (4.1) by the push-pull device (3) so that the primary hammers (4.1) are constantly and symmetrically separated or close to each other to achieve full-section rock drilling with the down-the-hole hammers; and mixing waste gas from the down-the-hole hammers with mud in the gas collecting hoods (5), discharging the mixture into the slurry discharge pipe (7) through mud channels (8) in the middles of the primary hammers (4.1) under the action of mud pressure to form air-lift reverse circulation for slag removal, and discharging the mixture upwardly into a ground mud treatment system through the slurry discharge pipe (7).

13. The use method of the diaphragm wall down-the-hole hammer trenching machine according to claim 12, wherein a plurality of the secondary hammers (4.2) are provided; and percussive drilling is randomly performed by the plurality of the secondary hammers (4.2).

14. A use method of the diaphragm wall down-the-hole hammer trenching machine according to claim 5, comprising the steps of, Step 1: installation; connecting a crane (1) with a guide frame (2); connecting cluster down-the-hole hammers (4) to the bottom of the guide frame (2) by means of a push-pull device (3); allowing a high-pressure medium pipe or cable (6) to pass through the guide frame (2) and the push-pull device (3) to enter a primary hammer distribution pipeline; and allowing a slurry discharge pipe (7) to pass through the guide frame (2) and communicate with gas collecting hoods (5); Step 2: hoisting; suspending, by the crane (1), the guide frame (2) to a working point; and Step 3: diaphragm wall down-the-hole hammer trenching driving secondary hammers (4.2) to perform percussive drilling after the high-pressure medium pipe or cable (6) enters the primary hammer distribution pipeline; pushing and pulling primary hammers (4.1) by the push-pull device (3) so that the primary hammers (4.1) are constantly and symmetrically separated or close to each other to achieve full-section rock drilling with the down-the-hole hammers; and mixing waste gas from the down-the-hole hammers with mud in the gas collecting hoods (5), discharging the mixture into the slurry discharge pipe (7) through mud channels (8) in the middles of the primary hammers (4.1) under the action of mud pressure to form air-lift reverse circulation for slag removal, and discharging the mixture upwardly into a ground mud treatment system through the slurry discharge pipe (7).

15. The use method of the diaphragm wall down-the-hole hammer trenching machine according to claim 14, wherein a plurality of the secondary hammers (4.2) are provided; and percussive drilling is randomly performed by the plurality of the secondary hammers (4.2).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0039] FIG. 1 is a structural schematic diagram of the present disclosure.

[0040] FIG. 2 is a bottom view of two cluster down-the-hole hammers in the present disclosure.

[0041] FIG. 3 is a structural schematic diagram of a cluster down-the-hole hammer, a gas collecting hood, and mud channels in the present disclosure.

[0042] In the drawings, 1—crane, 2—guide frame, 3—push-pull device, 4—cluster down-the-hole hammer, 4.1—primary hammer, 4.21—first secondary hammer, 4.22—second secondary hammer, 4.2—secondary hammer, 5—gas collecting hood, 6—high-pressure medium pipe or cable, 7—slurry discharge pipe, and 8—mud channel.

[0043] In FIG. 2, cluster down-the-hole hammers 4 are arranged at intervals, and first secondary hammers 4.21 located on the sides of two adjacent cluster down-the-hole hammers 4 are rectangular and close to each other.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0044] Embodiments of the present disclosure will be described below in detail with reference to the accompanying drawings, but they are not to be construed as limiting the present disclosure, and are provided by way of example only. At the same time, the advantages of the present disclosure will become clearer and readily understood by way of illustration.

[0045] With reference to the drawings, it can be seen that a diaphragm wall down-the-hole hammer trenching machine includes a crane 1, a guide frame 2, a push-pull device 3, cluster down-the-hole hammers 4, gas collecting hoods 5, a high-pressure medium pipe or cable 6, and a slurry discharge pipe 7; wherein the crane 1 suspends the guide frame 2;

[0046] the cluster down-the-hole hammers 4 are connected to the bottom of the guide frame 2 by means of the push-pull device 3;

[0047] the cluster down-the-hole hammers 4 are rectangular; the cluster down-the-hole hammers 4 are in a separate arrangement; each cluster down-the-hole hammer 4 includes a primary hammer 4.1 and secondary hammers 4.2; and the plurality of the secondary hammers 4.2 are disposed on each primary hammer 4.1, the secondary hammers 4.2 being down-hole hammers driven by a high-pressure medium or electrically (as shown in FIGS. 1 and 2); percussive drilling is performed randomly and asynchronously by the secondary hammers, which reduces an impact force on trench holes and avoids hole collapse caused by an excessive vibration force; the primary hammers are pushed and pulled by the push-pull device to be constantly and symmetrically separated or close to each other laterally to achieve full-section rock drilling of the trench holes;

[0048] the lower part of each primary hammer 4.1 is provided with one gas collecting hood 5;

[0049] the high-pressure air pipe or the high-pressure water pipe or the hydraulic oil pipe 6 passes through the guide frame 2, and the push-pull device 3 to enter a primary hammer distribution pipeline to drive the secondary hammers 4.2 to perform percussive drilling;

[0050] mud channels 8 are formed in each primary hammer 4.1 (as shown in FIGS. 1 and 3); waste gas is discharged from the middle-upper parts of the down-the-hole hammers, and mixed with mud inside the gas collecting hoods, and under the action of mud pressure, air-lift reverse circulation is formed for slag removal, and the mixture is discharged into the slurry discharge pipe 7 through the mud channels 8 in the middles of the primary hammers 4.1, and discharged upwardly into a ground mud treatment system through the slurry discharge pipe 7; and the gas collecting hoods 5 have a sufficient height to ensure that waste gas is not discharged into trench holes outside the down-the-hole hammers 4 and the gas collecting hoods 5; and

[0051] the slurry discharge pipe 7 passes through the guide frame 2 and communicates with the gas collecting hoods 5 (as shown in FIG. 1); and the slurry discharge pipe passes through the push-pull device and the guide frame to discharge the mixture into the ground mud treatment system.

[0052] Further, an exhaust port is formed in the middle-upper parts of the secondary hammers 4.2; and

[0053] the exhaust port is higher than a lower opening of each gas collecting hood 5; the secondary hammers 4.2 is provided with the exhaust port at the middle-upper parts, with no vent hole at the bottoms, the exhaust port is higher than the lower opening of each gas collecting hood 5, and the gas collecting hoods 5 have a sufficient height to ensure that waste gas is not discharged into trench holes outside the down-the-hole hammers 4 to avoid hole collapse caused by gas leaking into mud in the trench holes.

[0054] Further, the secondary hammers 4.2 include first secondary hammers 4.21 and second secondary hammers 4.22;

[0055] the first secondary hammers 4.21 are located on the outer sides of the primary hammers 4.1 and on the adjacent sides of the two primary hammers 4.1; the first secondary hammers 4.21 are rectangular and close to each other; and full trench wide rock drilling is achieved; and

[0056] the second secondary hammers 4.22 are circular, and a plurality of the second hammers 4.22 are in a staggered arrangement (as shown in FIG. 2).

[0057] Further, each gas collecting hood 5 is of a skirt-like structure (as shown in FIGS. 1 and 3).

[0058] Further, the cluster down-the-hole hammers 4 are movably connected with the guide frame 2 by means of the push-pull device 3 (as shown in FIG. 1); and during construction, the push-pull device 3 pushes and pulls the primary hammers 4.1 so that the primary hammers 4.1 are constantly and symmetrically separated or close to each other to achieve full-section rock drilling with the down-the-hole hammers.

[0059] The push-pull device 3 described in FIG. 1 is given by way of example only and can have other structures with the same function.

[0060] With reference to the drawings, it can be seen that a use method of the diaphragm wall down-the-hole hammer trenching machine includes the steps of,

[0061] Step 1: installation;

[0062] connecting a crane 1 with a guide frame 2;

[0063] connecting two cluster down-the-hole hammers 4 to the bottom of the guide frame 2 by means of a push-pull device 3; wherein other numbers of the cluster down-the-hole hammers 4 can also be selected as desired;

[0064] allowing a high-pressure medium pipe or cable 6 to pass through the guide frame 2 and the push-pull device 3 to enter a primary hammer distribution pipeline; and

[0065] allowing a slurry discharge pipe 7 to pass through the guide frame 2 and communicate with gas collecting hoods 5;

[0066] Step 2: hoisting;

[0067] suspending, by the crane 1, the guide frame 2 to a working point; and

[0068] Step 3: diaphragm wall down-the-hole hammer trenching;

[0069] driving secondary hammers 4.2 to perform percussive drilling after the high-pressure medium pipe or cable 6 enters the primary hammer distribution pipeline;

[0070] pushing and pulling primary hammers 4.1 by the push-pull device 3 so that the primary hammers 4.1 are constantly and symmetrically separated or close to each other to achieve full-section rock drilling with the down-the-hole hammers; and

[0071] mixing waste gas from the down-the-hole hammers with mud in the gas collecting hoods, discharging the mixture into the slurry discharge pipe 7 through mud channels 8 in the middles of the primary hammers 4.1 under the action of mud pressure to form air-lift reverse circulation for slag removal, and discharging the mixture upwardly into a ground mud treatment system through the slurry discharge pipe 7 (as shown in FIGS. 1, 2, and 3); wherein the gas collecting hoods 5 have a sufficient height to ensure that waste gas is not discharged into trench holes outside the down-the-hole hammers 4 and the gas collecting hoods 5;

[0072] during anhydrous dry hole construction, exhaust slag blowing or air reverse circulation slag removal is conducted at the bottoms of the secondary hammers.

[0073] Furthermore, a plurality of the secondary hammers 4.2 are provided; and a plurality of the primary hammers 4.1 are provided; and

[0074] percussive drilling is randomly performed by the plurality of the secondary hammers 4.2 (as shown in FIGS. 1 and 2), the secondary hammers 4.2 are down-the-hole hammers, and percussive drilling is performed randomly and asynchronously by the secondary hammers, which reduces an impact force on trench holes and avoids hole collapse caused by an excessive vibration force.

[0075] In order to be able to more clearly illustrate the advantages of the diaphragm wall down-the-hole hammer trenching machine and the use method thereof according to the present disclosure compared with the prior art, the two solutions are compared by workers, and the comparison results are shown in the following table:

TABLE-US-00001 Rock Trenched wall Equipment Manufacturing drilling thickness and impact Matched body type cost Usage loss efficiency on engineering equipment Prior art Bulky and High High energy Low hard Limited maximum Main crane (trench milling complex manufacturing consumption rock wall thickness, and having complex machine) equipment cost during drilling addition of additional functions and construction, fast efficiency safety measures which being specially wear of drilling increases the manufactured, tools, complex engineering cost with a low maintenance, and utilization rate high cost The diaphragm Lightweight Low Low energy High hard Larger wall thickness, Crane and air wall down-the- and simple manufacturing consumption rock easy construction, compressor being hole impact equipment cost during drilling improving the safety of universal hammer trenching construction, efficiency diaphragm wall equipment, with a machine and the wear-resistant engineering, saving high utilization use method drilling tools, steel bar materials, rate thereof according easy maintenance, and capability of to the present and low cost reducing the disclosure engineering cost

[0076] It can be seen from the above table that the diaphragm wall down-the-hole impact hammer trenching machine and the use method thereof according to the present disclosure has the advantages that the diaphragm wall down-the-hole hammer trenching machine is simple and lightweight in equipment, low manufacturing cost, low energy consumption during use, high drilling efficiency, easy maintenance, low cost, easy construction, and larger wall thickness compared with the prior art.

[0077] Other non-illustrated parts belong to the prior art.