CN212985123U - Drilling and anchoring integrated type push beam structure - Google Patents

Abstract

The utility model discloses a bore anchor integral type propulsion beam structure, include: a frame; the rock drill is arranged on the rack in a linear moving manner; the front drill rod supporting device is arranged at the front end of the frame, and the clamping end of the front drill rod supporting device consists of two clamping parts which are oppositely arranged and can be opened relatively; the tail end of the working component is detachably connected with the functional output end of the rock drill, and the front end of the working component penetrates through a channel formed between the two clamping parts; and the operation component is a rock drilling drill rod or an anchor rod locking connecting rod. The technical scheme enables the equipment to independently complete rock drilling (blast hole), anchor rod hole and anchor rod locking operation, and does not need additional equipment to execute three operation steps, thereby greatly reducing the workload of operators.

Description

Drilling and anchoring integrated type push beam structure

Technical Field

The utility model relates to an engineering machine tool technical field especially relates to a bore anchor integral type impulse beam structure.

Background

In general, in engineering works such as mines and tunnels, operations of drilling holes (blast holes), bolt holes and locking bolts are required to be performed in sequence, and the operations are performed by different machines, so that it is difficult to perform three operation operations on one equipment, and the workload of an operator is large.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the drilling and anchoring integrated type propulsion beam structure which can independently complete the operations of drilling (blast hole), anchoring hole and anchoring locking and does not need additional equipment is provided, so that the technical defects are overcome.

The specific technical scheme is as follows:

a drill-anchor integrated feed beam structure comprising:

a frame;

the rock drill is arranged on the rack in a linear moving manner;

the front drill rod supporting device is arranged at the front end of the frame, and the clamping end of the front drill rod supporting device consists of two clamping parts which are oppositely arranged and can be opened relatively;

the tail end of the working component is detachably connected with the functional output end of the rock drill, and the front end of the working component penetrates through a channel formed between the two clamping parts;

and the operation component is a rock drilling drill rod or an anchor rod, drill rod and anchor rod locking connecting rod.

Preferably, the front drill rod supporter comprises a mounting frame fixedly arranged on the rack, a telescopic component longitudinally arranged on the mounting frame and two clamping parts;

the lower ends of the two clamping parts are respectively connected with the output end of the telescopic component through a linkage plate in a transmission way, and the upper ends of the two clamping parts are oppositely arranged and form a channel.

Preferably, the telescopic member is a hydraulic cylinder, a piston rod of the hydraulic cylinder is radially connected with a connecting rod, and the connecting rod is connected with the two linkage plates in a staggered manner.

Preferably, the frame comprises a lower propelling beam and an upper propelling beam which can linearly move and is arranged on the lower propelling beam, the rock drill can be linearly moved and is arranged on the upper propelling beam, and the mounting frame of the front drill supporter is fixedly arranged at the front end of the lower propelling beam.

Preferably, the mounting seat of the rock drilling machine is slidably mounted on the upper propelling beam through a sliding block structure, the chain wheel assembly and a driving motor for driving the chain wheel assembly to operate are mounted on the upper propelling beam, and the mounting seat of the rock drilling machine is provided with a mounting block at least partially connected with a chain of the chain wheel assembly.

Preferably, the sprocket assembly includes two sprockets rollably disposed in the upper feed beam, and a chain wound between the two sprockets, and the output shaft of the driving motor is in transmission connection with one of the sprockets.

Preferably, the front end of the upper propelling beam is also provided with a middle brazing rod supporting device, the middle brazing rod supporting device comprises a base fixedly arranged on the upper propelling beam and a turnover seat hinged on the base, a through hole for allowing an operation component to pass through is formed between the base and the turnover seat, and the free end of the turnover seat is detachably connected to the base through a fastening piece.

Preferably, when the operation component is an anchor rod drill rod, the tail end of the anchor rod drill rod is connected with the functional output end of the rock drill in an assembling mode through a reducing connecting sleeve.

The beneficial effects of the above technical scheme are that:

bore anchor integral type propulsion beam structure and include frame, rock drill, preceding drill rod ware and the operation component of holding up, and the operation component is drilling rod or stock locking connecting rod, can change in proper order for drilling (big gun hole), anchor eye and stock locking operation can be accomplished alone to this equipment, need not extra equipment and carries out three operation step, has alleviateed operating personnel's work burden greatly.

Drawings

FIG. 1 is a perspective view of the drill-anchor integrated push beam structure of the present invention;

FIG. 2 is a front view of the drill-anchor integrated feed beam structure of the present invention in an extended state;

fig. 3 is a front view of the drill-anchor integrated feed beam structure of the present invention in a retracted state;

fig. 4 is a front view of the drill-anchor integrated feed beam structure of the present invention in a locking anchor rod operation state;

fig. 5 is a perspective view of the front drill lifter in the drill-anchor integrated push beam structure of the present invention.

Detailed Description

In order to make the technical means, creation features, achievement purposes and effects of the present invention easy to understand, the following embodiments are specifically illustrated in conjunction with the accompanying drawings.

Referring to fig. 1 to 5, the drill-anchor integrated feed beam structure provided in this embodiment includes:

a frame;

the rock drill 4 is arranged on the frame in a linear moving way;

the front drill rod supporter 5 is arranged at the front end of the frame, and the clamping end of the front drill rod supporter 5 consists of two clamping parts 51 which are oppositely arranged and can be opened relatively;

the tail end of the operation component 3 is detachably connected with the functional output end of the rock drill 4, and the front end of the operation component passes through a channel formed between the two clamping parts 51 of the front drill lifter 5;

and, the working member 3 is a rock drill rod 31 or a rock bolt rod 33 or a rock bolt lock connecting rod 35.

Based on above-mentioned technical scheme, brill anchor integral type propulsion beam structure includes frame, rock drill 4, preceding drill rod ware 5 and operation component 3, and operation component 3 is rock drilling rod 31 or stock drilling rod 33 or stock locking connecting rod 35, can change in proper order for this equipment can accomplish drilling (big gun hole), anchor eye and stock 10 locking operation alone, need not extra equipment and carries out three operation steps, has alleviateed operating personnel's work burden greatly.

In a preferred embodiment, as shown in fig. 5 in particular, the front drill lifter 5 includes a mounting frame 55 fixedly mounted on the frame, a telescopic member 52 longitudinally mounted on the mounting frame 55, and the two clamping portions 51, and the lower ends of the two clamping portions 51 are respectively connected to the output end of the telescopic member 52 through a linkage plate 53 in a transmission manner, and the upper ends of the two clamping portions 51 are oppositely disposed and form the above-mentioned channel, so that the two clamping portions 51 are driven to relatively move through the telescopic action of the output end by the telescopic action of the telescopic member 52 via the two linkage plates 53, and further, the relative unfolding and folding actions of the upper ends of the clamping portions 51 are realized. Specifically, the telescopic member 52 is a hydraulic cylinder, a piston rod of the hydraulic cylinder is radially connected with a connecting rod 54, and the connecting rod 54 is connected with two linkage plates 53 in an alternating manner, more specifically, the upper ends of the two clamping portions 51 are respectively formed with a clamping block, the clamping block is in a semi-cylindrical shape, and the channel is formed between the two clamping blocks, but the channel is not limited to the above, for example, the telescopic member 52 can be an electric push rod or a motor, and the two clamping portions 51 can realize relative motion in a gear engagement manner.

As a further preferred embodiment, the frame comprises a lower feed beam 1, an upper feed beam 2 mounted linearly movably on the lower feed beam 1, and the rock drill 4 is mounted linearly movably on the upper feed beam 2, the mounting frame 55 of the forward drill lifter 5 being fixed to the front end of the lower feed beam 1. Further, in this embodiment, the mounting seat of the rock drilling machine 4 is slidably mounted on the upper propelling beam 2 through a slider structure, the chain wheel assembly 7 and the driving motor 8 for driving the chain wheel assembly 7 to operate are mounted on the upper propelling beam 2, and the mounting seat of the rock drilling machine 4 has a mounting block at least partially connected with the chain of the chain wheel assembly 7 for realizing a relative driving effect therebetween. Specifically, the sprocket assembly 7 includes two sprockets rollably disposed in the upper feed beam 2, and a chain wound between the two rollers, and an output shaft of the driving motor 8 is in transmission connection with one of the sprockets. The sliding block structure is specifically a structure of a sliding block and a sliding groove, and obviously, the relative sliding structure can also be realized in various ways such as a hydraulic cylinder, and the like, and is not limited to this. Similarly, the relative sliding structure between the upper propulsion beam 2 and the lower propulsion beam 1 can be implemented by using a structure similar to the chain wheel and the motor, or by directly using a hydraulic cylinder, so that the detailed description is omitted, and the invention is not limited thereto.

In a preferred embodiment, the front end of the upper propelling beam 2 is also provided with a middle brazing rod supporting device 6, the middle brazing rod supporting device 6 comprises a base fixedly arranged on the upper propelling beam 2 and a turnover seat hinged on the base, a through hole for allowing the operating component 3 to pass through is formed between the base and the turnover seat, and the free end of the turnover seat is detachably connected to the base through a fastening piece.

In a further preferred embodiment, when the working member 3 is a shank 33, the rear end of the shank 33 is connected to the functional output of the rock drilling machine 4 by means of a coupling adapter 36. Specifically, the reducing connecting sleeve 36 is a sleeve structure with different front and rear outer diameters, and inner hexagonal connecting structures with different inner diameters are respectively arranged at two ends of the reducing connecting sleeve, so that the reducing connecting sleeve is not limited to an inner hexagonal structure, and the reducing connecting effect is met.

In a specific application of the embodiment, as shown in fig. 2 to 4, the lower propelling beam 1 can be extended and retracted relative to the upper propelling beam 2, and the rock drill 4 can move back and forth relative to the upper propelling beam 2, so as to be adapted to roadways of different heights, in an operating state, when rock drilling (blast hole) is required, firstly, the rock drilling rod 31 is assembled and is clamped and limited and guided by the front drill lifter 5 and the middle drill lifter 6, and the head end of the rock drilling rod 31 is provided with the rock drilling bit 32 to perform drilling operation on the wall 9; when the anchor rod drilling is needed, the rock drilling rod 31 and the middle drill rod lifter 6 are detached, the anchor rod 33 is assembled through the reducing connecting sleeve 36 and is clamped, limited and guided by the front drill rod lifter 5, the anchor rod drill bit 34 is arranged at the head end of the anchor rod 33, and the anchor hole drilling operation is further executed; after drilling is finished, the connection relation between the anchor rod 33 and the reducing connecting sleeve 36 is removed, the front drill rod supporter 5 is opened, the anchor rod locking connecting rod 35 and the anchor rod 10 are installed, the two ends of the anchor rod locking connecting rod 35 are respectively connected with the anchor rod 10 and the reducing connecting sleeve 36, the anchor rod 10 is further driven to rotate and extend into the wall 9, and meanwhile, the anchor rod 10 and the anchor rod locking connecting rod 35 are locked through nuts carried by the anchor rod 10. After the anchor rod 10 is stretched into the position and locked, the connection relationship between the anchor rod 10 and the wall body 9 is released, and then the anchor rod 10 can be retained in the wall body 9. Because the reducing connecting sleeve 36 adopts a sleeve structure, the requirement of clockwise or anticlockwise locking of the anchor rod 10 can be met.

The foregoing is only a preferred embodiment of the present invention, which is illustrative, not limiting. Those skilled in the art will appreciate that many variations, modifications, and equivalents may be made thereto without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. A drill-anchor integrated feed beam structure, comprising:

a frame;

the rock drill (4) is linearly movably arranged on the rack;

the front drill rod supporter (5) is arranged at the front end of the rack, and the clamping end of the front drill rod supporter (5) consists of two clamping parts (51) which are oppositely arranged and can be opened relatively;

the tail end of the working component (3) is detachably connected to the functional output end of the rock drill (4), and the front end of the working component penetrates through a channel formed between the two clamping parts (51);

and the operation component (3) is a rock drilling rod (31) or a rock bolt drilling rod (33) or a rock bolt locking connecting rod (35).

2. The drill-anchor integrated feed beam structure according to claim 1, wherein the front drill lifter (5) comprises a mounting frame (55) fixedly arranged on the frame, a telescopic member (52) longitudinally arranged on the mounting frame (55), and two clamping parts (51);

the lower ends of the two clamping parts (51) are respectively in transmission connection with the output end of the telescopic component (52) through a linkage plate (53), and the upper ends of the two clamping parts (51) are oppositely arranged and form the channel.

3. The drill-anchor integrated feed beam structure as claimed in claim 2, wherein the telescopic member (52) is a hydraulic cylinder, a connecting rod (54) is radially connected to a piston rod of the hydraulic cylinder, and the two linkage plates (53) are connected to the connecting rod (54) in a staggered manner.

4. The drill-anchor integrated feed beam structure according to claim 1 or 3, characterized in that the frame comprises a lower feed beam (1), an upper feed beam (2) linearly movably mounted on the lower feed beam (1), and the rock drill (4) is linearly movably mounted on the upper feed beam (2), and the mounting bracket (55) of the front drill lifter (5) is fixedly mounted at the front end of the lower feed beam (1).

5. The drill-anchor integrated feed beam structure according to claim 4, wherein the mounting seat of the rock drill (4) is slidably fitted to the upper feed beam (2) through a slider structure, a sprocket assembly (7) and a driving motor (8) for driving the sprocket assembly (7) to operate are mounted on the upper feed beam (2), and the mounting seat of the rock drill (4) has a mounting block at least partially interfacing with a chain of the sprocket assembly (7).

6. The drill-anchor integrated feed beam structure according to claim 5, wherein the chain wheel assembly (7) comprises two chain wheels rollably arranged in the upper feed beam (2), a chain wound between the two chain wheels, and the output shaft of the drive motor (8) is in transmission connection with one of the chain wheels.

7. The drill-anchor integrated type feed beam structure according to claim 5, characterized in that the front end of the upper feed beam (2) is further provided with a middle drill rod supporter (6), the middle drill rod supporter (6) comprises a base fixedly arranged on the upper feed beam (2), a turnover seat hinged on the base, a through hole for allowing the operation component (3) to pass through is formed between the base and the turnover seat, and the free end of the turnover seat is detachably connected to the base through a fastener.

8. The drill-anchor integrated feed beam structure as claimed in claim 1, characterized in that when the operation member (3) is an anchor rod drill rod (33), the tail end of the anchor rod drill rod (33) is assembled and connected with the functional output end of the rock drill (4) through a reducing connecting sleeve (36).

Images