CN220718352U - Propelling beam and large arm connection auxiliary installation device - Google Patents

Abstract

The utility model discloses a propelling beam and large arm connecting auxiliary installation device, which comprises a motion device and an installation device fixedly connected to the upper part of the motion device, wherein the installation device comprises an installation base, an installation arm, an adjusting arm, a first hydraulic telescopic cylinder, a second hydraulic telescopic cylinder and a clamping component, the installation base is fixedly connected to the motion device, the installation base is fixedly connected with the installation arm, one end of the installation arm is rotationally connected with the adjusting arm, the installation arm is rotationally connected with the first hydraulic telescopic cylinder, the first hydraulic telescopic cylinder is rotationally connected with the adjusting arm, one end of the adjusting arm is rotationally connected with the clamping component, the adjusting arm is rotationally connected with the second hydraulic telescopic cylinder, and the second hydraulic telescopic cylinder is rotationally connected with the clamping component. The utility model relates to the technical field of a propelling beam, which has the characteristic of ensuring that the propelling beam is convenient to install on a rock drill.

Description

Propelling beam and large arm connection auxiliary installation device

Technical Field

The utility model relates to the technical field of propelling beams, in particular to a propelling beam and a large arm connecting auxiliary installation device.

Background

Rock drill is a tool used for direct rock production. It drills blastholes in the rock formation to place explosives to blast the rock, thereby completing rock or other stone works. In addition, rock drills may be used instead as disrupters for breaking hard layers of concrete or the like. The power sources of the rock drill can be divided into four types of pneumatic rock drill, internal combustion rock drill, electric rock drill and hydraulic rock drill.

The propelling beam on the rock drill is an important component part, but after the propelling beam is maintained and parts are replaced, the propelling beam is required to be installed on a large arm of the rock drill again, but in the prior art, a traveling crane or other machines are mostly adopted as the traveling crane to carry out auxiliary hoisting installation so as to realize the disassembly and assembly of the propelling beam and a connecting piece, but the propelling beam or an accessory can shake greatly after hoisting, and especially bolt holes are more troublesome in accurate calibration during the assembly, which is time-consuming and labor-consuming, and the installation time is increased.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, the present utility model aims to provide an installation device for ensuring that a push beam is conveniently installed on a rock drill.

The technical scheme adopted by the utility model for achieving the purpose is as follows: the propelling beam and big arm connecting auxiliary installation device comprises a motion device and an installation device fixedly connected to the upper portion of the motion device, wherein the installation device comprises an installation base, an installation arm, an adjusting arm, a first hydraulic telescopic cylinder, a second hydraulic telescopic cylinder and a clamping component, the installation base is fixedly connected to the motion device, the installation arm is fixedly connected to the installation base, one end of the installation arm is rotationally connected with the adjusting arm, the first hydraulic telescopic cylinder is rotationally connected with the adjusting arm, one end of the adjusting arm is rotationally connected with the clamping component, and the adjusting arm is rotationally connected with the second hydraulic telescopic cylinder which is rotationally connected with the clamping component.

In the above technical scheme, the clamping component comprises a main beam, a first lead screw, a second lead screw, a moving table and a clamping table, wherein two groups of moving tables are connected to the main beam in a sliding manner, one group of moving tables is connected with the first lead screw in a threaded manner, the other group of moving tables is connected with the second lead screw in a threaded manner, the first lead screw is connected with the second lead screw through a connecting shaft, a motor is fixedly connected to the main beam, and the motor is in power connection with the first lead screw/the second lead screw;

every group all fixedly connected with frame on the motion platform, sliding connection has two sets of in the frame the centre gripping platform, correspond every group in the frame the equal fixedly connected with third hydraulic telescoping cylinder of centre gripping platform, third hydraulic telescoping cylinder with correspond centre gripping platform fixed connection.

In the above technical scheme, two groups of sliding grooves are arranged on the main beam, and the moving table is connected to the sliding grooves in a sliding manner.

In the above technical scheme, the frame is fixedly connected with a sliding column, and the clamping table is slidably connected to the sliding column.

In the above technical scheme, the middle part position fixedly connected with connection platform of girder, be equipped with first rotation portion and second rotation portion on the connection platform, first rotation portion with the regulating arm rotates to be connected, second rotation portion with the rotation of second hydraulic telescoping cylinder is connected.

In the above technical scheme, the motion device includes chassis, walking wheelset and drive arrangement, rotate on the chassis and be connected with the walking wheelset, fixedly connected with on the chassis drive arrangement, drive arrangement with walking wheelset power connection, fixedly connected with pushing hands on the chassis, mounting base fixed connection is in on the chassis.

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

1. the clamping part is used for clamping the propelling beam, the clamped propelling beam is moved to the position of the rock drill by pushing the moving device, the installation position of the propelling beam corresponds to the installation position on the rock drill by controlling the first hydraulic telescopic cylinder, the second hydraulic telescopic cylinder and the position of the adjusting moving device, the propelling beam and the rock drill can be installed by the connecting piece, the position of the propelling beam is fixed in the installation process, the propelling beam cannot shake greatly, so that the propelling beam is simpler and more convenient to install, the clamping part is used for clamping the auxiliary, the position of the first hydraulic telescopic cylinder, the position of the second hydraulic telescopic cylinder and the position of the adjusting moving device can be controlled to enable the auxiliary to correspond to the installation position, the auxiliary is firmer during installation, and the installation is convenient;

2. the motor in the clamping part can drive the first screw rod and the second screw rod to rotate, so that the two groups of moving tables are close to or far away from each other to move, and then the positions of the two groups of racks can be adjusted, namely, the clamping tables are realized to correspond to the proper clamping positions of the propelling beams, and the propelling beams are clamped and fixed conveniently.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a mounting device according to the present utility model;

FIG. 3 is a schematic view of a clamping component according to the present utility model;

FIG. 4 is a schematic view of another angle of the gripping member of the present utility model.

In the figure: 101 chassis, 102 walking wheelset, 103 drive arrangement, 104 pushing hands, 201 mounting base, 202 mounting arm, 203 adjusting arm, 204 first hydraulic telescopic cylinder, 205 second hydraulic telescopic cylinder, 300 clamping component, 301 girder, 302 first lead screw, 303 second lead screw, 304 motion platform, 305 clamping platform, 306 motor, 307 frame, 308 third hydraulic telescopic cylinder, 309 sliding groove, 310 sliding column, 311 connecting platform, 312 first rotating part, 313 second rotating part.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the propulsion beam and large arm connecting auxiliary installation device comprises a motion device and an installation device fixedly connected to the upper part of the motion device, wherein the motion device comprises a chassis 101, a traveling wheel set 102 and a driving device 103, the traveling wheel set 102 is rotationally connected to the chassis 101, the driving device 103 is fixedly connected to the chassis 101, the driving device 103 is in power connection with the traveling wheel set 102, and a pushing handle 104 is fixedly connected to the chassis 101, so that the traveling wheel set 102 can be driven to move through the driving device 103, and then the chassis 101 moves;

the mounting device comprises a mounting base 201, a mounting arm 202, an adjusting arm 203, a first hydraulic telescopic cylinder 204, a second hydraulic telescopic cylinder 205 and a clamping component 300, wherein the mounting base 201 is fixedly connected to a chassis 101 of the movement device, the mounting arm 202 is fixedly connected to the mounting base 201, one end of the mounting arm 202 is rotationally connected with the adjusting arm 203, the mounting arm 202 is rotationally connected with the first hydraulic telescopic cylinder 204, the first hydraulic telescopic cylinder 204 is rotationally connected with the adjusting arm 203, the rotation angle of the adjusting arm 203 can be controlled by controlling the expansion and contraction of the first hydraulic telescopic cylinder 204, simultaneously, one end of the adjusting arm 203 is rotationally connected with the clamping component 300, the clamping component 300 is used for clamping a propelling beam or an auxiliary, the second hydraulic telescopic cylinder 205 is rotationally connected with the clamping component 300, the expansion and contraction of the second hydraulic telescopic cylinder 205 is controlled by controlling the expansion and contraction of the second hydraulic telescopic cylinder 205, the first hydraulic telescopic cylinder 204, the second hydraulic telescopic cylinder 205 and the adjusting device are rotationally connected with the adjusting arm 203, the clamping component 300 is also made to be installed on the corresponding position of the propelling beam or the auxiliary component 300 by controlling the position of the adjusting arm 203, and the clamping component 300 can be installed on the rock drill, and the position of the auxiliary device can be more conveniently installed and installed on the rock drill.

The embodiment also provides a specific structure of the gripping member 300 as follows:

the clamping component 300 comprises a main beam 301, a first lead screw 302, a second lead screw 303, moving platforms 304 and clamping platforms 305, wherein two groups of moving platforms 304 are slidably connected to the main beam 301, a first lead screw 302 is connected to one group of moving platforms 304 in a threaded manner, a second lead screw 303 is connected to the other group of moving platforms 304 in a threaded manner, a motor 306 is fixedly connected to the main beam 301 through a connecting shaft, the motor 306 is in power connection with the first lead screw 302 or the second lead screw 303, the first lead screw 302 and the second lead screw 303 can be driven to move through the motor 306, then the two groups of moving platforms 304 can move away from or close to each other, simultaneously, a frame 307 is fixedly connected to each group of moving platforms 304, two groups of clamping platforms 305 are slidably connected to each group of frame 307, a third hydraulic telescopic cylinder 308 is fixedly connected to each group of clamping platforms 305, and therefore, when the moving platforms 304 move, the frame 307 can drive the corresponding pushing platforms 305 to move, and accordingly, the clamping platforms 305 can be driven to move correspondingly, and the clamping platforms 305 can be clamped by the third telescopic cylinders 308 to realize the clamping platforms 308.

Specifically, in this embodiment, two sets of sliding grooves 309 are provided on the main beam 301, the moving table 304 is slidably connected to the sliding grooves 309, and in addition, a sliding column 310 is fixedly connected to the frame 307, and the clamping table 305 is slidably connected to the sliding column 310.

More specifically, the middle portion of the main beam 301 is fixedly connected with a connecting table 311, the connecting table 311 is provided with a first rotating portion 312 and a second rotating portion 313, the first rotating portion 312 is rotationally connected with the adjusting arm 203, and the second rotating portion 313 is rotationally connected with the second hydraulic telescopic cylinder 205, so that the clamping component 300 is mounted on the adjusting arm 203 and connected with the second hydraulic telescopic cylinder 205.

In summary, this embodiment discloses a propulsion beam and big arm connection accessory installation device, it is mainly used to carry out the centre gripping fixed to propulsion beam or big arm, thereby make when being connected propulsion beam and the big arm on the rock drill, avoid propulsion beam to rock and cause the screw to correspond inconvenience, then cause the inconvenient defect of installation, concretely speaking, can promote the motion device and drive the adjacent rock drill of installation device motion, afterwards place propulsion beam in the position of gripping part 300 through hoist and mount or other modes, drive centre gripping platform 305 through the flexible jar 308 of third hydraulic pressure and move and make centre gripping platform 305 carry out the centre gripping fixed with the propulsion beam, afterwards make the installation position on propulsion beam correspond with the installation position on the rock drill big arm through controlling the flexible jar 204 of first hydraulic pressure, the flexible jar 205 of second and adjust the position of motion device, namely install screw on propulsion beam and the installation screw on the rock drill big arm correspond, afterwards connect propulsion beam and rock drill big arm through connecting piece (bolt), because with propulsion beam has carried out the fixed, consequently propulsion beam can not appear rocking by a wide margin, thereby make the installation of propulsion beam more convenient.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. The utility model provides a push beam and big arm connection auxiliary installation device, is in including motion and fixed connection the installation device on motion upper portion, its characterized in that: the mounting device comprises a mounting base (201), a mounting arm (202), an adjusting arm (203), a first hydraulic telescopic cylinder (204), a second hydraulic telescopic cylinder (205) and a clamping component (300), wherein the mounting base (201) is fixedly connected to the moving device, the mounting arm (202) is fixedly connected to the mounting base (201), one end of the mounting arm (202) is rotationally connected with the adjusting arm (203), the first hydraulic telescopic cylinder (204) is rotationally connected to the mounting arm (202), the first hydraulic telescopic cylinder (204) is rotationally connected with the adjusting arm (203), one end of the adjusting arm (203) is rotationally connected with the clamping component (300), the second hydraulic telescopic cylinder (205) is rotationally connected to the adjusting arm (203), and the second hydraulic telescopic cylinder (205) is rotationally connected with the clamping component (300).

2. The walking beam and boom attachment accessory mounting apparatus of claim 1, wherein: the clamping component (300) comprises a main beam (301), a first lead screw (302), a second lead screw (303), a moving table (304) and a clamping table (305), wherein two groups of moving tables (304) are connected to the main beam (301) in a sliding manner, one group of moving tables (304) is connected with the first lead screw (302) in a threaded manner, the other group of moving tables (304) is connected with the second lead screw (303) in a threaded manner, the first lead screw (302) and the second lead screw (303) are connected through a connecting shaft, a motor (306) is fixedly connected to the main beam (301), and the motor (306) is in power connection with the first lead screw (302)/the second lead screw (303);

each group of moving tables (304) is fixedly connected with a frame (307), two groups of clamping tables (305) are connected to the frame (307) in a sliding mode, each group of clamping tables (305) on the frame (307) is fixedly connected with a third hydraulic telescopic cylinder (308), and the third hydraulic telescopic cylinders (308) are fixedly connected with the corresponding clamping tables (305).

3. The walking beam and boom attachment accessory mounting apparatus of claim 2, wherein: two groups of sliding grooves (309) are formed in the main beam (301), and the moving table (304) is connected to the sliding grooves (309) in a sliding mode.

4. The walking beam and boom attachment accessory mounting apparatus of claim 2, wherein: the frame (307) is fixedly connected with a sliding column (310), and the clamping table (305) is connected to the sliding column (310) in a sliding manner.

5. The walking beam and boom attachment accessory mounting apparatus of claim 2, wherein: the middle part position fixedly connected with connection platform (311) of girder (301), be equipped with first rotation portion (312) and second rotation portion (313) on connection platform (311), first rotation portion (312) with adjusting arm (203) rotate to be connected, second rotation portion (313) with second hydraulic telescoping cylinder (205) rotate to be connected.

6. The walking beam and boom attachment accessory mounting apparatus of claim 2, wherein: the motion device comprises a chassis (101), a walking wheel set (102) and a driving device (103), wherein the walking wheel set (102) is rotationally connected to the chassis (101), the driving device (103) is fixedly connected to the chassis (101), the driving device (103) is in power connection with the walking wheel set (102), a pushing handle (104) is fixedly connected to the chassis (101), and the mounting base (201) is fixedly connected to the chassis (101).