CN218511992U - Rock drill strikes and operation test platform - Google Patents

Abstract

The utility model discloses a rock drill strikes and operation test platform belongs to engineering machine tool technical field. This rock drill strikes and operation test platform includes basic base, basic base is provided with shock-absorbing member, basic base includes by beat rock drill base, operation base and rock drill base, it is provided with the bumper shock absorber to be beaten the rock drill base, be beaten the rock drill base and be connected with the operation base, operation base one end with be beaten the rock drill base and be connected, the operation base other end and rock drill base connection. The utility model discloses an aspect not only can reduce test platform's vibrations through set up the whole antidetonation effect that shock attenuation component strengthened test platform at basic base, can also reduce the noise, and on the other hand sets up the bumper shock absorber and strengthens the shock attenuation effect of being beaten rock drill base by being beaten the rock drill base, not only can reduce the vibrations of being beaten rock drill production when testing, can also avoid the frequent fracture of construction bolt, can also reduce the noise simultaneously.

Description

Rock drill strikes and operation test platform

Technical Field

The utility model belongs to the technical field of engineering machine tool, more specifically the utility model relates to a rock drill strikes and operation test platform is related to.

Background

Rock drill is a tool for directly exploiting stone. It drills blastholes in rock formations to deposit explosives to blast the rock to complete the exploitation of rock material or other stone work. Furthermore, rock drills may also be used as breakers for breaking hard layers such as concrete. Rock drills can be classified into pneumatic rock drills, internal combustion rock drills, electric rock drills, hydraulic rock drills and the like according to power sources of the rock drills.

In order to test the performance of rock drills, it is common to carry out a commissioning on a test platform. In the test and debugging process of the rock drill, drilling conditions need to be simulated, and the rock drill is usually directly installed on a mounting plate of a test platform by bolts. The direct bolt installation can make the rock drill of being beaten produce great vibrations in experimental debugging process, leads to the frequent fracture of construction bolt.

In addition, when the rock drill is tested on the test platform, the whole test platform can generate large vibration due to large impact force.

SUMMERY OF THE UTILITY MODEL

To being beaten the great problem of rock drill and test platform vibrations when the simulated condition tests, the utility model aims at providing a rock drill strikes and operation test platform, including basic base, basic base includes by beat rock drill base, operation base and rock drill base. The utility model discloses an aspect is through setting up the whole antidetonation effect that shock attenuation component strengthened test platform at basic base, not only can reduce test platform's vibrations, thereby protection test platform, prolong test platform's life relatively, reduce test cost relatively, can also protect ground to receive destruction less, can also reduce the noise simultaneously, on the other hand is being beaten the rock drill base and is setting up the bumper shock absorber and strengthen the shock attenuation effect of being beaten the rock drill base, not only can reduce the vibrations that are beaten the rock drill and produce when the test, can also avoid frequent fracture of construction bolt, avoid construction bolt's use cost to increase, thereby reduce test cost relatively, can also reduce the noise simultaneously.

One of the concepts of the utility model is to provide a rock drill strikes and operation test platform, this rock drill strikes and operation test platform includes basic base, basic base is including being beaten rock drill base, operation base and rock drill base. The base is provided with the shock attenuation component, has strengthened test platform's whole antidetonation effect, not only can reduce test platform's vibrations to protection test platform prolongs test platform's life relatively, reduces test cost relatively, can also protect ground to receive destruction less, can also reduce the noise simultaneously.

The driven rock drill base is connected with the operation base.

Operation base one end with be beaten rock drill base connection, the operation base other end is connected with the rock drill base.

The base is provided with a plurality of shock-absorbing members.

In some embodiments, a plurality of the shock absorbing members are uniformly arranged at the bottom of the base foundation.

The shock-absorbing member is a first shock-absorbing rubber.

In some embodiments, the first cushion rubber is shaped as a parallelogram. When the height and the area are the same, the range of the length of the parallelogram is wider as a whole than that of the rectangle, so that the first cushion rubber of the parallelogram has a better cushion effect than the first cushion rubber of the rectangle with the same height and the same area.

In some embodiments, the first shock absorbing rubber is provided with a groove, so that the shock resistance effect can be further enhanced.

In some embodiments, the grooves are flat wave shaped, and the flat wave shaped grooves facilitate machining.

In some embodiments, the groove extends along the length direction of the first damping rubber, the groove arranged along the length direction has a stronger buffering effect, the damping range is larger, and the damping effect of the first damping rubber can be further enhanced.

In some embodiments, the groove is arranged at the bottom of the first shock absorption rubber, so that the influence of impurities on the test platform can be reduced. When no recess is provided, there is the great impurity of granule, for example the gravel, test platform's stability can be influenced when first yielding rubber bottom. When the groove is formed, the impurities can enter the groove, so that the influence of the impurities on the stability of the test platform is reduced.

The first damping rubber is arranged at the bottom of the base.

In some embodiments, ten first damping rubbers are uniformly arranged at the bottom of the base seat, and the size of the ten first damping rubbers is the same.

In some embodiments, all be provided with first yielding rubber around driven rock drill base, operation base and rock drill base, wherein driven rock drill base and operation base share a first yielding rubber, and this piece of first yielding rubber is located the junction of driven rock drill base and operation base, and operation base and rock drill base share a first yielding rubber, and this piece of first yielding rubber is located the junction of operation base and rock drill base.

In some embodiments, the first damping rubber is arranged around the driven rock drilling machine base, the running base and the rock drilling machine base, and the length of the first damping rubber is opposite to the peripheries of the driven rock drilling machine base, the running base and the rock drilling machine base.

Another concept of the utility model is to provide a rock drill strikes and operation test platform, this rock drill strikes and operation test platform includes basic base, basic base includes by beat rock drill base, operation base and rock drill base. The base of the rock drilling machine is provided with the shock absorber, the shock absorption effect of the base of the rock drilling machine is enhanced, the shock generated by the rock drilling machine during testing can be reduced, frequent breakage of the mounting bolts can be avoided, the use cost of the mounting bolts is prevented from increasing, the test cost is reduced relatively, and meanwhile, the noise can be reduced.

The driven rock drilling machine base is provided with a driven rock drilling machine mounting plate which is positioned above the driven rock drilling machine base.

The installation plate of the beaten rock drill is provided with an installation hole.

In some embodiments, the driven rock drill mounting plate is provided with six mounting holes.

The shock absorber is arranged above the mounting plate of the driven rock drill.

In some embodiments, the shock absorber is a second shock absorbing rubber.

In some embodiments, the second cushion rubber is provided with a bump.

In some embodiments, the bump is located at the bottom of the second cushion rubber.

The lug is connected with the mounting hole.

In some embodiments, there is a gap between the bump and the mounting hole, that is, there is a gap between the bump and the bottom of the mounting hole, and the gap is allowed to compensate for the deformation of the second cushion rubber when the second cushion rubber is pressed.

The driven rock drilling machine base is connected with a bolt, the bolt is connected with the mounting hole, and the bolt is used for mounting the driven rock drilling machine.

In some embodiments, a large washer is disposed between the bolt and the shock absorber.

In some embodiments, a small washer and a large washer are disposed between the bolt and the shock absorber, and the small washer is located above the large washer. The small washer and the large washer are arranged, so that the shock resistance of the base of the driven rock drill can be enhanced, the abrasion of the shock absorber and the bolt can be reduced, the shock absorber and the bolt are protected, the service life of the shock absorber and the bolt is prolonged, and the cost is relatively reduced.

The foundation pedestal mounting has a propeller beam, the propeller beam is located the top of operation base and rock drill base.

In some embodiments, the thruster beam is an aluminum beam.

And a propulsion oil cylinder is arranged at one end of the propeller beam.

The propelling oil cylinder is positioned above the rock drilling machine base and used for pushing the rock drilling machine to move back and forth.

The rock drill is positioned between the beaten rock drill and the propulsion cylinder, and the rock drill is arranged on the propeller beam.

The basic base is provided with the cushion socket, and the cushion socket is located and is beaten rock drill base top, and the cushion socket is located and is beaten rock drill mounting panel below.

The utility model discloses a technological effect and advantage:

1. the utility model discloses a set up the whole antidetonation effect that shock attenuation component strengthened test platform at basic base, not only can reduce test platform's vibrations to protection test platform prolongs test platform's life relatively, reduces test cost relatively, can also protect ground to receive destruction less, can also reduce noise simultaneously.

2. The utility model discloses a set up the bumper shock absorber and strengthen the shock attenuation effect of being beaten the rock drill base by beating the rock drill base, not only can reduce the vibrations of being beaten the rock drill and producing when the test, can also avoid frequent fracture of construction bolt, avoid construction bolt's use cost to increase to reduce test cost relatively, can also reduce the noise simultaneously.

3. The utility model discloses durable, the antidetonation effect is strong, can simulate the operating mode that the rock drill used on the platform truck, need not to carry out the site engineering test again, has improved work efficiency, has saved manpower and materials, has shortened test time.

Drawings

FIG. 1 is a side view of a rock drill impact and operational test platform of the present application;

FIG. 2 is a bottom view of the rock drill impact and operational test platform of the present application;

FIG. 3 is a schematic view of the test platform for impact and operation of the rock drill according to the present application at location A;

fig. 4 is a top view of the rock drill impact and operation test platform of the present application.

In the figure:

1. a base of the driven rock drill;

2. operating the base;

3. a rock drill base;

4. a first cushion rubber;

5. installing a plate of the beaten rock drill; 5.1, mounting holes;

6. a second cushion rubber;

7. a large washer;

8. a small washer;

9. a bolt;

10. a propeller beam;

11. and a propulsion oil cylinder.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Referring to fig. 1 to 4 (the directions or positional relationships indicated in this embodiment are based on the directions or positional relationships shown in fig. 1), the present embodiment provides a rock drill impact and operation test platform, which includes a base, the base is divided into three parts, from left to right, a rock drill base 1, an operation base 2 and a rock drill base 3 are sequentially provided, the rock drill base 1 is connected to the operation base 2, the left end of the operation base 2 is connected to the rock drill base 1, and the right end of the operation base 2 is connected to the rock drill base 3; the basic base is provided with ten damping members, the ten damping members are the same in size, the damping members are first damping rubber 4, the first damping rubber 4 is parallelogram-shaped, the ten first damping rubber 4 are uniformly distributed at the bottom of the basic base, the peripheries of the driven rock drilling machine base 1, the running base 2 and the rock drilling machine base 3 are all provided with the first damping rubber 4, the driven rock drilling machine base 1 and the running base 2 share one first damping rubber 4, the first damping rubber 4 is positioned at the joint of the driven rock drilling machine base 1 and the running base 2, the running base 2 and the rock drilling machine base 3 share one first damping rubber 4, and the first damping rubber 4 is positioned at the joint of the running base 2 and the rock drilling machine base 3; when the first damping rubber 4 is arranged around the drilled rock machine base 1, the operation base 2 and the rock machine base 3, the lengths of the six first damping rubbers 4 are in the same direction as the lengths of the drilled rock machine base 1, the operation base 2 and the rock machine base 3, and the lengths of the four first damping rubbers 4 are in the same direction as the widths of the drilled rock machine base 1, the operation base 2 and the rock machine base 3; the first damping rubber 4 is provided with a groove (the groove can further enhance the anti-seismic effect), the shape of the groove is a flat waveform (the groove in the flat waveform is convenient to process), the groove extends along the length direction of the first damping rubber 4 (the groove arranged along the length direction has stronger buffering effect and larger damping range, and can further enhance the damping effect of the first damping rubber 4), the groove is arranged at the bottom of the first damping rubber 4 (the influence of impurities on the test platform can be reduced, when the groove is not arranged, when the bottom of the first damping rubber 4 has impurities with larger particles, such as gravel, the stability of the test platform can be influenced, and when the groove is arranged, the impurities can enter the groove, so that the influence of the impurities on the stability of the test platform is reduced); the foundation base is provided with a buffer base 12, the buffer base 12 is located above the driven rock drilling machine base 1, a driven rock drilling machine mounting plate 5 is arranged above the buffer base 12, the driven rock drilling machine mounting plate 5 is located above the driven rock drilling machine base 1, the driven rock drilling machine mounting plate 5 is provided with six mounting holes 5.1, the driven rock drilling machine base 1 is provided with a shock absorber, the shock absorber is arranged above the driven rock drilling machine mounting plate 5, the shock absorber is second damping rubber 6, the second damping rubber 6 is provided with a lug, the lug is located at the bottom of the second damping rubber 6, the lug is connected with the mounting hole 5.1 (namely, the second damping rubber 6 is connected with the mounting hole 5.1, namely, six second damping rubbers 6 are arranged above the driven rock drilling machine base 1), a certain gap exists when the lug is connected with the mounting hole 5.1 (namely, a gap exists between the lug and the bottom of the mounting hole 5.1, and the gap is a margin for making up deformation generated when the second damping rubbers 6 are extruded; the base 1 of the rock drilling machine to be drilled is connected with a bolt 9, the bolt 9 is connected with a mounting hole 5.1, the bolt 9 is used for mounting the rock drilling machine to be drilled, a small gasket 8 and a large gasket 7 are arranged between the bolt 9 and the second damping rubber 6, and the small gasket 8 is positioned above the large gasket 7 (the small gasket 8 and the large gasket 7 can not only strengthen the shock resistance of the base 1 of the rock drilling machine to be drilled, but also reduce the abrasion of the shock absorber and the bolt 9, thereby protecting the shock absorber and the bolt 9, prolonging the service life of the shock absorber and the bolt 9 and relatively reducing the cost); the driven rock drilling machine base 1 is provided with a driven rock drilling machine which is positioned above the driven rock drilling machine base 1; the right-hand rock drill that is provided with of the rock drill of being beaten, the rock drill is located rock drill base 3 top, install propeller beam 10 on the basis base, propeller beam 10 is located the top of operation base 2 and rock drill base 3, propeller beam 10 is the aluminium roof beam, propeller beam 10 right-hand member is provided with propulsion cylinder 11, propulsion cylinder 11 is located rock drill base 3 top, and propulsion cylinder 11 is located the right-hand of rock drill, the rock drill is installed on propeller beam 10, propulsion cylinder 11 is used for promoting the rock drill on propeller beam 10 and moves about on propeller beam 10.

In the description of the present invention, it should be understood that the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the indicated device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present disclosure, all other embodiments obtained by a person of ordinary skill in the art and related fields without creative efforts shall fall within the protection scope of the present disclosure. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims (9)

1. The utility model provides a rock drill strikes and operation test platform which characterized in that includes: the base, the base is provided with shock-absorbing member, the base includes by beat rock drill base (1), operation base (2) and rock drill base (3), it is provided with the bumper shock absorber to be beaten rock drill base (1), be beaten rock drill base (1) and be connected with operation base (2), operation base (2) one end is connected with being beaten rock drill base (1), and operation base (2) other end is connected with rock drill base (3).

2. A rock drill impact and operation test platform according to claim 1, characterized in that the damping member is a first damping rubber (4), and the first damping rubber (4) is uniformly arranged at the bottom of the base.

3. A rock drill impact and operational test platform according to claim 2, characterized in that the first damping rubber (4) is parallelogram-shaped, the first damping rubber (4) is provided with a groove, the groove extends along the length direction of the first damping rubber (4), and the groove is provided at the bottom of the first damping rubber (4).

4. A rock drill impact and operation test platform according to claim 1, characterized in that the rock drill base (1) is provided with a rock drill mounting plate (5), and the rock drill mounting plate (5) is provided with mounting holes (5.1).

5. A rock drill impact and operation test platform according to claim 4, characterized in that the shock absorber is a second shock absorbing rubber (6), the second shock absorbing rubber (6) is provided with a bump, the bump is connected with the mounting hole (5.1), and a gap exists between the bump and the bottom of the mounting hole (5.1).

6. A rock drill impact and operational test platform according to claim 1, characterized in that the rock drill base (1) to be drilled is connected with a bolt (9), and a small washer (8) and a large washer (7) are arranged between the bolt (9) and the shock absorber.

7. A rock drill impact and operational test platform according to claim 1, characterized in that the foundation bed is fitted with a propeller beam (10), which propeller beam (10) is located above the operational bed (2) and the rock drill bed (3).

8. A rock drill impact and operational test platform according to claim 7, characterized in that a propulsion cylinder (11) is arranged at one end of the propulsion beam (10), the propulsion cylinder (11) is connected with a rock drill, which is located above the rock drill base (3).

9. A rock drill impact and operational test platform according to claim 1, characterized in that the foundation bed is provided with a buffer base (12), the buffer base (12) being located above the bed (1) of the rock drill being driven.

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