CN221629194U - Colliery electromechanical device installs base - Google Patents

Abstract

The utility model discloses a coal mine electromechanical equipment installation base, which comprises a base for installing electromechanical equipment and an adjusting part for adjusting the installation distance, wherein the adjusting part comprises a movable cavity arranged on the inner side of the base, two groups of supporting frames arranged at the bottom of the movable cavity and used for supporting the uniform arrangement, a movable frame arranged on the inner side of the movable cavity and positioned at the top of the supporting frames, and two fixing frames arranged at the top of the movable frame.

Description

Colliery electromechanical device installs base

Technical Field

The utility model relates to the technical field of coal mine electromechanical equipment, in particular to a coal mine electromechanical equipment mounting base.

Background

In the coal exploitation process, various electromechanical devices are required to be used, the devices are divided into direct exploitation devices and auxiliary exploitation devices, when the devices work, the devices are required to be supported by the installation base 1, the working positions of the electromechanical devices are ensured, the electromechanical devices are relatively complicated to operate in the installation process, the electromechanical devices cannot be damped and buffered, severe shaking of the devices is easily caused, and the operation stability of the electromechanical devices is affected.

The installation distance can not be convenient when current equipment is installed, and the equipment of not being convenient for not equidimension is fixed in the installation that stabilizes, and current equipment shock attenuation buffering's effect is not good, leads to equipment to take place violently to rock easily, influences equipment operation's stability.

Disclosure of utility model

The utility model aims to provide a coal mine electromechanical equipment mounting base to solve the problems set forth in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a colliery electromechanical device installs base, includes the base that electromechanical device installed and is used for adjusting the adjustment part of installation distance, adjustment part is including seting up in the inboard movable chamber of base, locate the movable chamber bottom and be used for supporting two sets of support frames of even range, locate the movable frame of movable chamber inboard and be located the support frame top, locate two mounts that the movable frame top is used for installing, set up the sliding tray that provides the slip path in the mount inboard, locate two sliding blocks of sliding tray inboard, locate the mounting panel that the sliding block top is used for installing, set up a plurality of first through-holes that evenly range in the mounting panel top, run through in one of them mount and be used for driving two-way screw rod and be used for carrying out the cushioning to the movable frame;

The section of the movable frame is I-shaped, the movable frame is in sliding connection with the movable cavity, each group of supporting frames comprises a plurality of supporting frames, the bidirectional screw rod penetrates through the sliding block and is in threaded connection with the sliding block, the sliding block is in sliding connection with the sliding groove, the section of the sliding block and the section of the sliding groove are both in a convex shape, and the mounting plate is fixedly connected with the two sliding blocks.

Preferably, the shock-absorbing component comprises two groups of shock absorbers which are arranged at the bottom of the movable cavity and are positioned at one side of the support frame and used for supporting uniform arrangement, a fixed column which is arranged at the inner side of the support frame and used for supporting, a movable groove which is arranged at the inner side of the fixed column, an energy-absorbing block which is arranged at the bottom of the movable groove, and a support rod which is arranged at the inner side of the movable groove and positioned at the top of the energy-absorbing block, wherein the section of the support rod is I-shaped, the support rod is in sliding connection with the movable groove, the fixed column is fixedly connected with the support frame, and the top of the support rod is fixedly connected with the top of the support frame.

Preferably, guide blocks for guiding are respectively arranged on two sides of the movable frame, guide grooves are respectively formed on two sides of the movable cavity, and the guide blocks are in sliding connection with the guide grooves.

Preferably, the spring is arranged at the top of the fixed column and positioned at the outer side of the supporting rod for supporting upwards.

Preferably, an anti-slip pad for preventing slipping is paved at the top of the mounting plate, a plurality of second through holes which are uniformly arranged are formed in one side of the anti-slip pad, and the first through holes are communicated with the second through holes.

Preferably, cushion strips used for preventing collision are arranged at the top of the base and at two sides of the movable cavity.

Preferably, a limiting rod for guiding is arranged on the inner side of the other fixing frame, and the limiting rod is in sliding connection with the sliding block.

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

1. According to the utility model, the cross section of the movable frame is I-shaped, the movable frame is in sliding connection with the movable cavity, each group of support frames comprises a plurality of bidirectional screws, the bidirectional screws penetrate through the sliding blocks and are in threaded connection with the sliding blocks, the sliding blocks are in sliding connection with the sliding grooves, the cross sections of the sliding blocks and the sliding grooves are both in a convex shape, the mounting plates are fixedly connected with the two sliding blocks, the plurality of support frames can upwards support the movable frame in the movable cavity, the two sliding blocks can be driven to slide in the sliding grooves by the bidirectional screws, the two sliding blocks drive the mounting plates to approach or separate from each other so as to adjust the distance between the two mounting plates, and the plurality of first through holes on the mounting plates can be used for mounting and fixing electromechanical equipment in different sizes by bolts so as to facilitate the mounting and fixing of the electromechanical equipment at the top of the base, and improve the mounting stability and practicability of the electromechanical equipment.

2. According to the utility model, through the shock absorbers, the fixed columns, the movable grooves, the energy absorption blocks and the supporting rods, the cross sections of the supporting rods are I-shaped, the supporting rods are in sliding connection with the movable grooves, the fixed columns are fixedly connected with the supporting frames, the tops of the supporting rods are fixedly connected with the tops of the supporting frames, the plurality of shock absorbers can absorb and consume the dynamic potential energy of the movable frames, the energy absorption blocks can support the supporting rods, the energy absorption blocks can absorb the sliding dynamic potential energy of the supporting rods, the supporting rods in the fixed columns can support the supporting frames, the shaking amplitude of the plurality of supporting frames for supporting the movable frames is reduced, and the shock absorption effect of the movable frames for supporting electromechanical equipment is improved.

Drawings

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

FIG. 2 is a left side cutaway perspective view of the overall structure of the present utility model;

FIG. 3 is a front cross-sectional perspective view of the overall structure of the present utility model;

FIG. 4 is an enlarged view of the entire structure of the present utility model at A in FIG. 2;

FIG. 5 is an enlarged view of the entire structure of the present utility model at B in FIG. 3;

fig. 6 is a schematic structural view of a movable frame in the overall structure of the present utility model.

In the figure: 1. a base; 11. a movable cavity; 12. a support frame; 13. a movable frame; 14. a fixing frame; 15. a sliding groove; 16. a sliding block; 17. a mounting plate; 18. a first through hole; 19. a bidirectional screw; 20. a damper; 21. fixing the column; 22. a movable groove; 23. an energy absorption block; 24. a support rod; 25. a guide block; 26. a guide groove; 27. a spring; 28. an anti-slip pad; 29. a second through hole; 30. a filler strip; 31. and a limit rod.

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.

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

The structure of the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 6, the mounting base for the electromechanical device of the coal mine provided by the embodiment of the utility model comprises a base 1 for mounting the electromechanical device and an adjusting component for adjusting the mounting distance, wherein the adjusting component comprises a movable cavity 11 arranged on the inner side of the base 1, two groups of supporting frames 12 arranged at the bottom of the movable cavity 11 and used for supporting the uniform arrangement, a movable frame 13 arranged on the inner side of the movable cavity 11 and positioned at the top of the supporting frames 12, two fixed frames 14 arranged at the top of the movable frame 13, a sliding groove 15 arranged on the inner side of the fixed frames 14 and used for providing a sliding path, two sliding blocks 16 arranged on the inner side of the sliding groove 15, a mounting plate 17 arranged on the top of the sliding blocks 16, a plurality of first through holes 18 arranged on the top of the mounting plate 17, a bidirectional screw 19 penetrating through one of the fixed frames 14 and used for driving and a damping component used for buffering the movable frame 13;

The section of the movable frame 13 is I-shaped, the movable frame 13 is in sliding connection with the movable cavity 11, each group of the support frames 12 comprises a plurality of bidirectional screws 19 penetrating through the sliding blocks 16 and being in threaded connection with the sliding blocks, the sliding blocks 16 are in sliding connection with the sliding grooves 15, the sections of the sliding blocks 16 and the sliding grooves 15 are both in a convex shape, and the mounting plate 17 is fixedly connected with the two sliding blocks 16.

Referring to fig. 4, the damping component includes two groups of dampers 20 disposed at the bottom of the movable cavity 11 and located at one side of the supporting frame 12 for supporting the uniform arrangement, a fixed column 21 disposed at the inner side of the supporting frame 12 for supporting the same, a movable slot 22 disposed at the inner side of the fixed column 21, an energy absorbing block 23 disposed at the bottom of the movable slot 22, and a supporting rod 24 disposed at the inner side of the movable slot 22 and located at the top of the energy absorbing block 23, wherein the cross section of the supporting rod 24 is in an "i" shape, the supporting rod 24 is slidably connected with the movable slot 22, the fixed column 21 is fixedly connected with the supporting frame 12, and the top of the supporting rod 24 is fixedly connected with the top of the supporting frame 12.

The scheme is adopted: through bumper shock absorber 20, fixed column 21, movable groove 22, energy-absorbing piece 23 and bracing piece 24, the bracing piece 24 cross-section is "worker" font, bracing piece 24 and movable groove 22 sliding connection, fixed column 21 and support frame 12 fixed connection, bracing piece 24 top and support frame 12 top fixed connection, a plurality of bumper shock absorbers 20 can absorb the consumption to the dynamic potential energy of movable frame 13, energy-absorbing piece 23 can support bracing piece 24, energy-absorbing piece 23 can absorb the gliding dynamic potential energy of bracing piece 24, bracing piece 24 in the fixed column 21 can support frame 12, reduce the rocking range that a plurality of support frames 12 supported movable frame 13, improve the shock attenuation effect that movable frame 13 supported electromechanical device.

Referring to fig. 2, guide blocks 25 for guiding are respectively arranged on two sides of the movable frame 13, guide grooves 26 are respectively arranged on two sides of the movable cavity 11, and the guide blocks 25 are slidably connected with the guide grooves 26.

The scheme is adopted: through guide block 25 and guide slot 26, guide block 25 and guide slot 26 sliding connection, guide block 25 can carry out direction and spacing to movable frame 13, improves movable frame 13 and carries out the stability of sliding from top to bottom in base 1.

Referring to fig. 4, a spring 27 is provided on the top of the fixing post 21 and outside the supporting rod 24 for supporting upward.

The scheme is adopted: the supporting rod 24 can be supported upwards through the springs 27, so that the stability and strength of the supporting rod 24 for supporting the supporting frame 12 are improved.

Referring to fig. 1, an anti-slip pad 28 for anti-slip is laid on the top of the mounting plate 17, a plurality of second through holes 29 are uniformly arranged on one side of the anti-slip pad 28, and the first through holes 18 are communicated with the second through holes 29.

The scheme is adopted: through slipmat 28 and second through-hole 29, first through-hole 18 and second through-hole 29 intercommunication can be convenient for the bolt run through first through-hole 18 and second through-hole 29 with electromechanical device and mounting panel 17 install fixedly, and slipmat 28 can improve the antiskid effect of electromechanical device and mounting panel 17 contact, and slipmat 28 can protect electromechanical device simultaneously, avoids electromechanical device and mounting panel 17 to take place to scratch and cause the damage.

Referring to fig. 1, a cushion strip 30 for collision prevention is arranged on the top of the base 1 and on two sides of the movable cavity 11.

The scheme is adopted: through the filler strip 30, the movable frame 13 can be protected, and damage caused by contact and collision between the movable frame 13 and the base 1 is avoided.

Referring to fig. 2, a stop bar 31 for guiding is disposed on the inner side of the other fixing frame 14, and the stop bar 31 is slidably connected with the sliding block 16.

The scheme is adopted: through the stop lever 31, stop lever 31 and sliding block 16 sliding connection, stop lever 31 can lead and spacing to sliding block 16, improves the stability that sliding block 16 slided in sliding groove 15.

The working principle of the utility model is as follows:

Firstly, the distance between two mounting plates 17 is adjusted according to the mounting size of electromechanical equipment, a bidirectional screw 19 drives two sliding blocks 16 to slide in a sliding groove 15, then the two sliding blocks 16 drive the mounting plates 17 to approach each other, simultaneously the sliding blocks 16 in the other fixed frame 14 slide outside a limiting rod 31, then the electromechanical equipment is mounted and fixed by penetrating through a first through hole 18 and a second through hole 29 through bolts, simultaneously a non-slip mat 28 at the top of the mounting plate 17 is contacted with the electromechanical equipment, when the electromechanical equipment vibrates during running, the movable frame 13 at the bottom of the fixed frame 14 is driven by the mounting plate 17 to slide in a base 1, at the moment, a cushion strip 30 protects the movable frame 13, at the moment, a plurality of shock absorbers 20 absorb and consume the dynamic potential energy of the movable frame 13, at the same time, an energy absorption block 23 in a fixed column 21 supports a supporting rod 24, at the same time, a spring 27 at the top of the fixed column 21 supports the supporting rod 24 upwards, then the supporting rod 12 supports the supporting rod 24, and at the same time, the movable frame 13 drives a guide block 25 to slide in a guide groove 26.

What is not described in detail in this specification is prior art known to those skilled in the art.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. The utility model provides a colliery electromechanical device installs base, includes base (1) and the adjusting part who is used for adjusting installation distance of electromechanical device installation, its characterized in that: the adjusting component comprises a movable cavity (11) arranged on the inner side of the base (1), two groups of supporting frames (12) arranged at the bottom of the movable cavity (11) and used for supporting the uniform arrangement, a movable frame (13) arranged on the inner side of the movable cavity (11) and positioned at the top of the supporting frames (12), two fixed frames (14) arranged at the top of the movable frame (13) and used for installing, a sliding groove (15) arranged on the inner side of the fixed frames (14) and used for providing a sliding path, two sliding blocks (16) arranged on the inner side of the sliding groove (15), an installing plate (17) arranged at the top of the sliding blocks (16), a plurality of first through holes (18) arranged at the top of the installing plate (17) and used for evenly arranging, a bidirectional screw rod (19) penetrating through one of the fixed frames (14) and a damping component used for buffering the movable frame (13);

The movable frame (13) cross-section is "worker" font, movable frame (13) and movable chamber (11) sliding connection, every group support frame (12) are including a plurality of, two-way screw rod (19) run through slider (16) and rather than the spiro union, slider (16) and sliding tray (15) sliding connection, slider (16) and sliding tray (15) cross-section are "protruding" font, mounting panel (17) and two slider (16) fixed connection.

2. The coal mine electromechanical device mounting base of claim 1, wherein: the shock-absorbing component comprises two groups of shock absorbers (20) which are arranged at the bottom of the movable cavity (11) and are positioned at one side of the supporting frame (12) and used for supporting the two groups of shock absorbers uniformly, a fixed column (21) which is arranged at the inner side of the supporting frame (12) and used for supporting the shock absorbers, a movable groove (22) which is arranged at the inner side of the fixed column (21), an energy-absorbing block (23) which is arranged at the bottom of the movable groove (22) and a supporting rod (24) which is arranged at the inner side of the movable groove (22) and positioned at the top of the energy-absorbing block (23), the section of the supporting rod (24) is I-shaped, the supporting rod (24) is in sliding connection with the movable groove (22), the fixed column (21) is fixedly connected with the supporting frame (12), and the top of the supporting rod (24) is fixedly connected with the top of the supporting frame (12).

3. The coal mine electromechanical device mounting base of claim 1, wherein: guide blocks (25) for guiding are respectively arranged on two sides of the movable frame (13), guide grooves (26) are respectively formed on two sides of the movable cavity (11), and the guide blocks (25) are in sliding connection with the guide grooves (26).

4. The coal mine electromechanical device mounting base of claim 2, wherein: and a spring (27) is arranged at the top of the fixed column (21) and is positioned outside the supporting rod (24) for supporting upwards.

5. The coal mine electromechanical device mounting base of claim 1, wherein: a plurality of second through holes (29) which are uniformly arranged are formed in one side of the anti-slip pad (28), and the first through holes (18) are communicated with the second through holes (29).

6. The coal mine electromechanical device mounting base of claim 1, wherein: the top of the base (1) and two sides of the movable cavity (11) are provided with cushion strips (30) for preventing collision.

7. The coal mine electromechanical device mounting base of claim 1, wherein: the other fixing frame (14) is internally provided with a limiting rod (31) for guiding, and the limiting rod (31) is in sliding connection with the sliding block (16).