CN217028921U

CN217028921U - Fully-mechanized roadheader two-transportation overhead operation device

Info

Publication number: CN217028921U
Application number: CN202123295243.7U
Authority: CN
Inventors: 何景毫
Original assignee: Shenmu Bairuitong Equipment Manufacturing Co ltd
Current assignee: Shenmu Bairuitong Equipment Manufacturing Co ltd
Priority date: 2021-12-27
Filing date: 2021-12-27
Publication date: 2022-07-22
Anticipated expiration: 2031-12-27

Abstract

The utility model discloses a fully-mechanized coal mining machine two-transportation overhead operation device, which comprises a mounting seat, an adjusting component arranged on the mounting seat, and a rotating component connected with the adjusting component; the discharging assembly is connected with the rotating assembly; the discharging assembly comprises a material receiving box, two first connecting lugs symmetrically arranged on the material receiving box, a telescopic cylinder hinged with the first connecting lugs, a second connecting lug arranged at the output end of the telescopic cylinder, and a discharging plate used for connecting the two second connecting lugs; the discharging plate is hinged with the material receiving box. The discharging assembly in the device is connected with the rotating assembly, the rotating assembly is arranged on the adjusting assembly, the telescopic cylinder in the discharging assembly starts to move, and then materials in the material receiving box can be automatically poured in a set area, so that an operator does not need to interfere the discharging process, and meanwhile, the smooth operation of pouring the materials can be guaranteed.

Description

Fully-mechanized roadheader two-transportation overhead operation device

Technical Field

The utility model belongs to the technical field of mechanical transportation, and particularly relates to a fully-mechanized coal mining machine two-transportation overhead operation device.

Background

The construction method of the modern domestic and foreign coal mine tunnel mainly comprises drilling explosion tunneling and comprehensive mechanical tunneling, and the comprehensive mechanical tunneling can be divided into cantilever type tunneling and full-face rock tunnel tunneling.

However, the existing operation devices have some problems, most of the existing discharging rollers are provided with lifting ropes, then the adjusting device is provided with lifting hooks, when the materials in the discharging roller need to be discharged, in order to enable the materials to be dumped at a set position, the lifting ropes on the discharging roller are connected with the lifting hooks, then the position of the discharging roller can be adjusted under the driving of the adjusting device, then an operator can discharge the materials in the discharging roller, but because the discharging roller and the adjusting device are connected through the lifting hooks and the lifting ropes, the stability of the discharging roller can be reduced in the carrying process, and meanwhile, when the materials in the discharging roller are discharged, the operator needs to take the lifting ropes off the lifting hooks, then the operator carries the discharging roller to the set position, and then completes the discharging operation, so the operator needs to continuously carry out the dismounting operation on the discharging roller, and then increase operating personnel's work burden, simultaneously at the dismouting in-process, can increase the probability that the material fell in the roller of unloading, and then cause operating personnel's damage.

Therefore, how to pour the material in the discharging roller to a given area is a problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a combine two fortune overhead operation devices of machine of digging to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: a fully-mechanized roadheader two-transportation overhead operation device comprises:

the mounting seat is provided with an adjusting component on the mounting seat, and a rotating component connected with the adjusting component;

the discharging assembly is connected with the rotating assembly;

the discharging assembly comprises a material receiving box, two first connecting lugs symmetrically arranged on the material receiving box, a telescopic cylinder hinged with the first connecting lugs, a second connecting lug arranged at the output end of the telescopic cylinder, and a discharging plate used for connecting the two second connecting lugs;

the discharging plate is hinged with the material receiving box;

at least when the material receiving box is in a working state, the telescopic cylinder drives the material discharging plate to move, so that the material discharging plate moves, and then materials in the material receiving box are poured in a set area.

In a further embodiment, the adjusting assembly comprises two supporting seats fixedly arranged on the mounting seat, a driving wheel arranged on the supporting seats, a driving belt used for connecting the driving wheel, and a driving motor connected with one of the driving wheels; the unloading process is not required to be interfered by an operator, and the smooth operation of dumping materials can be ensured.

In a further embodiment, the adjustment assembly further comprises a transmission member disposed on the drive belt; the position of the rotating assembly can be adjusted, and then the position adjustment work of the discharging assembly is completed.

In a further embodiment, the rotating assembly comprises an adjusting slide rail fixedly mounted on the mounting seat, an adjusting slide block positioned on the adjusting slide rail, a transmission plate used for connecting the adjusting slide block, and a rotating motor arranged on the transmission plate;

the rotating motor is connected with the transmission part; the discharging area of the discharging assembly can be adjusted.

In a further embodiment, the output end of the rotating motor is further provided with a connecting part and a rotating seat arranged on the connecting part;

the rotating seat is connected with the material receiving box; and finishing the unloading work of the materials.

In a further embodiment, two displacement slide rails are further arranged on the mounting seat;

the length direction of the displacement slide rail is perpendicular to the length direction of the adjusting slide rail; and completing the overhead operation of the materials.

Has the advantages that: the utility model relates to a fully-mechanized excavating machine two-transportation overhead operation device, in order to enable materials in an unloading roller to be dumped in a set area, a discharging component is arranged in the device, when the materials need to be unloaded, an adjusting component starts to work, a material receiving box can be transported from the material receiving area to a discharging area, when the material receiving box is positioned at a set position, a telescopic cylinder starts to work, the telescopic cylinder is further moved to drive a second connecting lug connected with the output end of the telescopic cylinder to start to work, then along with the extension of the telescopic cylinder, a discharging plate can rotate along the joint of the discharging plate and the material receiving box, the materials are dumped from the material receiving box, the dumping work of the materials in the material receiving box is completed, after the dumping work is completed, the telescopic cylinder works reversely, the discharging plate can cover a discharging hole of the material receiving box, then the adjusting component transports the discharging component to the material receiving area, and then accomplish the work of connecing of next stage, this device is for traditional running gear, and ejection of compact subassembly and rotating assembly in this device are connected, and rotating assembly locates on the adjusting part, and telescopic cylinder in ejection of compact subassembly begins to move, and then can be automatic empty the material in the material receiving box in the set region, and then do not need operating personnel to interfere the process of unloading, can guarantee simultaneously that the material is emptyd the smooth of work and go on.

Drawings

Fig. 1 is a perspective view of the present invention.

FIG. 2 is a schematic view of a rotating assembly according to the present invention.

FIG. 3 is a schematic view of a discharge assembly of the present invention.

The various reference numbers in the figures are: the device comprises a mounting seat 1, an adjusting component 2, a supporting seat 21, a transmission wheel 22, a driving motor 23, a transmission piece 24, a transmission belt 25, a rotating component 3, a rotating motor 31, a connecting part 32, a rotating seat 33, an adjusting slide rail 34, an adjusting slide block 35, a transmission plate 36, a discharging component 4, a material receiving box 41, a first connecting lug 42, a telescopic cylinder 43, a discharging plate 44 and a second connecting lug 45.

Detailed Description

Through research and analysis of the applicant, the reason for the problem (the lifting rope can be separated from the lifting hook and then the unloading roller can fall off in the transportation process) is that the existing operation device has some problems, the lifting rope is mostly arranged on the existing unloading roller, then the lifting hook is arranged on the adjusting device, when the material in the unloading roller needs to be unloaded, in order to enable the material to be dumped at the set position, the lifting rope on the unloading roller can be connected with the lifting hook, then the position of the unloading roller can be adjusted under the driving of the adjusting device, then an operator can unload the material in the unloading roller, but the unloading roller and the adjusting device are connected through the lifting hook and the lifting rope, so that the stability of the unloading roller can be reduced in the transportation process, and then the lifting rope can be separated from the lifting hook in the transportation process, and then lead to droing of the roller of unloading, and then the roller of unloading that can make collides with operating personnel between, and then threatens operating personnel's life health. In order to enable the materials in the discharging roller to be dumped in a set area, the device is further provided with a discharging assembly, when the materials need to be discharged, the adjusting assembly starts to work, so that the material receiving box can be transported to a discharging area from the material receiving area, when the material receiving box is positioned at a preset position, the telescopic cylinder starts to work, the telescopic cylinder can be moved to drive a second connecting lug connected with the output end of the telescopic cylinder to start to work, then along with the extension of the telescopic cylinder, the discharging plate can rotate along the joint of the discharging plate and the material receiving box, so that the materials are dumped out of the material receiving box, the dumping work of the materials in the material receiving box is completed, after the dumping work is completed, the telescopic cylinder works in a reverse direction, so that the discharging plate can cover the discharging hole of the material receiving box, and then the adjusting assembly transports the discharging assembly to the material receiving area, and then accomplish the work of connecing of next stage, this device is for traditional running gear, and ejection of compact subassembly in this device is connected with rotating assembly, and rotating assembly locates on the adjusting part, and telescopic cylinder when ejection of compact subassembly begins to move, and then can be automatic empty the material in the material receiving box in the set region, and then do not need operating personnel to interfere the process of unloading, can guarantee simultaneously that the material is emptyd going on smoothly of work.

A fully-mechanized roadheader two-transportation overhead operation device comprises: the device comprises a mounting seat 1, an adjusting component 2, a supporting seat 21, a transmission wheel 22, a driving motor 23, a transmission piece 24, a transmission belt 25, a rotating component 3, a rotating motor 31, a connecting part 32, a rotating seat 33, an adjusting slide rail 34, an adjusting slide block 35, a transmission plate 36, a discharging component 4, a material receiving box 41, a first connecting lug 42, a telescopic cylinder 43, a discharging plate 44 and a second connecting lug 45.

The device comprises a mounting seat 1, an adjusting component 2 arranged on the mounting seat 1, and a rotating component 3 connected with the adjusting component 2; the discharging assembly 4 is connected with the rotating assembly 3; the discharging assembly 4 comprises a material receiving box 41, two first connecting lugs 42 symmetrically arranged on the material receiving box 41, a telescopic cylinder 43 hinged with the first connecting lugs 42, a second connecting lug 45 arranged at the output end of the telescopic cylinder 43, and a discharging plate 44 used for connecting the two second connecting lugs 45; the discharging plate 44 is hinged with the material receiving box 41; at least in the working state, the telescopic cylinder 43 drives the discharging plate 44 to move, so that the discharging plate 44 moves, and the material in the material receiving box 41 is poured in a set area; when the material needs to be unloaded, the adjusting assembly 2 starts to work, so that the material receiving box 41 can be transported from the material receiving area to the material discharging area, after the material receiving box 41 is located at the preset position, the telescopic cylinder 43 starts to work, the telescopic cylinder 43 is moved to drive the second connecting lug 45 connected with the output end of the telescopic cylinder to start to work, then the discharging plate 44 can rotate along the joint of the discharging plate and the material receiving box 41 along with the extension of the telescopic cylinder 43, so that the material is poured out of the material receiving box 41, so that the material pouring work of the material in the material receiving box 41 is completed, after the pouring work is completed, the telescopic cylinder 43 works reversely, the discharging plate 44 can cover the discharging hole of the material receiving box 41, then the adjusting assembly 2 transports the discharging assembly 4 to the material receiving area, so that the material receiving work of the next stage is completed, compared with the traditional operation device, discharging component 4 in this device is connected with rotating assembly 3, and on rotating assembly 3 located adjusting part 2, telescopic cylinder 43 when discharging component 4 began to move, and then can be automatic will connect the material in workbin 41 to empty in the set region, and then do not need operating personnel to interfere the process of unloading, can guarantee simultaneously that the material empties going on smoothly of work.

The adjusting assembly 2 comprises two supporting seats 21 fixedly arranged on the mounting seat 1, a driving wheel 22 arranged on the supporting seats 21, a driving belt 25 used for connecting the driving wheel 22, and a driving motor 23 connected with one driving wheel 22; the adjusting assembly 2 further comprises a transmission member 24 arranged on the transmission belt 25; when the work is adjusted to ejection of compact subassembly 4, driving motor 23 begins to work this moment, and then the driving motor 23 of motion can drive the drive wheel 22 of being connected with it and begin to work, and then the drive wheel 22 of motion can drive driving belt 25 and begin to work, and then the driving belt 25 of motion can drive driving medium 24 and begin to work, and then can adjust the position of rotating assembly 3, and then accomplish the position control work to ejection of compact subassembly 4.

The rotating assembly 3 comprises an adjusting slide rail 34 fixedly mounted on the mounting base 1, an adjusting slide block 35 positioned on the adjusting slide rail 34, a transmission plate 36 used for connecting the adjusting slide block 35, and a rotating motor 31 arranged on the transmission plate 36; the rotating motor 31 is connected with the transmission piece 24; the output end of the rotating motor 31 is also provided with a connecting part 32 and a rotating seat 33 arranged on the connecting part 32; the rotating seat 33 is connected with a material receiving box 41; when the adjusting component 2 starts to move, the transmission part 24 can drive the rotating motor 31 to start to move at this moment, and then the transmission plate 36 can be driven to move on the adjusting slide rail 34, and then the position of the rotating seat 33 can be adjusted, after the rotating seat 33 is located at the existing position, the rotating motor 31 starts to work at this moment, and then the moving rotating motor 31 can drive the rotating seat 33 to start to rotate, and then the discharging area of the discharging component 4 can be adjusted, and then the discharging work of the material is completed.

The mounting seat 1 is also provided with two displacement slide rails; the length direction of the displacement slide rail is perpendicular to the length direction of the adjusting slide rail 34; through setting up the displacement slide rail on the mine cave wall, then through the displacement slide rail with adjust mutually supporting of slide rail 34, and then accomplish the overhead operation work to the material.

Description of the working principle: when the discharging assembly 4 needs to be adjusted, the driving motor 23 starts to work at this moment, and then the moving driving motor 23 can drive the driving wheel 22 connected with the driving motor to start to work, and then the moving driving wheel 22 can drive the driving belt 25 to start to work, and then the moving driving belt 25 can drive the driving part 24 to start to work, so that the position of the rotating assembly 3 can be adjusted, and further the position adjustment work of the discharging assembly 4 is completed; when the adjusting assembly 2 starts to move, the transmission member 24 can drive the rotating motor 31 to start to move, so that the transmission plate 36 can move on the adjusting slide rail 34, and further the position of the rotating seat 33 can be adjusted, when the rotating seat 33 is located at the preset position, the rotating motor 31 starts to work, and then the moving rotating motor 31 can drive the rotating seat 33 to start to rotate, so that the discharging area of the discharging assembly 4 can be adjusted, and further the discharging work of the material is completed; when the material needs to be unloaded, the adjusting assembly 2 starts to work, so that the material receiving box 41 can be transported from the material receiving area to the material discharging area, when the material receiving box 41 is located at the preset position, the telescopic cylinder 43 starts to work, the telescopic cylinder 43 is moved to drive the second connecting lug 45 connected with the output end of the telescopic cylinder to start to work, then the discharging plate 44 can rotate along the joint of the discharging plate 44 and the material receiving box 41 along with the extension of the telescopic cylinder 43, so that the material is poured out of the material receiving box 41, so that the pouring work of the material in the material receiving box 41 is completed, after the pouring work is completed, the telescopic cylinder 43 works reversely, the discharging plate 44 can cover the discharge hole of the material receiving box 41, then the adjusting assembly 2 transports the discharging assembly 4 to the material receiving area, so that the material receiving work of the next stage is completed, compared with the traditional operation device, discharging component 4 in this device is connected with rotating assembly 3, and on rotating assembly 3 located adjusting part 2, telescopic cylinder 43 when discharging component 4 began to move, and then can be automatic will connect the material in workbin 41 to empty in the set region, and then do not need operating personnel to interfere the process of unloading, can guarantee simultaneously that the material empties going on smoothly of work.

As noted above, while the present invention has been shown and described with reference to certain preferred embodiments, it is not to be construed as limited to the utility model itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims

1. A fully-mechanized coal winning machine two-transportation overhead operation device comprises,

the method is characterized in that: the discharging assembly is connected with the rotating assembly;

the discharging plate is hinged with the material receiving box;

2. The fully-mechanized excavating machine two-transportation overhead operation device of claim 1, wherein: the adjusting assembly comprises two supporting seats fixedly arranged on the mounting seat, a driving wheel arranged on the supporting seats, a driving belt used for being connected with the driving wheel, and a driving motor connected with one of the driving wheels.

3. The fully-mechanized excavating machine two-transportation overhead operation device according to claim 2, wherein: the adjusting component further comprises a transmission part arranged on the transmission belt.

4. The fully-mechanized excavating machine two-transportation overhead operation device of claim 1, wherein: the rotating assembly comprises an adjusting slide rail fixedly mounted on the mounting seat, an adjusting slide block positioned on the adjusting slide rail, a transmission plate used for connecting the adjusting slide block, and a rotating motor arranged on the transmission plate;

the rotating motor is connected with the transmission piece.

5. The fully-mechanized excavating machine two-transportation overhead operation device according to claim 4, wherein: the output end of the rotating motor is also provided with a connecting part and a rotating seat arranged on the connecting part;

the rotating seat is connected with the material receiving box.

6. The fully-mechanized excavating machine two-transportation overhead operation device according to claim 1, wherein: the mounting seat is also provided with two displacement slide rails;

the length direction of the displacement slide rail is perpendicular to the length direction of the adjusting slide rail.