CN201025065Y - Transport plane self-shift device for cannon exploration working ground - Google Patents

Abstract

The utility model provides a conveyer self-moving device on blasting working face, which comprises a hydraulic cylinder, a conveyer groove, rails, a base connection plate and a limit block. The two rails are arranged and fixed on the base connection plate through a fastening component in parallel with a certain space; the conveyer groove is positioned on the rail, with lower surface provided with two limit blocks which are respectively clamped on the corresponding rails; moreover, the inner side of the two rails are provided with a hydraulic cylinder parallel with the rail; one end of the hydraulic cylinder is connected with the two rails through a hinge pine, and the other end of the hydraulic cylinder is connected with the driving component of the conveyer groove through a hinge pine and a hydraulic cylinder connection piece; besides, the conveyer groove, driven by the hydraulic cylinder, can move on the rail. The device solves the problem of weak safety of the former pushing method and realizes moving automation of the conveyer, thereby being extremely in favor of popularization and using for the coal mine.

Description

Blast mining face transporter self-advancing Device

One, technical field

The utility model relates to a kind of blast mining face transporter corollary equipment, particularly relates to a kind of blast mining face transporter self-advancing Device.

Two, background technology

Shot firing and roof-coal: work plane pushing and sliding operation is carried out after putting coal, former pushing and sliding method: before the pushing and sliding organ timbering in the work plane is removed, then with the apical support of monomer column on the monomer column of old man's side, monomer column handgrip body is stuck in trough old man side channel group outer, the monomer column feed flow promotes trough to precontract 400mm; The monomer column retraction, on the monomer column of old man's side, the other end is placed on edge in the transportation machine-made egg-shaped or honey-comb coal briquets wall side, to the monomer column feed flow, scraper-trough conveyer is shifted onto coal wall side with the monomer column apical support.Each pushing and sliding are provided with a pushing and sliding point every 3～4m, generally establish 2-3 pushing and sliding point, progressively pass in order.

This pushing and sliding mode does not have special pushing and sliding device, but by means of the hydraulic prop pushing and sliding of work plane, need the manually-operated monomer column during pushing and sliding, in case skidding, monomer column is easy to hurt the people, in the passing process, if the shed of pushing and sliding place goes wrong, be easy to hurt the pushing and sliding personnel, poor stability.Pushing and sliding power is little when using the monomer column pushing and sliding.The handgrip body of hydraulic prop as stressed member, is pushed away bad handgrip body easily, cause that the handgrip body fractures, takes off, leakage etc.

When using the hydraulic prop pushing and sliding in order to solve, drawback such as hurt sb.'s feelings that thrust is little, push away bad monomer column easily, monomer column slips, the many in recent years new methods of numerous engineers and technicians and ore deposit friends, but for various reasons, effect is not desirable especially, does not promote and comes.

Three, utility model content

The purpose of this utility model is in order to address the above problem, to propose a kind of blast mining face transporter self-advancing Device.

The technical solution of the utility model is: a kind of blast mining face transporter self-advancing Device, contain hydraulic cylinder, transporter trough, track, end junction plate, limited block, described track is two, and two tracks are at regular intervals, parallel to each other to be fixed on the end junction plate by securing member; Described transporter trough is positioned on the track, and transporter trough soffit is provided with two limited blocks, and two limited blocks are buckled in respectively on the corresponding track; Two track inboards are provided with and the parallel track positioned hydraulic cylinders, and this hydraulic cylinder one end is connected with two tracks by bearing pin, and the other end is connected with transporter trough driver part by bearing pin, pressure cylinder connecting component; The transporter trough can move under the driving of hydraulic cylinder in orbit.

Described track is an i iron, or channel-section steel, and described limited block is the limited block that the corresponding coupling with it of shape cross section is approximately " Z " shape.

Described two limited blocks all are fixed on the outside of two tracks, or all are fixed on the inboard of two tracks.

One end of described two tracks is fixedly connected with end plate; Two tracks link together with end junction plate and end junction plate.

Described transporter trough driver part is an engaging lug, and this engaging lug is connected with described pressure cylinder connecting component, and the pressure cylinder connecting component lower end is connected with described bearing pin with hydraulic cylinder one end.

Described transporter trough driver part passing framework that have for it and its coupling, this passing framework is connected with pressure cylinder connecting component, and the pressure cylinder connecting component lower end is connected with described bearing pin with hydraulic cylinder one end.

Cylinder body one end of described hydraulic cylinder is connected the end that track has end plate by bearing pin, and the piston rod end is connected with described pressure cylinder connecting component.

The end that described track does not connect end plate is a wedge shape.

The contact surface of described transporter trough and track is provided with scooter.

The beneficial effects of the utility model

1, for the shot firing and roof-coal work plane has been equipped with special-purpose self-advancing Device, filled up the blank that the shot firing and roof-coal work plane does not have special self-advancing Device.

2, self-advancing Device and transporter are fixed together, and move forward with transporter, do not need a dead lift, divide into i iron or channel-section steel as track at scratch board conveyor, have reduced resistance; And be equipped with the dedicated hydraulic cylinder, and increase its thrust, reduced working strength of workers, improved efficient and safety.

3, adopt hydraulic pressure as power, can control the speed of moving certainly and its position of control easily, and can realize that operated from a distance has increased its safety.

4, made things convenient for coal below the cleaning transporter trough.

5, be installed together with transporter, can move together, do not need manually to move with transporter.

Four, description of drawings

Fig. 1 is one of A-A sectional view of this blast mining face transporter self-advancing Device

Fig. 2 is one of left view of this blast mining face transporter self-advancing Device

Fig. 3 is the vertical view of this blast mining face transporter self-advancing Device

Fig. 4 be this blast mining face transporter self-advancing Device left view two

Fig. 5 be this blast mining face transporter self-advancing Device left view three

Fig. 6 be this blast mining face transporter self-advancing Device the A-A sectional view two

Five, the specific embodiment

Embodiment one: referring to Fig. 1, Fig. 2, Fig. 3, a kind of blast mining face transporter self-advancing Device among the figure, contain hydraulic cylinder 3, transporter trough 1, track 6, end junction plate 4, limited block 11, described track 6 is two, two tracks 6 are at regular intervals, parallel to each other, are fixed on the end junction plate 4 by securing member; Described transporter trough 1 is positioned on the track 6, and transporter trough 1 soffit is provided with two limited blocks, 11, two limited blocks 11 and is buckled in respectively on the corresponding track 6; Two track 6 inboards are provided with and parallel track positioned hydraulic cylinders 3, and these hydraulic cylinder 3 one ends are connected with two tracks 6 by bearing pin 7, and the other end is connected with transporter trough driver part by bearing pin 8, pressure cylinder connecting component 9; Transporter trough 1 can move on track 6 under the driving of hydraulic cylinder 3; Described track 6 is i iron, and described limited block 11 is approximately the limited block of " Z " shape for the corresponding coupling with it of shape cross section; Described two limited blocks 11 all are fixed on the outside of two tracks 6; One end of described two tracks 6 is fixedly welded with end junction plate 2; Described transporter trough 1 driver part is an engaging lug, and this engaging lug is connected with described pressure cylinder connecting component 9, and pressure cylinder connecting component 9 lower ends are connected with described bearing pin 8 with hydraulic cylinder one end; Cylinder body one end of described hydraulic cylinder is connected track 6 by bearing pin 7 and has an end of holding junction plate 2, and piston rod 5 ends are connected with described pressure cylinder connecting component 9; It is wedge shape that described track 9 does not have an end of link junction plate; Described transporter trough 1 is provided with scooter 12 with the contact surface of track 6.

Embodiment two: referring to Fig. 1, Fig. 4, Fig. 3, a kind of blast mining face transporter self-advancing Device among the figure, contain hydraulic cylinder 3, transporter trough 1, track 6, end junction plate 4, limited block 11, described track 6 is two, two tracks 6 are at regular intervals, parallel to each other, are fixed on the end junction plate 4 by securing member; Described transporter trough 1 is positioned on the track 6, and transporter trough 1 soffit is provided with two limited blocks, 11, two limited blocks 11 and is buckled in respectively on the corresponding track 6; Two track 6 inboards are provided with and parallel track positioned hydraulic cylinders 3, and these hydraulic cylinder 3 one ends are connected with two tracks 6 by bearing pin 7, and the other end is connected with transporter trough driver part by bearing pin 8, pressure cylinder connecting component 9; Transporter trough 1 can move on track 6 under the driving of hydraulic cylinder 3; Described track 6 is channel-section steels, and described limited block 11 is approximately the limited block of " Z " shape for the corresponding coupling with it of shape cross section; Described two limited blocks 11 all are fixed on the outside of two tracks 6; One end of described two tracks 6 is fixedly connected with end junction plate 2; Described transporter trough 1 driver part is an engaging lug, and this engaging lug is connected with described pressure cylinder connecting component 9, and pressure cylinder connecting component 9 lower ends are connected with described bearing pin 8 with hydraulic cylinder one end; Cylinder body one end of described hydraulic cylinder is connected track 6 by bearing pin 7 and has an end of holding junction plate 2, and piston rod 5 ends are connected with described pressure cylinder connecting component 9; It is wedge shape that described track 9 does not have an end of link junction plate; Described transporter trough 1 is provided with scooter 12 with the contact surface of track 6.

Embodiment three: referring to Fig. 1, Fig. 5, Fig. 3, a kind of blast mining face transporter self-advancing Device among the figure, contain hydraulic cylinder 3, transporter trough 1, track 6, end junction plate 4, limited block 11, described track 6 is two, two tracks 6 are at regular intervals, parallel to each other, are fixed on the end junction plate 4 by securing member; Described transporter trough 1 is positioned on the track 6, and transporter trough 1 soffit is provided with two limited blocks, 11, two limited blocks 11 and is buckled in respectively on the corresponding track 6; Two track 6 inboards are provided with and parallel track positioned hydraulic cylinders 3, and these hydraulic cylinder 3 one ends are connected with two tracks 6 by bearing pin 7, and the other end is connected with transporter trough driver part by bearing pin 8, pressure cylinder connecting component 9; Transporter trough 1 can move on track 6 under the driving of hydraulic cylinder 3; Described track 6 is i iron, and described limited block 11 is approximately the limited block of " Z " shape for the corresponding coupling with it of shape cross section; Described two limited blocks 11 all are fixed on the inboard of two tracks 6; One end of described two tracks 6 is fixedly connected with end junction plate 2; Described transporter trough 1 driver part is an engaging lug, and this engaging lug is connected with described pressure cylinder connecting component 9, and pressure cylinder connecting component 9 lower ends are connected with described bearing pin 8 with hydraulic cylinder one end; Cylinder body one end of described hydraulic cylinder is connected track 6 by bearing pin 7 and has an end of holding junction plate 2, and piston rod 5 ends are connected with described pressure cylinder connecting component 9; It is wedge shape that described track 9 does not have an end of link junction plate; Described transporter trough 1 is provided with scooter 12 with the contact surface of track 6.

Embodiment four: accompanying drawing is not drawn, and embodiment four is basic identical with embodiment three classes, and different is that track is changed to channel-section steel by i iron.

Embodiment five: referring to Fig. 6, embodiment five and embodiment one are basic identical, the representative meaning that number in the figure is identical is identical, something in common does not repeat at this, difference is: the passing framework 14 that have for it and its coupling of transporter trough 1 driver part described in the embodiment five, this passing framework 14 is connected with pressure cylinder connecting component 9, and pressure cylinder connecting component 9 lower ends are connected with described bearing pin 8 with hydraulic cylinder one end.

Transporter trough driver part in the foregoing description two to embodiment four also can be replaced by the passing framework 14 with its trough coupling, this passing framework 14 is connected with pressure cylinder connecting component 9, and pressure cylinder connecting component 9 lower ends are connected with described bearing pin 8 with hydraulic cylinder one end.Do not describe in detail one by one at this.

Claims (9)

1. a blast mining face transporter self-advancing Device contains hydraulic cylinder, transporter trough, track, end junction plate, limited block, it is characterized in that: described track is two, and two tracks are at regular intervals, parallel to each other to be fixed on the end junction plate by securing member; Described transporter trough is positioned on the track, and transporter trough soffit is provided with two limited blocks, and two limited blocks are buckled in respectively on the corresponding track; Two track inboards are provided with and the parallel track positioned hydraulic cylinders, and this hydraulic cylinder one end is connected with two tracks by bearing pin, and the other end is connected with transporter trough driver part by bearing pin, pressure cylinder connecting component; The transporter trough can move under the driving of hydraulic cylinder in orbit.

2. blast mining face transporter self-advancing Device according to claim 1, it is characterized in that: described track is an i iron, or channel-section steel, described limited block is the limited block that the corresponding coupling with it of shape cross section is approximately " Z " shape.

3. blast mining face transporter self-advancing Device according to claim 2 is characterized in that: described two limited blocks all are fixed on the outside of two tracks, or all are fixed on the inboard of two tracks.

4. blast mining face transporter self-advancing Device according to claim 1 is characterized in that: an end of described two tracks is fixedly connected with end plate; Two tracks link together with end junction plate and end junction plate.

5. blast mining face transporter self-advancing Device according to claim 1, it is characterized in that: described transporter trough driver part is an engaging lug, this engaging lug is connected with described pressure cylinder connecting component, and the pressure cylinder connecting component lower end is connected with described bearing pin with hydraulic cylinder one end.

6. blast mining face transporter self-advancing Device according to claim 1, it is characterized in that: described transporter trough driver part passing framework that have for it and its coupling, this passing framework is connected with pressure cylinder connecting component, and the pressure cylinder connecting component lower end is connected with described bearing pin with hydraulic cylinder one end.

7. according to claim 5 or 6 arbitrary described blast mining face transporter self-advancing Devices, it is characterized in that: cylinder body one end of described hydraulic cylinder is connected the end that track has end plate by bearing pin, and the piston rod end is connected with described pressure cylinder connecting component.

8. according to the arbitrary described blast mining face transporter self-advancing Device of claim 1-6, it is characterized in that: the end that described track does not connect end plate is a wedge shape.

9. according to the arbitrary described blast mining face transporter self-advancing Device of claim 1-6, it is characterized in that: the contact surface of described transporter trough and track is provided with scooter.

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