CN109441524A - Metal mine roadway full-fracture-surfacanchoring-rod air door and its working method - Google Patents

Abstract

The present invention relates to a kind of metal mine roadway full-fracture-surfacanchoring-rod air doors, including pedestal, arch doorframe is provided with the bottom of above, main door plate is hingedly provided in arch doorframe side, transition door-plate is hingedly provided with above main door plate, arch door-plate is hingedly provided with above transition door-plate, electric drive hydraulic thruster A is provided on main door plate, the one end electric drive hydraulic thruster A is fixed on main door plate, the other end is fixed on tunnel, it is provided with electric drive hydraulic thruster B between main door plate and transition door-plate, electric drive hydraulic thruster C is provided between transition door-plate and arch door-plate；The invention further relates to a kind of working methods of metal mine roadway full-fracture-surfacanchoring-rod air door.It is the configuration of the present invention is simple, easy to operate, when being able to achieve door opening will not with friction, collision occur at the top of tunnel, improve the durability of air door.

Description

Metal mine roadway full-fracture-surfacanchoring-rod air door and its working method

Technical field

The present invention relates to a kind of metal mine roadway full-fracture-surfacanchoring-rod air door and its working methods.

Background technique

Ventilation is the most important thing of mining production, if cannot effectively divulge information, will jeopardize the life of underground construction personnel Order it is healthy and safe, and then influence construction speed, to influence mining production efficiency.However underworkings is more, situation is complicated, unfavorable It divulges information in specific aim, improves the specific aim ventilation to certain region thus, guarantee personnel and vehicle pass-through again, wind should be just set Door.

In mining production construction, air door is one of most important ventilation device, and air door is installed on windbreak, in order to protect Hold the passage and transport in the tunnel.In order to not only can guarantee the stabilization of Mine Ventilation System, but also can guarantee in each haulage drift The normal operation of mine car and the safe passing of personnel, it usually needs install air door in these tunnels.The wind that the country uses at present Door is most of to have disadvantage in structure and scheme, these following disadvantages reduce the applicability of air door

The air door being commonly used is nearly all unpowered, could manually open air door, generally requires very big strength ability It opens air door (pressure difference on air door both sides is bigger, and the strength of enabling is also bigger), increases artificial physical demands.

The mechanical structure of lever air door is more complicated, processes relatively difficult, the larger, poor safety performance of installation land occupation.

Because cross-section shape of roadway is mostly ellipse, air door is the board-type of integral type again, if according to crosssection shape design wind Door, then cannot fully open, cannot be close to wall.It can only be designed as rectangle or square.

Air door is set on windbreak, prevent some large-scale mine equipment due to size from conveniently passing through, reduce Drift section area utilization rate.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of metal mine roadway full-fracture-surfacanchoring-rod air door and its working method, energy The durability of air door will not be improved with generation friction, collision at the top of tunnel when door opening by realizing.

The present invention is realized using following scheme: a kind of metal mine roadway full-fracture-surfacanchoring-rod air door, including pedestal are set the bottom of above It is equipped with arch doorframe, main door plate is hingedly provided in arch doorframe side, transition door-plate is hingedly provided with above main door plate, It hingedly is provided with arch door-plate above transition door-plate, electric drive hydraulic thruster A, electric drive hydraulic thruster A mono- are provided on main door plate End is fixed on main door plate, and the other end is fixed on tunnel, is provided with electric drive hydraulic thruster between main door plate and transition door-plate B is provided with electric drive hydraulic thruster C between transition door-plate and arch door-plate.

Further, between main door plate and arch doorframe, between main door plate and transition door-plate, transition door-plate and arched door Hinge is provided between plate.

Further, electric drive hydraulic thruster B and electric drive hydraulic thruster C are installed on main door plate with electric drive hydraulic thruster A It is not ipsilateral.

Further, the main door plate includes doorframe A, and door-plate A is provided on doorframe A.

Further, the transition door-plate includes doorframe B, and door-plate B is provided on doorframe B.

Further, the arch door-plate includes doorframe C, and door-plate C is provided on doorframe B.

Further, the one end the electric drive hydraulic thruster B is mounted on main door plate, the installation of the electric drive hydraulic thruster B other end On transition door-plate.

Further, the one end the electric drive hydraulic thruster C is mounted on transition door-plate, electric drive hydraulic thruster C other end peace On arch door-plate.

Another technical solution of the invention is a kind of working method of metal mine roadway full-fracture-surfacanchoring-rod air door, including institute The metal mine roadway full-fracture-surfacanchoring-rod air door stated:

(1) when installing, first by transition door-plate by being hingedly mounted on main door plate, then by arch door-plate by being hingedly mounted to It crosses on door-plate, then the one end electric drive hydraulic thruster B is fixed on main door plate, the other end is fixed on transition door-plate, then will be electric Hydrodynamic pressure push rod C is fixed on transition door-plate one end, and the other end is fixed on arch door-plate, then passes through the side of main door plate Hinge is attached with arch doorframe, then the one end electric drive hydraulic thruster A is fixed on main door plate, and the other end is fixed on tunnel On；

(2) when tunnel needs to close, electric drive hydraulic thruster A, electric drive hydraulic thruster B, electric drive hydraulic thruster C are in stretching shape State is bonded main door plate, transition door-plate, arch door-plate with arch doorframe, closes to tunnel；

(3) when tunnel needs to open, shrink electric drive hydraulic thruster A, electric drive hydraulic thruster B, electric drive hydraulic thruster C, in electricity During hydrodynamic pressure push rod A is shunk, main door plate around with the rotation of the articulated shaft of arch doorframe, make main door plate not with arch doorframe Hinged side is separated with doorframe, opens tunnel, and electric drive hydraulic thruster B, which is shunk, drives transition door plate around the hinge with main door plate Spindle rotation makes transition door-plate with respect to certain bending angle is formed between main door plate, and electric drive hydraulic thruster C, which is shunk, drives arched door Plate around with the rotation of the articulated shaft of transition door-plate, make arch door-plate with respect to forming certain bending angle, transition between transition door-plate Door-plate and arched door plate benging, conveniently adapt to the arch upper wall in tunnel, and when electric drive hydraulic thruster A is shunk, drive main door plate is close When tunnel, it is avoided that at the top of transition door-plate and arch door-plate and tunnel and interferes.

Compared with prior art, it the invention has the following advantages: the configuration of the present invention is simple, easy to operate, is able to achieve When door opening the durability of air door will not be improved with generation friction, collision at the top of tunnel.

To make the objectives, technical solutions, and advantages of the present invention more comprehensible, specific embodiment and phase will be passed through below Attached drawing is closed, invention is further described in detail.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of air door of embodiment of the present invention closed state；

Fig. 2 is the top view of Fig. 1 of the embodiment of the present invention；

Fig. 3 is the structural schematic diagram of air door of embodiment of the present invention opening state；

Fig. 4 is the partial enlarged view of Fig. 3 of the embodiment of the present invention；

Fig. 5 is the structural schematic diagram of main door of embodiment of the present invention plate；

Fig. 6 is the structural schematic diagram of transition of embodiment of the present invention door-plate；

Fig. 7 is the structural schematic diagram of arch of embodiment of the present invention door-plate；

In figure: 10- pedestal；20- arch doorframe；30- main door plate；31- doorframe A；32- door-plate A；40- transition door-plate；41- doorframe B；42- door-plate B；50- arch door-plate；51- doorframe C；52- door-plate C；60- electric drive hydraulic thruster A；70- electric drive hydraulic thruster B； 80- electric drive hydraulic thruster C；90- hinge.

Specific embodiment

As shown in Fig. 1 ~ 7, a kind of metal mine roadway full-fracture-surfacanchoring-rod air door, including pedestal 10, arch is provided with the bottom of above Doorframe 20 is hingedly provided with main door plate 30 in 20 side of arch doorframe, is hingedly provided with transition door-plate 40 above main door plate 30, It hingedly is provided with arch door-plate 50 above transition door-plate 40, electric drive hydraulic thruster A60, electronic liquid are provided on main door plate 30 Pressure one end push rod A60 is fixed on main door plate 30, and the other end is fixed on tunnel, is set between main door plate 30 and transition door-plate 40 It is equipped with electric drive hydraulic thruster B70, electric drive hydraulic thruster C80 is provided between transition door-plate 40 and arch door-plate 50.Electronic liquid Pressure push rod A60 can control the rotation of main door plate 30, and then control the opening and closing in tunnel, and electric drive hydraulic thruster B70 can be with It controls transition door-plate 40 and is bent certain angle with respect to main door plate 30, it is opposite that electric drive hydraulic thruster C80 can control arch door-plate 50 Transition door-plate 40 is bent certain angle, and transition door-plate 40 and arch door-plate 50 are bent, conveniently adapt to the arch upper wall in tunnel, work as electricity Hydrodynamic pressure push rod A60 is shunk, and when driving main door plate 30 close to tunnel, is avoided that transition door-plate 40 and arch door-plate 50 and tunnel push up Portion interferes, while multiple transition door-plates 40 can be arranged, be more convenient for adapting to the arch at the top of tunnel according to actual use demand Shape upper wall.

In the present embodiment, between main door plate 30 and arch doorframe 20, between main door plate 30 and transition door-plate 40, transition door Hinge 90 is provided between plate 40 and arch door-plate 50.

In the present embodiment, electric drive hydraulic thruster B70 and electric drive hydraulic thruster C80 are installed on electric drive hydraulic thruster A60 Main door plate 30 it is not ipsilateral.

In the present embodiment, the main door plate 30 includes doorframe A31, and door-plate A32 is provided on doorframe A31.

In the present embodiment, the transition door-plate 40 includes doorframe B, and door-plate B42 is provided on doorframe B.

In the present embodiment, the arch door-plate 50 includes doorframe C51, and door-plate C52 is provided on doorframe B.

In the present embodiment, the one end the electric drive hydraulic thruster B70 is mounted on main door plate 30, and electric drive hydraulic thruster B70 is another One end is mounted on transition door-plate 40.

In the present embodiment, the one end the electric drive hydraulic thruster C80 is mounted on transition door-plate 40, electric drive hydraulic thruster C80 The other end is mounted on arch door-plate 50.

A kind of working method of metal mine roadway full-fracture-surfacanchoring-rod air door, including the metal mine roadway full-fracture-surfacanchoring-rod wind Door:

When installation, first transition door-plate 40 is installed on main door plate 30 by hinge 90, then arch door-plate 50 is passed through into hinge 90 It is installed on transition door-plate 40, then the one end electric drive hydraulic thruster B70 is fixed on main door plate 30, the other end is fixed on transition On door-plate 40, then the one end electric drive hydraulic thruster C80 being fixed on transition door-plate 40, the other end is fixed on arch door-plate 50, Then the side of main door plate 30 is attached by hinge 90 with arch doorframe 20, then the one end electric drive hydraulic thruster A60 is consolidated Due on main door plate 30, the other end is fixed on tunnel；

(2) when tunnel needs to close, electric drive hydraulic thruster A60, electric drive hydraulic thruster B70, electric drive hydraulic thruster C80 are in Stretching state is bonded main door plate 30, transition door-plate 40, arch door-plate 50 with doorframe, closes to tunnel；

(3) when tunnel needs to open, receive electric drive hydraulic thruster A60, electric drive hydraulic thruster B70, electric drive hydraulic thruster C80 Contracting, during electric drive hydraulic thruster A60 is shunk, main door plate 30 is rotated around with the articulated shaft of arch doorframe 20, makes main door The side hinged with arch doorframe 20 does not separate plate 30 with doorframe, opens tunnel, and electric drive hydraulic thruster B70, which is shunk, drives transition Door-plate 40 is rotated around with the articulated shaft of main door plate 30, makes to form certain bending angle between the opposite main door plate 30 of transition door-plate 40 Degree, electric drive hydraulic thruster C80, which is shunk, drives arched door plate 50 to rotate around with the articulated shaft of transition door-plate 40, makes arch door-plate 50 Certain bending angle is formed between opposite transition door-plate 40, transition door-plate 40 and arch door-plate 50 are bent, and conveniently adapt to tunnel Arch upper wall is avoided that transition door-plate 40 and arch when electric drive hydraulic thruster A60 is shunk, and drives main door plate 30 close to tunnel It is interfered at the top of door-plate 50 and tunnel.

Above-listed preferred embodiment, has been further described the object, technical solutions and advantages of the present invention, is answered Understand, the foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (9)

1. a kind of metal mine roadway full-fracture-surfacanchoring-rod air door, it is characterised in that: including pedestal, arch doorframe is provided with the bottom of above, It is hingedly provided with main door plate in arch doorframe side, transition door-plate is hingedly provided with above main door plate, above transition door-plate It hingedly is provided with arch door-plate, electric drive hydraulic thruster A is provided on main door plate, the one end electric drive hydraulic thruster A is fixed on main door On plate, the other end is fixed on tunnel, electric drive hydraulic thruster B is provided between main door plate and transition door-plate, in transition door-plate Electric drive hydraulic thruster C is provided between arch door-plate.

2. metal mine roadway full-fracture-surfacanchoring-rod air door according to claim 1, it is characterised in that: in main door plate and arch doorframe Between, between main door plate and transition door-plate, between transition door-plate and arch door-plate be provided with hinge.

3. metal mine roadway full-fracture-surfacanchoring-rod air door according to claim 1 to 2, it is characterised in that: electric drive hydraulic thruster B and electric drive hydraulic thruster C is installed on the not ipsilateral of main door plate with electric drive hydraulic thruster A.

4. metal mine roadway full-fracture-surfacanchoring-rod air door according to claim 1 to 3, it is characterised in that: the main door plate packet Doorframe A is included, door-plate A is provided on doorframe A.

5. metal mine roadway full-fracture-surfacanchoring-rod air door according to claim 1 to 3, it is characterised in that: the transition door-plate Including doorframe B, door-plate B is provided on doorframe B.

6. metal mine roadway full-fracture-surfacanchoring-rod air door according to claim 1 to 3, it is characterised in that: the arch door-plate Including doorframe C, door-plate C is provided on doorframe B.

7. metal mine roadway full-fracture-surfacanchoring-rod air door according to claim 1 to 3, it is characterised in that: the electric hydaulic The one end push rod B is mounted on main door plate, and the electric drive hydraulic thruster B other end is mounted on transition door-plate.

8. metal mine roadway full-fracture-surfacanchoring-rod air door according to claim 1 to 3, it is characterised in that: the electric hydaulic The one end push rod C is mounted on transition door-plate, and the electric drive hydraulic thruster C other end is mounted on arch door-plate.

9. a kind of working method of metal mine roadway full-fracture-surfacanchoring-rod air door, including metal mine tunnel as described in claim 1 Tunneling boring air door, it is characterised in that:

When installation, first by transition door-plate by being hingedly mounted on main door plate, then by arch door-plate by being hingedly mounted to transition On door-plate, then the one end electric drive hydraulic thruster B is fixed on main door plate, the other end is fixed on transition door-plate, then will be electronic Hydraulic push rod C is fixed on transition door-plate one end, and the other end is fixed on arch door-plate, and the side of main door plate is then passed through hinge Chain is attached with arch doorframe, then the one end electric drive hydraulic thruster A is fixed on main door plate, and the other end is fixed on tunnel；

When tunnel needs to close, electric drive hydraulic thruster A, electric drive hydraulic thruster B, electric drive hydraulic thruster C are in stretching state, It is bonded main door plate, transition door-plate, arch door-plate with arch doorframe, tunnel is closed；

When tunnel needs to open, shrink electric drive hydraulic thruster A, electric drive hydraulic thruster B, electric drive hydraulic thruster C, in electronic liquid During pressing push rod A to shrink, main door plate is rotated around with the articulated shaft of arch doorframe, keeps main door plate not hinged with arch doorframe Side separated with doorframe, open tunnel, electric drive hydraulic thruster B shrink drive transition door plate around the articulated shaft with main door plate Rotation makes transition door-plate is opposite to form certain bending angle between main door plate, electric drive hydraulic thruster C shrink drive arched door plate around Rotated with the articulated shaft of transition door-plate, make arch door-plate with respect to forming certain bending angle, transition door-plate between transition door-plate With arched door plate benging, the arch upper wall in tunnel is conveniently adapted to, when electric drive hydraulic thruster A is shunk, drive main door plate is close to tunnel When, it is avoided that at the top of transition door-plate and arch door-plate and tunnel and interferes.