CN209637795U - A kind of roadway head gib equipment - Google Patents
A kind of roadway head gib equipment Download PDFInfo
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- CN209637795U CN209637795U CN201920313796.4U CN201920313796U CN209637795U CN 209637795 U CN209637795 U CN 209637795U CN 201920313796 U CN201920313796 U CN 201920313796U CN 209637795 U CN209637795 U CN 209637795U
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Abstract
A kind of roadway head gib equipment, including I type, II type, type III and IV type bracket;I type, II type bracket are one;Type III, IV type bracket are several;I type bracket is located at front end, and II type bracket is located at I type back-end support, and II type back-end support is alternately arranged type III and IV type bracket;Four type brackets include gate frame, top beam component, leg assembly, passage component and collateral support component;Top beam component is located at the top of gate frame, and leg assembly is located at gate frame bottom, elapses component between adjacent stent, collateral support component is located at gate frame on both sides of the middle.Wriggly walking mode: single bracket successively moves forward a step pitch, until gib equipment integrally moves forward a step pitch.Replace walking manner of taking a step: by bracket sequence label, all odd numbered brackets move forward a step pitch, and all even-numbered brackets move forward a step pitch, until gib equipment integrally moves forward a step pitch.
Description
Technical field
The utility model belongs to colliery tunnel support equipment technical field, faces more particularly to a kind of roadway head
When support apparatus.
Background technique
Coal is the main body energy and important source material in China, and accounts for 70% or more of national primary energy structure, and coal is opened
It adopts and needs a large amount of underground excavation works, and digging is unbalance, the contradiction of driving lag back production always exists, and increasingly sharpens.Lane
Road driving technology level and the mechanization of equipment, automation, intelligent development, still lag behind actual mining technology and equipment,
Tunnelling speed oneself lagged behind coal production demand.
The logical investigation of coal mine too much learns that tunneling construction process (driving, permanent support) cannot be made in parallel to greatest extent
Industry, this is also one of the main reason for influencing comprehensive pick fast footage, and in the piercing technique of tradition " one anchor of pick ", there is branch
The shield disadvantage that operation occupies the plenty of time, development machine Homes Using TV is low, labor intensity of workers is big, safety is poor, thus serious shadow
Tunnelling is rung into the efficiency in lane.
Therefore, it is badly in need of developing a kind of roadway head gib equipment, utilizes its tunnel to new cutting formation
Gib is carried out, the position of permanent support is moved back, excavation operation and permanent support operation are carried out simultaneously, only
Having so can just greatly improve tunnelling efficiency, at the same can support personnel's safety, and labor intensity of workers is effectively reduced.
Utility model content
In view of the problems of the existing technology, the utility model provides a kind of roadway head gib equipment,
It can carry out gib to the tunnel of new cutting formation, the position of permanent support be moved back, so that excavation operation and forever
Long supporting operation can carry out simultaneously, and then effectively increase tunnelling efficiency, at the same can support personnel's safety, and energy
Labor intensity of workers is enough effectively reduced.
To achieve the goals above, the utility model adopts the following technical solution: a kind of roadway head temporarily props up
Protect equipment, including I type bracket, II type bracket, type III bracket and IV type bracket;The quantity of the I type bracket and II type bracket is only
It is one;The quantity of the type III bracket and IV type bracket is several;The I type bracket is located at front end, the II type bracket position
In I type back-end support, type III bracket and IV type bracket are alternately arranged in II type back-end support;The I type bracket, II type bracket,
Type III bracket and IV type bracket include gate frame, top beam component, leg assembly, passage component and collateral support component;It is described
Top beam component is located at the top of gate frame, and the leg assembly is located at gate frame bottom, and the passage component is located at adjacent branch
Between frame, the collateral support component is located at gate frame on both sides of the middle.
Top beam component at three is uniformly arranged at the top of the gate frame of the I type bracket, the top beam component of I type bracket includes
I type top beam, top beam extension sleeve, forestope and forestope support cylinder;The top beam extension sleeve is vertically installed at gate frame
Top of the trellis, the I type top beam are in y-type structure, and I type top beam is horizontally hinged on top beam extension sleeve top, and the opening of I type top beam
Side is backwards;The forestope is hinged on the front end of I type top beam, and forestope support cylinder one end is hinged on forestope following table
Face, the forestope support cylinder other end are hinged on gate frame.
Top beam component at two, the top beam component packet of II type bracket are uniformly arranged at the top of the gate frame of the II type bracket
Include II type top beam, top beam extension sleeve and II type top beam support cylinder;The top beam extension sleeve is vertically installed at gate frame
Top, the II type top beam are in X-type structure, and II type top beam is horizontally hinged on top beam extension sleeve top, and before II type top beam
Half section of beam body length is greater than second half section beam body length;II type top beam support cylinder one end is hinged on the front half section of II type top beam
Beam body lower surface, the II type top beam support cylinder other end are hinged on gate frame.
It is uniformly arranged top beam component at three at the top of the gate frame of the type III bracket, in the door of the IV type bracket
Type frame roof is uniformly arranged top beam component at two, and the type III bracket and IV type bracket include that type III top beam and top beam are stretched
Contracting sleeve;The top beam extension sleeve is vertically installed at the top of gate frame, and type III top beam is in X-type structure, type III top beam water
It is flat to be hinged on top beam extension sleeve top, and the front half section beam body length of type III top beam is equal to second half section beam body length.
The leg assembly includes landing leg stretching sleeve and stabilizer blade pedestal, landing leg stretching sleeve top and gate frame
Bottom end is fixedly connected with, and the stabilizer blade pedestal is hinged on landing leg stretching sleeve bottom end;The stabilizer blade pedestal uses tray type structure, in stabilizer blade
Base lower surface is equipped with grouser.
The passage component includes the first push rod, the second push rod, passage oil cylinder, passage oil cylinder piston rod guide groove and passage
Cylinder piston rod directive wheel;First push rod is identical and arranged in a crossed manner as the second pusher structure, the first push rod and the second push rod
It is hinged in intersection;The cylinder barrel end of the passage oil cylinder is hinged on gate frame, and the passage oil cylinder piston rod is led
The piston rod end of passage oil cylinder is hinged on by wheel shaft to wheel, the passage oil cylinder piston rod guide groove is packed in passage vertically
On gate frame immediately below oil cylinder, passage oil cylinder piston rod directive wheel is located in passage oil cylinder piston rod guide groove;Described
One push rod and the second push rod upper end are respectively hinged on the gate frame of adjacent stent, the first push rod and the second push rod lower end difference
It is hinged on the passage oil cylinder piston rod directive wheel wheel shaft of adjacent stent.
The collateral support component includes the first side support bar, the second side support bar, side support cylinder, collateral support oil cylinder piston
Bar guide groove, collateral support cylinder piston rod directive wheel, pull rod, side braced frame and metal mesh;First side support bar and the
Two side support bar structures are identical and arranged in a crossed manner, and the first side support bar is hinged with the second side support bar in intersection;It is described
Side support cylinder be vertically arranged and piston rod downward, the cylinder barrel of side support cylinder is fixedly connected on gate frame;It is described collateral
Support cylinder piston rod guide groove is packed in vertically on the gate frame right above the support cylinder of side, the collateral support cylinder piston rod
Directive wheel is located in collateral support cylinder piston rod guide groove;Described pull rod one end is connected to collateral support cylinder piston rod directive wheel wheel
On axis, the pull rod other end and the piston rod end of side support cylinder are fixedly connected with;First side support bar upper end is hinged on collateral
It supports on cylinder piston rod directive wheel wheel shaft, the first side support bar lower end is hinged in the braced frame of side;Second side support bar
Upper end is equipped with side support bar directive wheel, is fixed with side support bar guide groove, side support bar guiding vertically in the braced frame of side
Wheel is located in side support bar guide groove, and the second side support bar lower end is hinged on gate frame;The metal mesh fixation is laid on
In the braced frame of side.
The application method of the roadway head gib equipment, when back is unstable, use is compacted
Dynamic walking manner, includes the following steps:
Step 1: first dropping to extreme lower position for the top beam component at the top of the gate frame of I type bracket, then by I type bracket
The collateral support component of gate frame on both sides of the middle be adjusted to retracted state, finally by the branch of the gate frame bottom of I type bracket
Leg assembly is adjusted to lifting status, and I type bracket is in vacant state at this time;
Step 2: the passage component between control I type bracket and II type bracket forward extends out, and moves forward I type bracket
One step pitch;
Step 3: the leg assembly of the gate frame bottom of I type bracket is first adjusted to stretching state, makes leg assembly branch
Support roadway floor;The collateral support component of the gate frame on both sides of the middle of I type bracket is adjusted to unfolded state again, makes collateral support group
Part supported laneway lateral wall;The top beam component at the top of the gate frame of I type bracket is finally adjusted to raised configuration, makes top beam component
Supported laneway top plate;
Step 4: referring to the moving process of I type bracket, control II type bracket moves forward a step pitch;
Step 5: it referring to the moving process of I type bracket, controls first type III bracket and moves forward a step pitch;
Step 6: it referring to the moving process of I type bracket, controls first IV type bracket and moves forward a step pitch;
Step 7: it referring to the moving process of I type bracket, controls subsequent type III bracket and IV type bracket respectively forwardly moves
A step pitch is moved, until gib equipment integrally moves forward a step pitch.
The application method of the roadway head gib equipment, when roadway surrounding rock is more stable, using friendship
For walking manner of taking a step, include the following steps:
Step 1: being 1. number bracket by I type stent markers, is 2. number bracket by II type stent markers, and so on, will after
Continue all type III bracket and IV type bracket carry out sequence label;
Step 2: first dropping to extreme lower position for the top beam component at the top of the gate frame of all odd numbered brackets, then
The collateral support component of the gate frame on both sides of the middle of all odd numbered brackets is adjusted to retracted state, finally by all odd numbers
The leg assembly of the gate frame bottom of label bracket is adjusted to lifting status, and all odd numbered brackets are in hanging shape at this time
State;
Step 3: the passage component for controlling all odd numbered brackets rear forward extends out, and makes all odd numbered brackets
Move forward a step pitch;
Step 4: the leg assembly of the gate frame bottom of all odd numbered brackets is first adjusted to stretching state, is made
Leg assembly supports roadway floor;The collateral support component of the gate frame on both sides of the middle of all odd numbered brackets is adjusted to again
Unfolded state makes collateral support component supported laneway lateral wall;Finally by the top beam at the top of the gate frame of all odd numbered brackets
Component is adjusted to raised configuration, makes top beam component supported laneway top plate;
Step 5: referring to the moving process of odd numbered bracket, all even-numbered brackets is controlled and move forward a step
Away from until gib equipment integrally moves forward a step pitch.
The utility model has the beneficial effects that
The roadway head gib equipment of the utility model, can face the tunnel of new cutting formation
When supporting, the position of permanent support is moved back, excavation operation and permanent support operation are carried out simultaneously, so effectively
Improve tunnelling efficiency, at the same can support personnel's safety, and can be effectively reduced labor intensity of workers.
Detailed description of the invention
Fig. 1 is a kind of perspective view of roadway head gib equipment of the utility model;
Fig. 2 is a kind of front view of roadway head gib equipment of the utility model;
Fig. 3 is a kind of top view of roadway head gib equipment of the utility model;
Fig. 4 is the structural schematic diagram of the type III bracket of the utility model;
Fig. 5 is the structural schematic diagram of the collateral support component of the utility model;
Fig. 6 uses schematic diagram when wriggly walking mode for support apparatus when facing of the utility model;
Fig. 7 is that support apparatus when facing of the utility model uses schematic diagram when alternately taking a step walking manner;
In figure, 1-I type bracket, 2-II type brackets, 3-type III brackets, 4-IV type brackets, 5-gate frames, 6-
Top beam component, 61-I type top beams, 62-top beam extension sleeves, 63-forestopes, 64-forestope support cylinders, 65-II types
Top beam, 66-II type top beam support cylinders, 67-type III top beams, 7-leg assemblies, 71-landing leg stretching sleeves, 72-stabilizer blades
Pedestal, 73-grousers, 8-passage components, the 81-the first push rod, the 82-the second push rod, 83-passage oil cylinders, 84-passage oil cylinders
Piston rod guide groove, 85-passage oil cylinder piston rod directive wheels, 9-collateral support components, the 91-the first side support bar, 92-the second
Side support bar, 93-side support cylinders, 94-collateral support cylinder piston rod guide grooves, 95-collateral support cylinder piston rod guiding
Wheel, 96-pull rods, 97-side braced frames, 98-metal meshes, 99-side support bar guide grooves.
Specific embodiment
The utility model is described in further detail in the following with reference to the drawings and specific embodiments.
As shown in Fig. 1~5, a kind of roadway head gib equipment, including I type bracket 1, II type bracket 2,
Type III bracket 3 and IV type bracket 4;The quantity of the I type bracket 1 and II type bracket 2 is only one;3 He of type III bracket
The quantity of IV type bracket 4 is three;The I type bracket 1 is located at front end, and the II type bracket 2 is located at 1 rear end of I type bracket,
Type III bracket 3 and IV type bracket 4 are alternately arranged in 2 rear end of II type bracket;The I type bracket 1, II type bracket 2, type III bracket
3 and IV type bracket 4 includes gate frame 5, top beam component 6, leg assembly 7, passage component 8 and collateral support component 9;The top
Beam assembly 6 is located at 5 top of gate frame, and the leg assembly 7 is located at 5 bottom of gate frame, and the passage component 8 is located at adjacent
Between bracket, the collateral support component 9 is located at 5 on both sides of the middle of gate frame.
Top beam component 6 at three, the top beam component of I type bracket 1 are uniformly arranged at the top of the gate frame 5 of the I type bracket 1
6 include I type top beam 61, top beam extension sleeve 62, forestope 63 and forestope support cylinder 64;The top beam extension sleeve 62 is perpendicular
It is directly mounted on 5 top of gate frame, the I type top beam 61 is in y-type structure, and I type top beam 61 is horizontally hinged in top beam extension sleeve
62 tops, and the open side of I type top beam 61 is backwards;The forestope 63 is hinged on the front end of I type top beam 61, the forestope branch
Support 64 one end of oil cylinder is hinged on 63 lower surface of forestope, and 64 other end of forestope support cylinder is hinged on gate frame 5.
Top beam component 6 at two, the top beam group of II type bracket 2 are uniformly arranged at the top of the gate frame 5 of the II type bracket 2
Part 6 includes II type top beam 65, top beam extension sleeve 62 and II type top beam support cylinder 66;The top beam extension sleeve 62 is pacified vertically
Mounted in 5 top of gate frame, the II type top beam 65 is in X-type structure, and II type top beam 65 is horizontally hinged in top beam extension sleeve 62
Top, and the front half section beam body length of II type top beam 65 is greater than second half section beam body length;The II type top beam support cylinder 66 1
End is hinged on the front half section beam body lower surface of II type top beam 65, and 66 other end of II type top beam support cylinder is hinged on gate frame 5
On.
Top beam component 6 at three is uniformly arranged at the top of the gate frame 5 of the type III bracket 3, in the IV type bracket 4
Gate frame 5 at the top of be uniformly arranged top beam component 6 at two, the type III bracket 3 and IV type bracket 4 include type III top beam
67 and top beam extension sleeve 62;The top beam extension sleeve 62 is vertically installed at 5 top of gate frame, and type III top beam 67 is in X-type
Structure, type III top beam 67 is horizontally hinged on 62 top of top beam extension sleeve, and the front half section beam body length etc. of type III top beam 67
In second half section beam body length.
In the present embodiment, it is all covered with a layer rubber in the upper surface of I type top beam 61, II type top beam 65 and type III top beam 67,
The destruction to back can be mitigated;I type top beam 61 is in y-type structure, and II type top beam 65 and type III top beam 67 are in X-type structure,
Top beam can be increased to the supporting range of back;Top beam extension sleeve 62 uses box-section tubular structure;Pass through forestope 63
Support range can be increased, while for assisting anchor net operation;Pass through the adjustable forestope 63 of forestope support cylinder 64
Rotation angle, can adjust the rotation angle of II type top beam 65 by II type top beam support cylinder 66, lane can be well adapted to
The vertical inclination angle deviation of road top plate, cross dip deviation and part are uneven, to guarantee supporting effect.
In addition, due to being uniformly arranged top beam component 6 at three, the gate of II type bracket 2 at the top of the gate frame 5 of I type bracket 1
It is uniformly arranged top beam component 6 at two at the top of frame 5, is uniformly arranged top beam component at three at the top of the gate frame 5 of type III bracket 3
Top beam component 6 at two is uniformly arranged at the top of the gate frame 5 of 6, IV type brackets 4, it is ensured that the top beam component 6 between adjacent stent
It is interspersed respectively in machine and transverse direction, shows all 6 entirety of top beam component netted, not only ensure that it to tunnel
The supporting range of top plate, while also taking a step to walk for the alternating of gib equipment and providing precondition.
The leg assembly 7 include landing leg stretching sleeve 71 and stabilizer blade pedestal 72,71 top of landing leg stretching sleeve with
5 bottom end of gate frame is fixedly connected with, and the stabilizer blade pedestal 72 is hinged on 71 bottom end of landing leg stretching sleeve;The stabilizer blade pedestal 72 uses
Tray type structure is equipped with grouser 73 in 72 lower surface of stabilizer blade pedestal.Stabilizer blade pedestal 72 and roadway floor can be increased by grouser 73
Between contact force, prevent from sliding;By the whole height of the adjustable leg assembly 7 of landing leg stretching sleeve 71, it is adapted to
The tunnel of different height has stronger adaptability to out-of-flatness roadway floor.
The passage component 8 includes the first push rod 81, the second push rod 82, passage oil cylinder 83, passage oil cylinder piston rod guiding
Slot 84 and passage oil cylinder piston rod directive wheel 85;First push rod 81 is identical and arranged in a crossed manner as 82 structure of the second push rod, the
One push rod 81 is hinged with the second push rod 82 in intersection;The cylinder barrel end of the passage oil cylinder 83 is hinged on gate frame 5
On, the passage oil cylinder piston rod directive wheel 85 is hinged on the piston rod end of passage oil cylinder 83, the passage oil by wheel shaft
Cylinder piston rod guide groove 84 is packed in vertically on the gate frame 5 immediately below passage oil cylinder 83, passage oil cylinder piston rod directive wheel
85 are located in passage oil cylinder piston rod guide groove 84;First push rod 81 and 82 upper end of the second push rod are respectively hinged at adjacent branch
On the gate frame 5 of frame, the first push rod 81 and 82 lower end of the second push rod are respectively hinged at the passage oil cylinder piston rod of adjacent stent
On 85 wheel shaft of directive wheel.
Passage component 8 is the core component that gib equipment has walking and cornering ability, when gib equipment needs
When straight line being wanted to walk, the equal length for only needing the piston rod of the passage oil cylinder 83 of 5 two sides of gate frame to stretch out, when interim branch
When shield equipment needs to turn, the length for only needing the piston rod of the passage oil cylinder 83 of 5 two sides of gate frame to stretch out is different, so that it may so that
Certain angle is generated between the gate frame 5 of adjacent stent, so that gib equipment is enable independently to realize that pose adjusts,
To fit turn operating condition.In addition, due to factors such as the out-of-flatnesses of back, bracket will during the work of gib equipment
By the offset loading force of all directions, the effect for elapsing component 8 at this time is just to maintain the distance between bracket, so that gib equipment
Work that as a whole can be stable.
The collateral support component 9 includes the first side support bar 91, the second side support bar 92, side support cylinder 93, collateral support
Cylinder piston rod guide groove 94, collateral support cylinder piston rod directive wheel 95, pull rod 96, side braced frame 97 and metal mesh 98;Institute
It is identical and arranged in a crossed manner as 92 structure of the second side support bar to state the first side support bar 91, the first side support bar 91 is supported with second side
Bar 92 is hinged in intersection;The side support cylinder 93 be vertically arranged and piston rod downward, the cylinder barrel of side support cylinder 93
It is fixedly connected on gate frame 5;The collateral support cylinder piston rod guide groove 94 be packed in vertically side support cylinder 93 just on
On the gate frame 5 of side, the collateral support cylinder piston rod directive wheel 95 is located in collateral support cylinder piston rod guide groove 94;Institute
It states 96 one end of pull rod to be connected on collateral 95 wheel shaft of support cylinder piston rod directive wheel, 96 other end of pull rod and side support cylinder 93
Piston rod end is fixedly connected with;First side support bar, 91 upper end is hinged on collateral 95 wheel shaft of support cylinder piston rod directive wheel,
First side support bar, 91 lower end is hinged in side braced frame 97;Second side support bar, 92 upper end is equipped with side support bar and leads
To wheel, it is fixed with side support bar guide groove 99 vertically in side braced frame 97, side support bar directive wheel is led positioned at side support bar
Into slot 99,92 lower end of the second side support bar is hinged on gate frame 5;The fixation of metal mesh 98 is laid on side braced frame
On 97.
In the present embodiment, side braced frame 97 is whole to use tower structure, and braced frame 97 upper and lower ends in side are provided with
Arc section can well adapt to tunnel fillet by the arc section of setting, while can reduce the destruction to tunnel lateral wall;In
Braced frame 97 two sides in side are provided with elastic comb structure, to increase the supporting range of side braced frame 97, and side braced frame
The metal mesh 98 that 97 surfaces are laid with can further increase supporting effect.The effect of pull rod 96 is the piston for making side support cylinder 93
Bar stretches out with thrust output, then pushes away side braced frame 97 by the first side support bar 91 of intersection and the second side support bar 92
Out, the support force that ensure that collateral support component 9 exports is bigger, while can also reduce the size of side support cylinder 93.Between bracket
Collateral support component 9 can work independently from each other, make it to the more adaptable of tunnel lateral wall, at the same also can be realized alternately branch
Support tunnel lateral wall.
The working principle of the gib equipment of the utility model are as follows: gib equipment needs to straddle on development machine
Side, and entire development machine is covered, after development machine completes the headwork of a distance, the unsupported back span of back is caused to become
Greatly, so that back is become unstable, be then easy to produce the accidents such as roof fall at this time, need to control gib equipment at this time forward
It is moved to below the back to supporting, first provides support force by top beam component 6, to support unstable back, so
Supporting is carried out to tunnel lateral wall by collateral support component 9 afterwards, to prevent wall caving, guarantees the peace of lower section development machine and personnel
Entirely.
The application method of the roadway head gib equipment, when back is unstable, such as Fig. 6 institute
Show, using wriggly walking mode, includes the following steps:
Step 1: first dropping to extreme lower position for the top beam component 6 at the top of the gate frame of I type bracket 15, then by I type branch
The collateral support component 9 of 5 on both sides of the middle of gate frame of frame 1 is adjusted to retracted state, finally by 5 bottom of gate frame of I type bracket 1
The leg assembly 7 in portion is adjusted to lifting status, and I type bracket 1 is in vacant state at this time;
Step 2: the passage component 8 between control I type bracket 1 and II type bracket 2 forward extends out, and makes I type bracket 1 forward
A mobile step pitch;
Step 3: the leg assembly 7 of 5 bottom of gate frame of I type bracket 1 is first adjusted to stretching state, makes supporting leg group
Part 7 supports roadway floor;The collateral support component 9 of 5 on both sides of the middle of gate frame of I type bracket 1 is adjusted to unfolded state again, is made
Collateral 9 supported laneway lateral wall of support component;Finally it is adjusted to the top beam component 6 at 5 top of the gate frame of I type bracket 1 to rise shape
State makes 6 supported laneway top plate of top beam component;
Step 4: referring to the moving process of I type bracket 1, control II type bracket 2 moves forward a step pitch;
Step 5: it referring to the moving process of I type bracket 1, controls first type III bracket 3 and moves forward a step pitch;
Step 6: it referring to the moving process of I type bracket 1, controls first IV type bracket 4 and moves forward a step pitch;
Step 7: referring to the moving process of I type bracket 1, subsequent type III bracket 3 and IV type bracket 4 are controlled respectively forwardly
A mobile step pitch, until gib equipment integrally moves forward a step pitch.
When back is unstable, then gib equipment is needed to be capable of providing biggish support force, while will also be
It moves and guarantees the constant of support force during frame as far as possible, since gib equipment uses the advancing velocity of wriggly walking mode
It is relatively slow, each only mobile bracket, therefore the influence to back is minimum, so using wriggling when back is unstable
Walking manner is the most suitable, and supporting effect is most ideal.
The application method of the roadway head gib equipment, when roadway surrounding rock is more stable, such as Fig. 7 institute
Show, using walking manner of alternately taking a step, includes the following steps:
Step 1: by I type bracket 1 labeled as 1. number bracket, being labeled as 2. number bracket for II type bracket 2, and so on, it will
4 carry out sequence label of subsequent all type III brackets 3 and IV type bracket;
Step 2: first dropping to extreme lower position for the top beam component 6 at 5 top of the gate frame of all odd numbered brackets,
The collateral support component 9 of 5 on both sides of the middle of gate frame of all odd numbered brackets is adjusted to retracted state again, will finally be owned
The leg assembly 7 of 5 bottom of gate frame of odd numbered bracket is adjusted to lifting status, and all odd numbered brackets are at this time
Vacant state;
Step 3: the passage component 8 for controlling all odd numbered brackets rear forward extends out, and makes all odd numbered brackets
Move forward a step pitch;
Step 4: being first adjusted to stretching state for the leg assembly 7 of 5 bottom of gate frame of all odd numbered brackets,
Leg assembly 7 is set to support roadway floor;Again by the collateral support component 9 of 5 on both sides of the middle of gate frame of all odd numbered brackets
It is adjusted to unfolded state, makes collateral 9 supported laneway lateral wall of support component;Finally the gate frame 5 of all odd numbered brackets is pushed up
The top beam component 6 in portion is adjusted to raised configuration, makes 6 supported laneway top plate of top beam component;
Step 5: referring to the moving process of odd numbered bracket, all even-numbered brackets is controlled and move forward a step
Away from until gib equipment integrally moves forward a step pitch.
When roadway surrounding rock is more stable, influence of the gib equipment shifting frame process to back is smaller, then preferentially adopts
With walking manner of taking a step is replaced, since gib equipment only needs two circulation actions using walking manner of alternately taking a step
To previous step pitch, the speed of travel is fast, and work efficiency is high.In actual operation, it can be adjusted at any time according to roadway surrounding rock situation
The walking manner and step pitch of gib equipment can maximize working efficiency under the premise of guaranteeing supporting effect in this way.
Scheme in embodiment is not the scope of patent protection to limit the utility model, all without departing from the utility model
Carried out by equivalence enforcement or change, be both contained in the scope of the patents of this case.
Claims (7)
1. a kind of roadway head gib equipment, it is characterised in that: including I type bracket, II type bracket, type III branch
Frame and IV type bracket;The quantity of the I type bracket and II type bracket is only one;The number of the type III bracket and IV type bracket
It measures several;The I type bracket is located at front end, and the II type bracket is located at I type back-end support, replaces cloth in II type back-end support
Set type III bracket and IV type bracket;The I type bracket, II type bracket, type III bracket and IV type bracket include gate frame,
Top beam component, leg assembly, passage component and collateral support component;The top beam component is located at the top of gate frame, the supporting leg
Component is located at gate frame bottom, and for the passage component between adjacent stent, the collateral support component is located at gate frame
On both sides of the middle.
2. a kind of roadway head gib equipment according to claim 1, it is characterised in that: in the I type
It is uniformly arranged top beam component at three at the top of the gate frame of bracket, the top beam component of I type bracket includes that I type top beam, top beam are flexible
Sleeve, forestope and forestope support cylinder;The top beam extension sleeve is vertically installed at the top of gate frame, I type top
Beam is in y-type structure, and I type top beam is horizontally hinged on top beam extension sleeve top, and the open side of I type top beam is backwards;It is visited before described
Beam is hinged on the front end of I type top beam, and forestope support cylinder one end is hinged on forestope lower surface, forestope support cylinder
The other end is hinged on gate frame.
3. a kind of roadway head gib equipment according to claim 1, it is characterised in that: in the II type
It is uniformly arranged top beam component at two at the top of the gate frame of bracket, the top beam component of II type bracket includes that II type top beam, top beam are stretched
Contracting sleeve and II type top beam support cylinder;The top beam extension sleeve is vertically installed at the top of gate frame, the II type top beam
In X-type structure, after II type top beam is horizontally hinged on top beam extension sleeve top, and the front half section beam body length of II type top beam is greater than
Half section of beam body length;II type top beam support cylinder one end is hinged on the front half section beam body lower surface of II type top beam, II type top
The beam support cylinder other end is hinged on gate frame.
4. a kind of roadway head gib equipment according to claim 1, it is characterised in that: in the III
It is uniformly arranged top beam component at three at the top of the gate frame of type bracket, is uniformly arranged at the top of the gate frame of the IV type bracket
Top beam component at two, the type III bracket and IV type bracket include type III top beam and top beam extension sleeve;The top beam is stretched
Contracting sleeve is vertically installed at the top of gate frame, and type III top beam is in X-type structure, and type III top beam is horizontally hinged in top beam telescopic
Cylinder top, and the front half section beam body length of type III top beam is equal to second half section beam body length.
5. a kind of roadway head gib equipment according to claim 1, it is characterised in that: the supporting leg group
Part includes landing leg stretching sleeve and stabilizer blade pedestal, and landing leg stretching sleeve top is fixedly connected with gate frame bottom end, the branch
Leg base is hinged on landing leg stretching sleeve bottom end;The stabilizer blade pedestal uses tray type structure, is equipped with and carries out in stabilizer blade base lower surface
Thorn.
6. a kind of roadway head gib equipment according to claim 1, it is characterised in that: the passage group
Part includes the first push rod, the second push rod, passage oil cylinder, passage oil cylinder piston rod guide groove and passage oil cylinder piston rod directive wheel;
First push rod is identical and arranged in a crossed manner as the second pusher structure, and the first push rod is hinged with the second push rod in intersection;
The cylinder barrel end of the passage oil cylinder is hinged on gate frame, and the passage oil cylinder piston rod directive wheel is hinged on by wheel shaft
The piston rod end of passage oil cylinder, the passage oil cylinder piston rod guide groove are packed in the gate frame immediately below passage oil cylinder vertically
On frame, passage oil cylinder piston rod directive wheel is located in passage oil cylinder piston rod guide groove;On first push rod and the second push rod
End is respectively hinged on the gate frame of adjacent stent, and the first push rod and the second push rod lower end are respectively hinged at pushing away for adjacent stent
It moves on cylinder piston rod directive wheel wheel shaft.
7. a kind of roadway head gib equipment according to claim 1, it is characterised in that: the collateral support
Component includes the first side support bar, the second side support bar, side support cylinder, collateral support cylinder piston rod guide groove, collateral support oil
Cylinder piston rod directive wheel, pull rod, side braced frame and metal mesh;First side support bar is identical as second side supporting bar structure
And it is arranged in a crossed manner, the first side support bar is hinged with the second side support bar in intersection;The side support cylinder is vertically arranged
And piston rod is downward, the cylinder barrel of side support cylinder is fixedly connected on gate frame;The collateral support cylinder piston rod guide groove
It is packed on the gate frame right above the support cylinder of side vertically, the collateral support cylinder piston rod directive wheel is located at collateral support oil
In cylinder piston rod guide groove;Described pull rod one end is connected on collateral support cylinder piston rod directive wheel wheel shaft, the pull rod other end with
The piston rod end of side support cylinder is fixedly connected with;First side support bar upper end is hinged on collateral support cylinder piston rod directive wheel
On wheel shaft, the first side support bar lower end is hinged in the braced frame of side;Second side post upper is equipped with side support bar
Directive wheel, is fixed with side support bar guide groove vertically in the braced frame of side, and side support bar directive wheel is located at side support bar guiding
In slot, the second side support bar lower end is hinged on gate frame;The metal mesh fixation is laid in the braced frame of side.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109707430A (en) * | 2019-03-12 | 2019-05-03 | 辽宁工程技术大学 | A kind of roadway head gib equipment and application method |
CN114087003A (en) * | 2021-11-17 | 2022-02-25 | 中国矿业大学 | Temporary support combined moving device and method for self-adaptive tunneling roadway empty-roof distance |
-
2019
- 2019-03-12 CN CN201920313796.4U patent/CN209637795U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109707430A (en) * | 2019-03-12 | 2019-05-03 | 辽宁工程技术大学 | A kind of roadway head gib equipment and application method |
CN109707430B (en) * | 2019-03-12 | 2024-03-19 | 辽宁工程技术大学 | Temporary support equipment for tunnel excavation working face and use method |
CN114087003A (en) * | 2021-11-17 | 2022-02-25 | 中国矿业大学 | Temporary support combined moving device and method for self-adaptive tunneling roadway empty-roof distance |
CN114087003B (en) * | 2021-11-17 | 2024-04-26 | 中国矿业大学 | Temporary support combined moving device and method for self-adaptive tunneling roadway overhead distance |
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