CN206092003U - Production real standard in colliery is with simulation underworkings structure - Google Patents
Production real standard in colliery is with simulation underworkings structure Download PDFInfo
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- CN206092003U CN206092003U CN201621166468.9U CN201621166468U CN206092003U CN 206092003 U CN206092003 U CN 206092003U CN 201621166468 U CN201621166468 U CN 201621166468U CN 206092003 U CN206092003 U CN 206092003U
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- lane
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- return air
- air way
- auxiliary shaft
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Abstract
The utility model discloses a production real standard in colliery is with simulation underworkings structure, including the big lane of horizontal return air, vertical air way, generally dig the working face, combine dig working face, personnel's passageway, auxiliary shaft passageway, combine adopt the working face, working face, refuge chamber and quick -witted lane main entrance are adopted to the big gun, vertical air way perpendicular to the horizontal big lane of return air, general dig the working face combine dig the working face personnel's passageway with the auxiliary shaft passageway is located vertical air way one side just is on a parallel with the horizontal big lane of return air, combine adopt the working face the big gun adopt the working face with refuge chamber is located vertical air way opposite side, combine adopt the working face with the big gun is adopted the working face and is on a parallel with the horizontal big lane of return air, refuge chamber is on a parallel with vertical air way, machine lane main entrance is on a parallel with the horizontal big lane of return air. The utility model discloses can truly embody colliery production environment and system, the student need not to carry on borehole operation can accomplish the real standard of borehole operation.
Description
Technical field
This utility model is related to a kind of coal production training system technical field, particularly a kind of coal production real training mould
Intend underworkings structure.
Background technology
It, to allow student to obtain perceptual knowledge and instructional mode of the technical ability as main purpose, is skilled talents that student teaching is
The important step of culture, is to complete teaching task comprehensively, realizes professional colleges training objective, forms the main way of Characteristics of Running
Footpath;It is that culture adapts to enterprise demand, makes student that there are the Main Means of the skilled talents of Comprehensive Vocation Ability.Pay much attention to real
Training teaching, improves teaching quality conscientiously, is the high-quality skilled talents of coal mine production system culture, builds coal production system
System training base is very necessary;Coal mine production system training base of the prior art, mainly relies on the colliery exploited on the spot
Base, or the coal mine production system by partial simulation, enable student's sense of reality combining closely to theory and practice, reach
Preferable teaching efficiency;Rely on the coal mine bases exploited on the spot to give training, can not only affect student routine life and
Study, and there is certain security risk;And the coal mine production system by partial simulation, then it is difficult to fully, comprehensively
Represent the production operation process and all kinds of production status involved by coal mine production system.
The content of the invention
In order to overcome the deficiencies in the prior art, this utility model to provide a kind of coal production real training simulation underworkings
Structure, can real embodiment coal production environment and system, student carries out underground work without the need for the coal mine bases that exploit on the spot,
Can fully, be fully completed underground work real training.
This utility model solves the technical scheme adopted by its technical problem:
A kind of coal production real training simulation underworkings structure, including the big lane of horizontal return air, longitudinal air way, general pick work
Face, fully mechanized workface, personnel channel, auxiliary shaft passage, fully-mechanized mining working, blast mining face, refuge chamber and machine lane main channel;Institute
Longitudinal air way is stated perpendicular to the big lane of the horizontal return air, the general pick work surface, the fully mechanized workface, the personnel channel and
The auxiliary shaft passage is located at longitudinal air way side and parallel to the big lane of the horizontal return air;It is the fully-mechanized mining working, described
Blast mining face and the refuge chamber are located at longitudinal air way opposite side, the fully-mechanized mining working and the blast mining face
Parallel to the big lane of the horizontal return air, the refuge chamber is parallel to longitudinal air way;Machine lane main channel is parallel to institute
State the big lane of horizontal return air, one end of machine lane main channel is located at longitudinal air way side, machine lane main channel it is another
Opposite side of the end positioned at longitudinal air way.
Used as the further improvement of above-mentioned technical proposal, the general pick work surface and the fully mechanized workface are located at the horizontal stroke
To the side in the big lane of return air, the personnel channel and the auxiliary shaft passage are located at the opposite side in the big lane of the horizontal return air, and institute
State fully mechanized workface to be located between the big lane of the horizontal return air and the general pick work surface, the personnel channel is located at described horizontal
Between the big lane of return air and the auxiliary shaft passage;The one end in the big lane of the horizontal return air connects longitudinal air way, described horizontal time
The other end connection ventilation well head in Feng great lanes;One end of the general pick work surface connects longitudinal air way, the general pick work
The other end in face connects the fully mechanized workface by the first connection roadway;One end of the fully mechanized workface connects the Longitudinal Wind
Lane, the other end of the fully mechanized workface connect the big lane of the horizontal return air by the second connection roadway;The one of the personnel channel
End connection longitudinal air way, the other end of the personnel channel connect the first hoistway stair;One end of the auxiliary shaft passage connects
Lead to longitudinal air way, the other end connection auxiliary well head room of the auxiliary shaft passage.
Used as the further improvement of above-mentioned technical proposal, the big lane of the horizontal return air is used to connect the one of the ventilation well head
End also connects the second hoistway stair;The fully mechanized workface is additionally provided with Tool Room, and the Tool Room connects the 3rd hoistway stair;
The personnel channel is additionally provided with absorbing well, absorption well, pump house and electric substation;Arrange between the auxiliary shaft passage and the auxiliary well head room
There is shaft bottom ingate;The auxiliary shaft passage connects the personnel channel by the 3rd connection roadway, and the auxiliary shaft passage passes through the 4th
Connection roadway connects machine lane main channel.
Used as the further improvement of above-mentioned technical proposal, the blast mining face is located at the fully-mechanized mining working and the machine
Between the main channel of lane;Described blast mining face one end connects longitudinal air way, and the blast mining face other end passes through first
Branch road machine lane connects machine lane main channel;Described fully-mechanized mining working one end connects longitudinal air way, the fully-mechanized mining working
The other end connects machine lane main channel by the second branch road machine lane;The refuge chamber is located at longitudinal air way and described the
Between one branch road machine lane, and one end connection machine lane main channel of the refuge chamber, the other end company of the refuge chamber
Lead to longitudinal air way.
As the further improvement of above-mentioned technical proposal, air compressor machine chamber in the refuge chamber, is additionally provided with, described
It is provided with hydraulic power unit chamber and movable gas pumping station between one branch road machine lane and the second branch road machine lane, described first
Some drill sites are provided with branch road machine lane and the second branch road machine lane.
Compared with prior art, the beneficial effects of the utility model are:
A kind of coal production real training provided by the utility model simulation underworkings structure, being capable of real embodiment colliery
Production environment and system, by the coal mine production system simulated, enable student's sense of reality combining closely to theory and practice,
Reach preferable teaching efficiency;On the one hand student's practice security risk is reduced, student can practise in campus on the spot;The opposing party
Face solves problems in teaching of integrating theory with practice, and has deepened the degree of understanding of student.
Description of the drawings
With reference to the accompanying drawings and examples this utility model is further illustrated.
Fig. 1 is the structural representation that a kind of coal production real training described in the utility model simulates underworkings structure.
Specific embodiment
With reference to Fig. 1, Fig. 1 is the structural representation of one specific embodiment of this utility model.
As shown in figure 1, a kind of coal production real training simulation underworkings structure, including the big lane 10 of horizontal return air, longitudinal direction
Air way 20, general pick work surface 30, fully mechanized workface 40, personnel channel 50, auxiliary shaft passage 60, fully-mechanized mining working 70, big gun adopt work
Face 80, refuge chamber 90 and machine lane main channel 101;Longitudinal air way 20 is perpendicular to the big lane 10 of the horizontal return air, described general
Pick work surface 30, the fully mechanized workface 40, the personnel channel 50 and the auxiliary shaft passage 60 are located at longitudinal air way 20
Side and parallel to the big lane of the horizontal return air 10;The fully-mechanized mining working 70, the blast mining face 80 and the cave of taking refuge
Room 90 is located at 20 opposite side of longitudinal air way, and the fully-mechanized mining working 70 and the blast mining face 80 are parallel to described horizontal
The big lane 10 of return air, the refuge chamber 90 is parallel to longitudinal air way 20;Machine lane main channel 101 is parallel to described horizontal
The big lane 10 of return air, one end of machine lane main channel 101 are located at 20 side of longitudinal air way, machine lane main channel 101
The other end is located at the opposite side of longitudinal air way 20.
Specifically, the general pick work surface 30 and the fully mechanized workface 40 are located at the one of the big lane of the horizontal return air 10
Side, the personnel channel 50 and the auxiliary shaft passage 60 are located at the opposite side in the big lane of the horizontal return air 10, and the comprehensive pick work
Make face 40 to be located between the big lane 10 of the horizontal return air and the general pick work surface 30, the personnel channel 50 is located at described horizontal
Between the big lane 10 of return air and the auxiliary shaft passage 60;The one end in the big lane of the horizontal return air 10 connects longitudinal air way 20, institute
State the other end connection ventilation well head 11 in the big lane of horizontal return air 10;One end of the general pick work surface 30 connects longitudinal air way
20, the other end of the general pick work surface 30 connects the fully mechanized workface 40 by the first connection roadway 31;The comprehensive pick work
The one end in face 40 connects longitudinal air way 20, and the other end of the fully mechanized workface 40 connects described by the second connection roadway 41
The horizontal big lane of return air 10;One end of the personnel channel 50 connects longitudinal air way 20, the other end of the personnel channel 50
Connect the first hoistway stair 51;One end of the auxiliary shaft passage 60 connects longitudinal air way 20, the auxiliary shaft passage 60 it is another
One end connection auxiliary well head room 61.The big lane 10 of the horizontal return air is used to connect one end of the ventilation well head 11 and also connects second
Hoistway stair 12;The fully mechanized workface 40 is additionally provided with Tool Room 42, and the Tool Room 43 connects the 3rd hoistway stair 43;Institute
State personnel channel 50 and be additionally provided with absorbing well, absorption well 52, pump house 53 and electric substation 54;The auxiliary shaft passage 60 and the auxiliary well head room
Between be provided with shaft bottom ingate 62;The auxiliary shaft passage 60 connects the personnel channel 50 by the 3rd connection roadway 63, described
Auxiliary shaft passage 60 connects machine lane main channel 101 by the 4th connection roadway 64.
Further, the blast mining face 80 is located between the fully-mechanized mining working 70 and machine lane main channel 101;
80 one end of the blast mining face connects longitudinal air way 20, and 80 other end of the blast mining face passes through tie point machine lane
81 connection machine lane main channels 101;70 one end of the fully-mechanized mining working connects longitudinal air way 20, the fully-mechanized mining working
70 other ends connect machine lane main channel 101 by the second branch road machine lane 71;The refuge chamber 90 is located at the Longitudinal Wind
Between lane 20 and the tie point machine lane 81, and one end connection machine lane main channel 101 of the refuge chamber 90, it is described
The other end of refuge chamber 90 connects longitudinal air way 20.Air compressor machine chamber 91, institute are additionally provided with the refuge chamber 90
State hydraulic power unit chamber 72 and movable gas pump are provided between tie point machine lane 81 and the second branch road machine lane 71
Stand 73, on the tie point machine lane 81 and the second branch road machine lane 71, be provided with some drill sites 82.
Above-mentioned coal production real training simulation underworkings structure, on the one hand reduces student's practice security risk, student
Can be practised in campus on the spot;On the other hand problems in teaching of integrating theory with practice is solved, has deepened the understanding journey of student
Degree.
Above to it is of the present utility model it is preferable enforcement illustrated, certainly, this utility model can also using with
The different form of above-mentioned embodiment, those of ordinary skill in the art are made on the premise of without prejudice to this utility model spirit
Equivalent conversion or it is corresponding change, should all belong in protection domain of the present utility model.
Claims (5)
1. a kind of coal production real training is used and simulates underworkings structure, it is characterised in that:Including the big lane of horizontal return air, Longitudinal Wind
Lane, general pick work surface, fully mechanized workface, personnel channel, auxiliary shaft passage, fully-mechanized mining working, blast mining face, refuge chamber and machine
Lane main channel;Longitudinal air way perpendicular to the big lane of the horizontal return air, the general pick work surface, the fully mechanized workface, institute
State personnel channel and the auxiliary shaft passage and be located at longitudinal air way side and parallel to the big lane of the horizontal return air;The fully mechanized mining
Work surface, the blast mining face and the refuge chamber are located at longitudinal air way opposite side, the fully-mechanized mining working and institute
Blast mining face is stated parallel to the big lane of the horizontal return air, the refuge chamber is parallel to longitudinal air way;The machine lane master
Passage is located at longitudinal air way side, the machine lane parallel to the big lane of the horizontal return air, one end of machine lane main channel
The other end of main channel is located at the opposite side of longitudinal air way.
2. a kind of coal production real training according to claim 1 is used and simulates underworkings structure, it is characterised in that:It is described general
Pick work surface and the fully mechanized workface are located at the side in the big lane of the horizontal return air, the personnel channel and the auxiliary shaft passage
Positioned at the opposite side in the big lane of the horizontal return air, and the fully mechanized workface is located at the horizontal big lane of return air and the general pick work
Make between face, the personnel channel is located between the horizontal big lane of return air and the auxiliary shaft passage;The big lane of the horizontal return air
One end connect longitudinal air way, the other end connection ventilation well head in the big lane of the horizontal return air;The general pick work surface
One end connects longitudinal air way, and the other end of the general pick work surface connects the fully mechanized workface by the first connection roadway;
One end of the fully mechanized workface connects longitudinal air way, and the other end of the fully mechanized workface is connected by the second connection roadway
The big lane of the horizontal return air;One end of the personnel channel connects longitudinal air way, the other end connection of the personnel channel
First hoistway stair;One end of the auxiliary shaft passage connects longitudinal air way, the other end connection auxiliary shaft of the auxiliary shaft passage
Heapstead.
3. a kind of coal production real training according to claim 2 is used and simulates underworkings structure, it is characterised in that:The horizontal stroke
The one end for being used to connect the ventilation well head to the big lane of return air also connects the second hoistway stair;The fully mechanized workface is additionally provided with
Tool Room, the Tool Room connect the 3rd hoistway stair;The personnel channel is additionally provided with absorbing well, absorption well, pump house and electric substation;Institute
State shaft bottom ingate is provided between auxiliary shaft passage and the auxiliary well head room;The auxiliary shaft passage is connected by the 3rd connection roadway
The personnel channel, the auxiliary shaft passage connect machine lane main channel by the 4th connection roadway.
4. a kind of coal production real training according to claim 1 is used and simulates underworkings structure, it is characterised in that:The big gun
Mining face is located between the fully-mechanized mining working and machine lane main channel;Described blast mining face one end connects the longitudinal direction
Air way, the blast mining face other end connect machine lane main channel by tie point machine lane;The fully-mechanized mining working one
End connection longitudinal air way, the fully-mechanized mining working other end connect machine lane main channel by the second branch road machine lane;Institute
State refuge chamber to be located between longitudinal air way and the tie point machine lane, and one end connection of the refuge chamber is described
Machine lane main channel, the other end of the refuge chamber connect longitudinal air way.
5. a kind of coal production real training according to claim 4 is used and simulates underworkings structure, it is characterised in that:It is described to keep away
Air compressor machine chamber is additionally provided with difficult chamber, between the tie point machine lane and the second branch road machine lane, hydraulic pump is provided with
Stand chamber and movable gas pumping station, on the tie point machine lane and the second branch road machine lane, be provided with some drill sites.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621166468.9U CN206092003U (en) | 2016-10-26 | 2016-10-26 | Production real standard in colliery is with simulation underworkings structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621166468.9U CN206092003U (en) | 2016-10-26 | 2016-10-26 | Production real standard in colliery is with simulation underworkings structure |
Publications (1)
Publication Number | Publication Date |
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CN206092003U true CN206092003U (en) | 2017-04-12 |
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ID=58486001
Family Applications (1)
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CN201621166468.9U Expired - Fee Related CN206092003U (en) | 2016-10-26 | 2016-10-26 | Production real standard in colliery is with simulation underworkings structure |
Country Status (1)
Country | Link |
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CN (1) | CN206092003U (en) |
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2016
- 2016-10-26 CN CN201621166468.9U patent/CN206092003U/en not_active Expired - Fee Related
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GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170412 Termination date: 20191026 |