Medium-voltage joint control type air compressor station room
Technical Field
The utility model relates to an air compressor operation technical field indicates a well pressure allies oneself with accuse formula air compressor machine station room especially.
Background
In mining and construction of earthwork of hydropower stations, rock drilling equipment powered by compressed air is used in large quantities for construction work. In the prior art, the rock drilling equipment for supplying air (1.7-2.1 MPa) is used, so that the efficiency is low; medium-pressure (1.7-4.0 MPa) air supply is mostly carried out by diesel-powered compressors of the rock drilling equipment one to one, the severe service environment not only influences the service life of a unit, but also has the defects of high energy consumption, expensive maintenance, large pollution and the like, and the requirements of energy conservation and environmental protection cannot be met.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a main objective lies in providing a well pressure allies oneself with accuse formula air compressor machine station room to solve that traditional diesel power compressor energy consumption is high, the maintenance is noble, pollute big, and the adverse circumstances of job site influences its life's problem.
In order to solve the technical problem, the utility model discloses a realize like this: the utility model provides a accuse formula air compressor machine station room is united to middling pressure, includes: the air compressor station comprises an air compressor station room and a remote gas transmission pipeline, wherein an air compressor unit is arranged in the air compressor station room and is formed by connecting a plurality of air compressors in parallel, each air compressor is connected with the remote gas transmission pipeline through a gas transmission branch pipe, an exhaust ball valve is arranged on each gas transmission branch pipe, and a drainage ball valve and a main valve are arranged on the remote gas transmission pipeline; the air compressor station room is internally provided with a control center, the center of the top in the air compressor station room is provided with a temperature sensor, vertex angles of side walls on two opposite sides in the air compressor station room are respectively provided with an exhaust fan, the side walls on two opposite sides in the air compressor station room are respectively provided with a heat dissipation window capable of being automatically opened and closed, each heat dissipation window comprises a ventilation opening arranged on the side wall of the station room and a first sash and a second sash which are arranged on the inner side of the ventilation opening in a sliding manner, the first sash and the second sash are oppositely arranged, a power device is arranged above the first sash and the second sash, and the first sash and the second sash are controlled to slide relatively through the power device; and the power device, the exhaust fan and the temperature sensor are electrically connected with the control center.
As a further technical scheme, the air compressor unit is connected with a transformer substation through a cable trench, and a 380V power supply is input into the air compressor unit by adopting a 6kV or 10kV transformer substation.
As a further technical scheme, the air compressor set is directly connected with an external power supply of 6kV or 10 kV.
As a further technical scheme, the power device comprises a conveyor belt and two transmission wheels, the two transmission wheels are respectively and rotatably arranged at two sides above the ventilation opening, the conveyor belt is sleeved outside the two transmission wheels, and the two transmission wheels divide the conveyor belt into an upper layer and a lower layer; the first window sash and the second window sash are respectively provided with a connector at one end close to each other, and are respectively and fixedly connected with the lower layer and the upper layer of the conveyor belt through the respective connectors.
As a further technical scheme, the power device further comprises a stepping motor, a motor shaft of the stepping motor is fixedly connected with the center of one of the driving wheels, and the stepping motor is electrically connected with the control center.
As a further technical scheme, an upper slideway is arranged above the ventilation opening, sliding grooves are correspondingly arranged at the tops of the first sash and the second sash respectively, and the first sash and the second sash are slidably connected with the upper slideway through the respective sliding grooves.
As a further technical scheme, a supporting plate is arranged at the bottom of the ventilation opening, a lower slideway is arranged on the supporting plate, and the bottoms of the first sash and the second sash are respectively in sliding connection with the lower slideway.
As a further technical scheme, sealing strips are arranged on the side walls of the first sash and the second sash close to one another.
As a further technical scheme, a window screen is arranged in the ventilation opening.
The beneficial effects of the utility model are that:
1. the utility model discloses the diesel oil air compressor machine replacement of traditional one-to-one air feed is for alliing oneself with the air compressor machine station room of accuse formula, for the rock drilling equipment of job site air feed that unifies to improve work efficiency, reduction in production cost reduces environmental pollution, extension equipment life. In addition, the air compressor unit driven by electric power in the utility model can not discharge waste gas, and simultaneously, as the air is remotely delivered, no noise is generated on the construction site, and the environmental pollution is reduced; the air compressor unit is fixedly arranged in the air compressor station room, so that the air compressor is free from any influence of severe weather, meanwhile, damage and faults caused by frequent movement are avoided, and the service life of the air compressor unit is prolonged; the maintenance and use cost is reduced by using the electric drive; in addition, the gas quantity can be adjusted according to the actual working condition on site, so that waste caused by excessive gas production is avoided, cost is reduced, and efficiency is improved; and all the equipment are controlled in a centralized manner in one air compressor station room, so that the labor cost can be reduced, and the method can be widely applied to the earth and stone construction of large-scale mines and hydropower stations.
2. Secondly, in order to avoid the problem that the service life of the air compressor unit is affected by excessive heat generated by the air compressor unit in the air compressor station house, especially in summer, the utility model also arranges a control center and a temperature sensor in the air compressor station house, once the temperature sensor senses that the temperature in the air compressor station house is higher, a signal can be transmitted to the control center, and the control center controls the two exhaust fans to be opened for heat dissipation; and once the temperature is too high, the control center controls the two heat dissipation fans to be opened for heat dissipation, so that the service life of the air compressor unit is further prolonged.
Drawings
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a schematic connection diagram of an air compressor assembly according to the present invention;
fig. 2 is a schematic view of the outside of the hollow press station house of the present invention;
fig. 3 is a schematic view of the closed state of the heat dissipation window inside the hollow press station room of the present invention;
fig. 4 is a schematic view of the open state of the heat dissipation window inside the hollow press station room of the present invention;
fig. 5 is a side detail view of the heat dissipation window inside the hollow press station room of the present invention.
Description of the reference numerals
1. A transformer substation; 2. a drain ball valve; 3. an air compressor; 4. a cable trench; 5. an exhaust ball valve; 6. a remote gas pipeline; 7. a main valve; 8. a gas delivery branch pipe; 9. an air compressor station house; 10. an exhaust fan; 11. a heat dissipation window; 12. a vent; 13. a first sash; 14. a second sash; 15. a driving wheel; 16. a conveyor belt; 17. an upper layer; 18. a lower layer; 19. a connector; 20. a stepping motor; 21. a chute; 22. a support plate; 23. an upper slideway; 24. a downslide.
Detailed Description
The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the drawings in the embodiment of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, other ways of implementing the invention may be devised different from those described herein, and it will be apparent to those skilled in the art that the invention can be practiced without departing from the spirit and scope of the invention.
As shown in fig. 1-5, the utility model provides a medium-voltage joint control formula air compressor station room 9, include: the air compressor comprises an air compressor station room 9 and a remote gas transmission pipeline 6, wherein an air compressor unit is arranged in the air compressor station room 9 and is formed by connecting a plurality of air compressors 3 in parallel, each air compressor 3 is connected with the remote gas transmission pipeline 6 through a gas transmission branch pipe 8, an exhaust ball valve 5 is arranged on each gas transmission branch pipe 8, and a drainage ball valve 2 and a main valve 7 are arranged on the remote gas transmission pipeline 6; a control center is arranged in the air compressor station room 9, a temperature sensor is arranged at the center of the inner top of the air compressor station room 9, exhaust fans 10 are arranged on top corners of side walls on two opposite sides in the air compressor station room 9, heat dissipation windows 11 capable of being automatically opened and closed are arranged on the side walls on the two opposite sides in the air compressor station room 9, each heat dissipation window 11 comprises a ventilation opening 12 arranged on the side wall of the station room, and a first window sash 13 and a second window sash 14 which are arranged on the inner side of the ventilation opening 12 in a sliding mode, the first window sash 13 and the second window sash 14 are arranged opposite to each other, a power device is arranged above the first window sash 13 and the second window sash 14, and the first window sash 13 and the second window sash 14 are controlled to slide relative to each other through the power device; the power device, the exhaust fan 10 and the temperature sensor are all electrically connected with the control center.
The air compressor unit is connected with the transformer substation 1 through the cable trench 4, and a 380V power supply is input into the air compressor unit by the transformer substation 1 of 6kV or 10 kV.
The air compressor set is directly connected with an external power supply of 6kV or 10 kV.
The power device comprises a conveyor belt 16 and two transmission wheels 15, the two transmission wheels 15 are respectively and rotatably arranged at two sides above the ventilation opening 12, the conveyor belt 16 is sleeved outside the two transmission wheels 15, and the two transmission wheels 15 divide the conveyor belt 16 into an upper layer 17 and a lower layer 18; the ends, close to each other, of the first sash 13 and the second sash 14 are both provided with a connector 19, and the first sash 13 and the second sash 14 are respectively and fixedly connected with the lower layer 18 and the upper layer 17 of the conveyor belt 16 through the respective connectors 19.
The power device also comprises a stepping motor 20, a motor shaft of the stepping motor 20 is fixedly connected with the center of one of the driving wheels 15, and the stepping motor 20 is electrically connected with the control center.
An upper slideway 23 is arranged above the ventilation opening 12, sliding grooves 21 are correspondingly arranged at the tops of the first sash 13 and the second sash 14 respectively, and the first sash 13 and the second sash 14 are respectively connected with the upper slideway 23 in a sliding manner through the respective sliding grooves 21.
A support plate 22 is arranged at the bottom of the ventilation opening 12, a lower slide way 24 is arranged on the support plate 22, and the bottoms of the first sash 13 and the second sash 14 are respectively connected with the lower slide way 24 in a sliding manner.
The side walls of the first sash 13 and the second sash 14 close to each other are provided with sealing strips.
A window screen is arranged in the ventilation opening 12.
In the use process of the air compressor system, a plurality of air compressors 3 are connected in parallel to form an integral air compressor unit, the air compressor unit is arranged in an air compressor station room 9, a cable trench 4 is arranged between the air compressor room and a transformer substation 1, the air compressor unit is connected with the transformer substation 1 through the cable trench 4, and power is supplied to the air compressor unit through the transformer substation 1 in sequence; the air compressor set can be supplied with 380V power supply by adopting a 6kV or 10kV transformer substation 1 for working; in addition, the air compressor unit can be directly connected with an external power supply of 6kV or 10kV, and the external power supply is used for supplying power to the air compressor unit.
In addition, the air supply system is also provided with air delivery branch pipes 8 and remote air delivery pipelines 6, each air compressor 3 is connected with the remote air delivery pipelines 6 through the air delivery branch pipes 8, the remote air delivery pipelines 6 are used for supplying air to excavation equipment on a construction site in a unified mode, each air delivery branch pipe 8 is provided with an exhaust ball valve 5, and each remote air delivery pipeline 6 is provided with a drainage ball valve 2 and a main valve 7. Compared with the traditional diesel air compressor, the air compressor unit driven by electric power can not discharge waste gas, and meanwhile, as long-distance air supply is adopted, no noise is generated on the construction site, and the environmental pollution is reduced; the air compressor unit is fixedly arranged in the air compressor station room 9, so that the air compressor 3 is free from any influence of severe weather, meanwhile, damage and faults caused by frequent movement are avoided, and the service life of the air compressor unit is prolonged; the maintenance and use cost is reduced by using the electric drive; in addition, the gas quantity can be adjusted according to the actual working condition on site, so that waste caused by excessive gas production is avoided, cost is reduced, and efficiency is improved; all the devices are controlled in the air compressor station room 9 in a centralized mode, labor cost can be reduced, and the air compressor station room can be widely applied to earth and stone construction of large mines and hydropower stations.
Secondly for avoiding the air compressor unit to stand at the air compressor machine in the inside heat production of room 9 too much, especially summer, can appear the problem that the heat dissipation influences air compressor unit life slowly, the utility model discloses still stand at the air compressor machine in the inside control center and the temperature sensor that set up of room 9, in case temperature sensor senses the air compressor machine and stands in the room 9 is higher, can give control center with the signal transmission, two air exhauster 10 of control center control are opened, dispel the heat, and two air exhauster 10 set up respectively at the apex angle position of two relative lateral walls in air compressor machine station room 9, can promote the inside air flow of air compressor machine for the heat dissipation. Once the temperature sensor senses a drop in temperature, a signal can be sent to the control center which controls the suction fan 10 to turn off. Generally, in winter or in weather with low temperature, the two exhaust fans 10 can perform heat dissipation, but in summer or in weather with high temperature, when the two exhaust fans 10 cannot perform heat dissipation quickly in time, at this time, once the temperature sensor senses that the temperature in the air compressor station room 9 is too high, a signal can be transmitted to the control center, the control center controls the heat dissipation window 11 to be opened, specifically, the control center controls the step motor 20 to work, the step motor 20 drives the transmission wheel 15 to rotate, the transmission wheel 15 controls the transmission belt 16 to rotate, and at this time, the upper layer 17 and the lower layer 18 of the transmission belt 16 respectively drive the second window sash 14 and the first window sash 13 to move in directions away from each other, as shown in fig. 4, so that the ventilation opening 12 is opened; two of the heat dissipation windows 11 are also arranged on two opposite side walls in the air compressor station room 9, so that air convection is accelerated to dissipate heat; when the temperature inside the air compressor station room 9 is proper, the control center controls the motor shaft of the stepping motor 20 to rotate reversely, so that the upper layer 17 and the lower layer 18 of the conveyor belt 16 respectively drive the second window to move towards the direction that the fan 14 and the first window sash 13 are close to each other, and the heat dissipation window 11 is closed to keep the inside of the air compressor station room 9 clean.
The control process of the center control center of the present invention can be implemented by using the programming technique in the prior art, which is not described in detail herein.
The above description is only of the preferred embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.