CN112609922A

CN112609922A - Underground substation ventilating shaft

Info

Publication number: CN112609922A
Application number: CN202011536789.4A
Authority: CN
Inventors: 弓国军; 符国晖; 韦波; 蒋晓东; 周亚敏; 李福权; 罗展标; 苏伟平
Original assignee: Shenzhen Power Supply Bureau Co Ltd
Current assignee: Shenzhen Power Supply Bureau Co Ltd
Priority date: 2020-12-23
Filing date: 2020-12-23
Publication date: 2021-04-06

Abstract

The invention discloses an underground substation ventilating shaft which comprises an air inlet shaft and an air outlet shaft, wherein the air inlet shaft and the air outlet shaft are symmetrically arranged and used for air inlet and air outlet, and both the air inlet shaft and the air outlet shaft comprise: the structure wall is used for separating the ventilation shaft from other rooms of the transformer substation and partially protrudes above the ground; rain-proof shutters respectively embedded in the structural wall body above the ground; the electric glass window is arranged on the inner side of the rainproof shutter and is electrically connected with the electric device, and the opening and the closing of the electric glass window are controlled by the electric device; the air inlet and outlet are arranged on the underground part of the structural wall body and are used for air flow circulation between the ventilating shaft and other rooms of the transformer substation; and the fan is used for providing power for air flow circulation. The invention avoids the problem of unsmooth ventilation against the wind caused by wind direction change, and simultaneously can improve the problem of poor lighting effect of the ventilation shaft under the condition of ensuring ventilation.

Description

Underground substation ventilating shaft

Technical Field

The invention relates to the technical field of substation equipment, in particular to an underground substation ventilation shaft.

Background

The functional room of the underground transformer substation is located below the ground, a large number of large-scale electrical devices are arranged in the room, indoor residual heat, residual humidity and toxic and harmful gases need to be removed in a mechanical ventilation mode, and safe operation of the transformer substation is guaranteed. The fan room is usually arranged in an underground substation, indoor air is discharged outdoors under the action of a fan arranged in the fan room, the air with residual heat and moisture is sent into the ground environment through a ventilation shaft, and meanwhile, ground fresh air enters the substation room through other ventilation shafts to keep the indoor micro-positive pressure or micro-negative pressure state.

Usually, the size of a rain-proof ventilation shaft of an underground substation is large, an air inlet and an air outlet are exposed above the ground, and the circulation air speed is low. The rain-proof ventilation shaft that present underground substation adopted is mostly fixed shutter formula ventilation shaft, and the rain-proof shutter of business turn over wind promptly fixes certain one side at the ventilation shaft, and the air gets into indoorly or discharges outdoors from the shutter of this side, when outdoor environment because the wind direction that seasonal variation arouses changes, can lead to ventilating not smooth, the fan energy consumption increases, and then influences the safe operation of transformer substation, as shown in fig. 1. In addition, considering the influence of environmental wind direction and rain leakage prevention, the louver of the ventilation shaft is usually arranged on one side or two adjacent sides, and the lighting effect of the ventilation shaft is poor.

Disclosure of Invention

The invention aims to solve the technical problem of providing an underground substation ventilating shaft to improve the rainproof and ventilating effects.

In order to solve the technical problem, the invention provides an underground substation ventilating shaft, which comprises an air inlet shaft and an air outlet shaft, wherein the air inlet shaft and the air outlet shaft are symmetrically arranged and used for air inlet and air outlet, and both the air inlet shaft and the air outlet shaft comprise:

the structure wall is used for separating the ventilation shaft from other rooms of the transformer substation and partially protrudes above the ground;

rain-proof shutters respectively embedded in the structural wall body above the ground;

the electric glass window is arranged on the inner side of the rainproof shutter and is electrically connected with the electric device, and the opening and the closing of the electric glass window are controlled by the electric device;

the air inlet and outlet are arranged on the underground part of the structural wall body and are used for air flow circulation between the ventilating shaft and other rooms of the transformer substation;

and the fan is used for providing power for air flow circulation.

Furthermore, when the outdoor environment wind direction is a certain wind direction, the electric device controls the air exhaust well to close the electric glass window in the direction and open the electric glass windows in other directions, and the air intake well opens the electric glass windows in the direction and closes the electric glass windows in other directions.

Further, when the electric glass window in the direction is closed by the exhaust shaft and the electric glass windows in other directions are opened, air in other rooms of the underground substation is exhausted into the exhaust shaft through the air inlet and outlet communicated with the exhaust shaft under the action of the fan, and is exhausted upwards along the exhaust shaft through the opened electric glass window and the opened rainproof shutter.

Furthermore, when the electric glass window in the direction is opened by the air inlet shaft and the electric glass windows in other directions are closed, a negative pressure area is formed in other rooms of the underground substation and the air inlet shaft communicated with the rooms, outdoor ambient air enters the air inlet shaft along the airflow direction through the opened electric glass window and the rainproof shutter and enters the rooms through the air inlet and outlet, and the micro-positive pressure or micro-negative pressure state of the rooms is maintained.

Further, the structural wall body protruding above the ground is any one of a tetrahedron, a cylinder and a hexahedron.

Further, the fan is connected with the air inlet and outlet.

Further, the fan is arranged in other rooms of the transformer substation.

The embodiment of the invention has the beneficial effects that: the ventilation direction is controlled by electrically opening or closing the glass window, so that the ventilation direction is always in a downwind area of the environmental wind direction, the problem of unsmooth upwind ventilation caused by wind direction change is avoided, and meanwhile, the downwind ventilation can utilize the thrust of outdoor airflow, the wind pressure of the fan is reduced, and the energy consumption of the fan is reduced; the ventilation shaft collects light collection and ventilates in an organic whole, and the embedded electronic glass window of the rain-proof shutter of ventilation shaft, under the circumstances of guaranteeing to ventilate, built-in electronic glass window has the printing opacity function concurrently, can improve the poor problem of ventilation shaft daylighting effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a conventional underground substation ventilation shaft.

Fig. 2 is a schematic structural diagram of an underground substation ventilation shaft according to an embodiment of the present invention.

Fig. 3 is a schematic view of a working state of a ventilation shaft of an underground substation according to an embodiment of the present invention.

Fig. 4 is a schematic view of another working state of the ventilation shaft of the underground substation according to the embodiment of the invention.

Detailed Description

The following description of the embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the invention may be practiced.

Referring to fig. 2, an embodiment of the present invention provides an underground substation ventilation shaft, including an air inlet shaft for air inlet and an air outlet shaft for air outlet, which are symmetrically arranged, where the air inlet shaft and the air outlet shaft both include:

the structure wall body 1 is used for separating the ventilation shaft from other rooms of the transformer substation, and the structure wall body 1 partially protrudes above the ground;

rain-proof shutters 2 respectively embedded in the structural wall body above the ground;

the electric glass window is arranged on the inner side of the rainproof shutter 2, is electrically connected with the electric device 4, and is controlled to be opened and closed through the electric device 4;

the air inlet and outlet 6 is arranged at the underground part of the structural wall 1 and is used for the air flow circulation of the ventilation shaft and other rooms of the transformer substation;

and the fan 5 is connected with the air inlet and outlet 6 and used for providing power for air flow circulation.

The ventilation shaft and other rooms of the transformer substation are separated by the structural wall 1 to form an independent space, the structural wall of the ventilation shaft protrudes out of the ground, and air flow in the ventilation shaft can circulate without resistance. In this embodiment, the structural wall protruding above the ground is any one of a tetrahedron, a cylinder, and a hexahedron, and the tetrahedron is taken as an example for description below. Rain-proof shutter 2 is embedded in the four sides structure wall body of protrusion ground part, constitutes the window that carries out the material exchange with outdoor environment, and rain-proof shutter 2 still has the daylighting function. Electric glass window 3 sets up in 2 inboards of rain-proof shutter, and electric glass window 3 passes through circuit connection in electric actuator 4, realizes opening and closing of electric glass window 3 through control electric actuator 4.

The working process and the working principle of the underground substation ventilation shaft of the embodiment of the invention are as follows: as shown in fig. 3, the ventilating shaft is divided into an air inlet shaft and an air outlet shaft, when the outdoor wind direction is mostly positive west wind, the air outlet shaft closes the electric glass windows 3 in the wall body with the west structure through the electric device 4, the electric glass windows 3 of other three wall bodies can be in an opening state, and at the moment, except that the rain-proof louver 2 on the west does not have the ventilating function, the rain-proof louver 2 in other directions has the ventilating function. The air with residual heat and residual humidity in the room of the underground substation is discharged into an exhaust shaft through an air inlet and outlet 6 communicated with the exhaust shaft under the action of a fan 5, the airflow is discharged upwards along the exhaust shaft through an opened electric glass window 3 and a rainproof shutter 2, and the discharged airflow is in an outdoor environment downwind area and is smoothly discharged without outdoor environment wind pressure resistance; meanwhile, the electric glass window 3 in the wall body of the western-style structure is opened by the air inlet shaft through the electric device 4, other electric glass windows 3 are closed, a negative pressure area is formed in the room and the air inlet shaft communicated with the room due to the action of the fan 5 in the transformer substation room, outdoor environment air enters the air inlet shaft through the opened electric glass window 3 and the rainproof shutter 2 along the air flow direction and enters the room through the air inlet shaft and the air outlet 6 of the indoor room, and the micro-positive pressure or micro-negative pressure state of the room is maintained.

As shown in fig. 4, when the outdoor environment airflow direction changes to the normal east wind due to the season change, the electric device 4 of the electric ventilation shaft closes the electric glass window 3 in the east structural wall, and the electric glass windows 3 of the other three walls can be opened. The air with residual heat and residual humidity in the room of the underground substation is exhausted into an exhaust shaft through an air inlet and outlet 6 communicated with the exhaust shaft under the action of a fan 5, the airflow is upwards along the exhaust shaft and is exhausted through an opened electric glass window 3 and a rainproof shutter 2, and at the moment, the air is exhausted smoothly without outdoor environment wind pressure resistance; meanwhile, the electric glass window 3 in the east structure wall body is opened by the air inlet shaft through the electric device 4, other electric glass windows 3 are closed, outdoor environment air enters the air inlet shaft along the airflow direction through the opened electric glass window 3 and the rainproof shutter 2 and enters the room through the air inlet shaft at the air inlet and air outlet of the indoor room, and the micro-positive pressure or micro-negative pressure state of the room is maintained.

Similarly, when outdoor environment wind direction is a certain wind direction, through electric device 4 control, the electric glass window 3 of this direction is closed to the air exhaust well, opens other direction glass windows 3, and the electric glass window 3 of this direction is then opened to the air inlet well, closes other direction glass windows 3, and like this, no matter be air exhaust or air inlet, the air current is in the following wind district of environment wind direction forever, and the resistance influence of no outdoor wind pressure can suitably reduce the fan wind pressure, reduces the energy consumption. It can be understood that if the structural wall protruding above the ground is a cylinder, the power-driven glass window 3 can be arranged at two ends of the diameter of the cross section of the cylinder according to the wind direction of the outdoor environment, so as to achieve the downwind effect. Similarly, if the structural wall protruding above the ground is a hexahedron, the electric glass window 3 may be disposed on two opposite surfaces of the hexahedron according to the wind direction of the outdoor environment, so as to achieve the downwind effect.

As can be seen from the above description, the embodiments of the present invention have the following beneficial effects: the ventilation direction is controlled by electrically opening or closing the glass window, so that the ventilation direction is always in a downwind area of the environmental wind direction, the problem of unsmooth upwind ventilation caused by wind direction change is avoided, and meanwhile, the downwind ventilation can utilize the thrust of outdoor airflow, the wind pressure of the fan is reduced, and the energy consumption of the fan is reduced; the ventilation shaft collects light collection and ventilates in an organic whole, and the embedded electronic glass window of the rain-proof shutter of ventilation shaft, under the circumstances of guaranteeing to ventilate, built-in electronic glass window has the printing opacity function concurrently, can improve the poor problem of ventilation shaft daylighting effect.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims

1. The utility model provides an underground substation ventilating shaft, is used for the air inlet shaft of air inlet and the air exhaust shaft that is used for airing exhaust that sets up including the symmetry, its characterized in that, air inlet shaft and air exhaust shaft all include:

and the fan is used for providing power for air flow circulation.

2. The underground substation ventilation shaft according to claim 1, wherein when the outdoor environment wind direction is a certain wind direction, the ventilation shaft closes the electric glass windows in the certain direction and opens the electric glass windows in other directions under the control of the electric device, and the air intake shaft opens the electric glass windows in the certain direction and closes the electric glass windows in other directions.

3. The underground substation ventilation shaft of claim 2, wherein when the ventilation shaft closes the electric glass window in the direction and opens the electric glass window in the other direction, air in other rooms of the underground substation is discharged into the ventilation shaft through the air inlet and outlet communicated with the ventilation shaft under the action of the fan and is discharged through the opened electric glass window and the rainproof shutter upwards along the ventilation shaft.

4. The underground substation ventilation shaft of claim 3, wherein when the electric glass window in the direction is opened by the air inlet shaft and the electric glass windows in other directions are closed, a negative pressure area is formed in other rooms of the underground substation and the air inlet shaft communicated with the other rooms, and outdoor ambient air enters the air inlet shaft along the airflow direction through the opened electric glass windows and the rainproof shutter and enters the rooms through the air inlet and outlet so as to maintain the micro-positive pressure or micro-negative pressure state of the rooms.

5. An underground substation ventilation shaft according to claim 1, wherein the structural wall body protruding above the ground is any one of a tetrahedron, a cylinder and a hexahedron.

6. An underground substation ventilation shaft according to claim 1, wherein the fan is connected to the air inlet and outlet.

7. An underground substation ventilation shaft according to claim 1, wherein the fan is located in another room of the substation.