CN217231648U - Emergency flood prevention automatic water retaining equipment for underground garage - Google Patents

Abstract

The utility model discloses an automatic flood prevention emergency water retaining device for underground garage, the underground garage comprises a garage inlet on a ground plane, the automatic water retaining device comprises a water retaining component in front of the garage inlet, an entrance guard component and a control device for controlling the lifting of the water retaining component and controlling the working of the entrance guard component, the water retaining component comprises a water retaining plate, a water level monitoring device and an electric lifting rod, the two sides of the water retaining plate are fixedly connected with the electric lifting rod, the water level monitoring device is fixed on the side surface above the electric lifting rod and is in signal connection with the control device, when the water level monitoring device monitors that the height of a water source exceeds the standard, the control device controls the electric lifting rod to be lifted from the lower part of the ground plane, and meanwhile, the control device controls the entrance guard component to be in a non-passing state; when the water level descends until the water level monitoring device cannot monitor water, the access control assembly is in a normal operation state. Effectively prevent the vehicle because of not seeing clearly the manger plate subassembly and strike the manger plate subassembly, avoid causing unnecessary economic loss.

Description

Emergency flood prevention automatic water retaining equipment for underground garage

Technical Field

The utility model belongs to the technical field of flood prevention device, concretely relates to automatic manger plate equipment of emergent flood prevention of underground garage.

Background

Rainstorm weather often occurs in summer and autumn, severe waterlogging of cities can be caused by strong rainfall, and rainwater is easy to flow back into underground garages, so that motor vehicles are soaked by water, and huge economic loss is caused to people. In order to accurately master information in the garage and count the number of available parking spaces, an access control system is usually arranged at the bottom of an entrance ramp of the garage.

At present, people add guard flap usually at the garage entrance and prevent that the rainwater from flowing backward into the garage. The garage entrance leads to the field of vision unclear easily owing to set up and shelter from the canopy. When using guard flap to prevent rainwater to pour into underground garage into, because general guard flap height ratio is lower, and rainfall weather visibility is lower, the driver that goes out the garage on the upslope often can not notice the ground of garage entry, and the driver that prepares into the garage often because rivers obstruct to be difficult to see guard flap clearly, collides guard flap because of careless very easily, and then causes economic loss.

SUMMERY OF THE UTILITY MODEL

To foretell not enough, the utility model provides an automatic manger plate equipment of emergent flood prevention of underground garage through setting up manger plate subassembly and entrance guard's subassembly, when the manger plate subassembly carries out the manger plate, entrance guard's subassembly is in the state of forbidding passing, prevents effectively that the vehicle from striking the manger plate subassembly because of seeing the unclear manger plate subassembly, avoids causing unnecessary economic loss.

The utility model discloses a realize through following technical scheme:

the utility model provides an automatic manger plate equipment of emergent flood prevention of underground garage, underground garage is including the garage entry that is located the ground face, and automatic manger plate equipment includes the manger plate subassembly before the garage entry, entrance guard's subassembly and control manger plate subassembly go up and down and the controlling means of control entrance guard's subassembly work, through using controlling means with manger plate subassembly and entrance guard's subassembly joint control, when guaranteeing that garage entry manger plate subassembly carries out the manger plate, the vehicle can not be because the manger plate subassembly of unclear water blocking of seeing is collided with in the error. The water retaining component comprises a water retaining plate, a water level monitoring device and an electric lifting rod, wherein the electric lifting rod is fixedly connected to the two sides of the water retaining plate, and the electric lifting rod on the two sides drives the water retaining plate to lift to retain water or drive the water retaining plate to descend to enable a vehicle to pass. The water level monitoring device is fixed on the side surface above the electric lifting rod, and the position of the water level monitoring device is slightly lower than the top of the water baffle. The water level monitoring device is in signal connection with the control device, when the water level monitoring device monitors that the height of a water source exceeds the standard, the control device controls the electric lifting rod to lift from the position below a ground surface, and meanwhile, the control device controls the entrance guard assembly to be in a no-passing state; when the water level descends until the water level monitoring device cannot monitor water, the access control assembly is in a normal operation state.

Further, the water level monitoring device comprises a first water level line sensor and a second water level line sensor positioned below the first water level line sensor, and when the first water level line sensor monitors water, the control device controls the electric lifting rod to lift upwards; when the second water level line sensor cannot detect water, the control device controls the electric lifting rod to descend until the water baffle is positioned below the ground surface. The vertical distance between the first water level line sensor and the second water level line sensor is the monitoring precision of the water level monitoring device, when the monitoring precision is high, the water retaining assembly moves more frequently, and the required electric energy is higher; when the monitoring precision is low, the water retaining component is relatively inactive, and the required electric energy is also low. The user can come the first water level line sensor of reasonable adjustment and the vertical distance between the second water level line sensor according to the fluctuation range that rivers arouse when local waterlogging, and then confirms reasonable water level monitoring device's monitoring precision.

Furthermore, one side of the top of the water level monitoring device is provided with a camera. When the water retaining assembly is used for retaining water, the control assembly can send out an alarm signal, the camera is automatically started at the moment, and managers can remotely watch the severity of waterlogging through the camera to determine the next disaster relief action. The camera is in standby state when the entrance guard assembly normally operates, and does not perform camera shooting work, so that the power consumption of the automatic water retaining device is further reduced.

Furthermore, the electric lifting rod comprises a first rod section and a second rod section, the first rod section slides along the second rod section, and the water baffle is fixed on the side surface above the first rod section. When the electric lifting rod is in a contraction state, the first rod section does not completely slide and contract into the second rod section, and the bottom of the water baffle fixed on one side of the first rod section is just abutted to the top of the second rod section.

Further, entrance guard's subassembly includes entrance guard's floodgate machine and car stop lever, and entrance guard's floodgate machine can control the car stop lever and open and shut. The entrance guard's floodgate machine has waterproof function, and when waterlogging, entrance guard's floodgate machine can lock the car stop lever, and the vehicle is forbidden to pass.

Furthermore, a warning light is arranged on the stop lever. When the access control assembly works normally and the stop lever is in a no-pass state, the warning lamp is red; when the stop lever is in a passing state, the warning lamp is green. When the waterlogging occurs, the stop lever is locked in a no-pass state, and the warning lamp flickers.

Furthermore, an alarm device is arranged in the control device, and the control device can judge whether a set value for sending an alarm signal is reached according to the monitored ascending distance of the electric lifting rod. When the rising distance of the electric lifting rod reaches the set distance, the alarm device in the control device automatically sends out an alarm signal.

Drawings

Fig. 1 is a schematic structural diagram illustrating a water retaining state of the emergency flood prevention automatic water retaining device for an underground garage according to the present invention;

fig. 2 is a front view for explaining a water retaining state of the emergency flood prevention automatic water retaining device for the underground garage according to the present invention;

fig. 3 is a schematic structural diagram illustrating a passing state of the emergency flood prevention automatic water retaining device for the underground garage according to the present invention;

FIG. 4 is a partially enlarged view of the portion A in FIG. 3;

fig. 5 is a front view illustrating a passing state of the emergency flood prevention automatic water retaining device for the underground garage according to the present invention;

fig. 6 is used for explaining a top view of the emergency flood prevention automatic water retaining device for the underground garage.

Reference numerals:

1. the system comprises a ground plane, 2, a garage inlet, 3, a water retaining component, 31, a water retaining plate, 32, a water level monitoring device, 321, a first water level line sensor, 322, a second water level line sensor, 323, a camera, 33, an electric lifting rod, 331, a first rod section, 332, a second rod section, 4, an access control component, 41, an access control gate machine, 42, a car stopping rod, 5 and a control device.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the 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 of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

It should be noted that the terms of orientation such as left, right, up, down, front and back in the embodiments of the present invention are only relative concepts or are referred to a normal use state of the product, i.e., a traveling direction of the product, and should not be considered as limiting.

In addition, the dynamic terms such as "relative movement" mentioned in the embodiments of the present invention include not only a positional change but also a movement in which a state changes without a relative change in position such as rotation or rolling.

Finally, it is noted that when an element is referred to as being "on" or "disposed" to another element, it can be on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

As shown in fig. 1 to 6, the automatic water retaining equipment of emergent flood prevention of underground garage, underground garage is including the garage entry 2 that is located ground face 1, automatic water retaining equipment includes water retaining component 3 before garage entry 2, entrance guard's subassembly 4 and control water retaining component 3 go up and down and control entrance guard's subassembly 4 controlling means 5 of work, through using controlling means 5 with water retaining component 3 and entrance guard's subassembly 4 joint control, when guaranteeing garage entry 2 water retaining component 3 and carrying out the manger plate, the vehicle can not be because the water retaining component 3 of unclear water retaining component 3 and the mistake strikes water retaining component 3.

In an embodiment, manger plate subassembly 3, entrance guard's subassembly 4 and controlling means 5 are waterproof equipment, guarantee to use normally when waterlogging.

Wherein, manger plate subassembly 3 includes breakwater 31, water level monitoring device 32 and electric lift rod 33, the equal fixedly connected with electric lift rod 33 in breakwater 31 both sides, and the electric lift rod 33 of both sides drives breakwater 31 and promotes and carry out the manger plate or drive breakwater 31 decline and make the vehicle current. The water level monitoring device 32 is fixed on the side above the electric lifting rod 33, and the position of the water level monitoring device 32 is slightly lower than the top of the water baffle 31. The water level monitoring device 32 is in signal connection with the control device 5, when the water level monitoring device 32 monitors that the height of the water source exceeds the standard, the control device 5 controls the electric lifting rod 33 to lift from the position below the ground surface 1, and meanwhile, the control device 5 controls the entrance guard assembly 4 to be in a no-passing state; when the water level drops until the water level monitoring device 32 does not monitor water, the door access assembly 4 is in a normal operation state.

In one embodiment, when no flood disaster occurs, the water retaining assembly 3 is located below the ground surface 1, and normal driving of the vehicle is not affected.

In a real-time example, the side surfaces above the electric lifting rods 33 on the two sides are provided with the water level monitoring devices 32, when the two water level monitoring devices 32 monitor that the height of a water source exceeds the standard, the control device 5 controls the electric lifting rods 33 to lift from the position below the ground surface 1, and meanwhile, the control device 5 controls the access control assembly 4 to be in a no-pass state; when the water level drops until the water level monitoring devices 32 can not monitor water, the door control assembly 4 is in a normal operation state. Set up two sets of water level monitoring devices 32 and can effectively avoid on the unexpected watering to water level monitoring devices 32 because of the pedestrian, and lead to manger plate subassembly 3 to carry out manger plate work.

Preferably, the water level monitoring device 32 includes a first water level line sensor 321 and a second water level line sensor 322 located below the first water level line sensor 321, and when the first water level line sensor 321 detects water, the control device 5 controls the electric lift rod 33 to lift upwards; when the second water level line sensor 322 does not detect water, the control device 5 controls the electric lift lever 33 to descend until the water guard 31 is located below the ground surface 1. The vertical distance between the first waterline sensor 321 and the second waterline sensor 322 is the monitoring precision of the water level monitoring device 32, and when the monitoring precision is high, the water retaining assembly 3 moves more frequently and the required electric energy is higher; when the monitoring precision is low, the water retaining component 3 is relatively inactive, and the required electric energy is also low. The user can reasonably adjust the vertical distance between the first waterline sensor 321 and the second waterline sensor 322 according to the fluctuation range caused by water flow when the local waterlogging occurs, and then determine the reasonable monitoring precision of the water level monitoring device 32.

In one embodiment, when the first water level line sensor 321 and the second water level line sensor 322 do not detect water, the electric lifting rod 33 descends to the lowest level, and at this time, the water baffle 31 is located below the ground surface 1, and the access control assembly 4 is in a normal working state; when the water level is over the second water level line sensor 322 and is between the first water level line sensor 321 and the second water level line sensor 322, the electric lifting rod 33 does not work, the access control assembly 4 is still in a normal working state, and the distance between the first water level line sensor 321 and the second water level line sensor 322, namely the safety distance of water immersion; when the water level is over the first water level line sensor 321 and the second water level line sensor 322, the control device 5 controls the electric lifting rod 33 to lift, and the access control assembly 4 is in a no-pass state; when the first level line sensor 321 and the second level line sensor 322 do not detect water due to the rising of the electric lift rod 33, the control device 5 controls the electric lift rod 33 to descend. By the above manner, when the water is immersed, the water level is kept between the first water level line sensor 321 and the second water level line sensor 322, and water retaining work is performed; when the water is removed, the first water level line sensor 321 and the second water level line sensor 322 can not detect the water, the control device 5 controls the electric lifting rod 33 to descend to the lowest level, the water baffle 31 is located below the ground surface 1, and the access control assembly 4 is restored to a normal working state.

Preferably, a camera 323 is arranged on one side of the top of the water level monitoring device 32. When the water retaining component 3 is used for retaining water, the control component can send out an alarm signal, the camera 323 is automatically started at the moment, and managers can remotely watch the severity of waterlogging through the camera 323 to determine the next disaster relief action. The camera 323 is in a standby state when the access control assembly 4 operates normally, and does not perform shooting work, so that the power consumption of the automatic water retaining device is further reduced.

In one embodiment, when the pedestrian carelessly sprinkles water on the water level monitoring device 32 to cause the electric lifting rod 33 to rise, the access control assembly 4 is in a no-passing state, the camera 323 is automatically turned on at the moment, and a manager can remotely watch information transmitted by the camera 323, so as to remotely control the electric lifting rod 33 to descend to restore the access control assembly 4 to a normal passing state.

Preferably, the power lifter 33 includes a first pole section 331 and a second pole section 332, the first pole section 331 slides along the second pole section 332, and the water guard 31 is fixed to a side above the first pole section 331. When the electric lifting rod 33 is in the retracted state, the first rod segment 331 does not slide completely into the second rod segment 332, and the bottom of the water baffle 31 fixed on one side of the first rod segment 331 is just abutted against the top of the second rod segment 332.

Preferably, the door control assembly 4 includes a door control 41 and a car stop lever 42, and the door control 41 can control the opening and closing of the car stop lever 42. The entrance guard gate 41 has a waterproof function, and when water is flooded, the entrance guard gate 41 can lock the stop lever 42 to prohibit the vehicle from passing.

Preferably, a warning light is disposed on the stop lever 42. When the access control assembly 4 works normally and the stop lever 42 is in a no-pass state, the warning lamp is red; when the stop lever 42 is in the passing state, the warning light is green. When the water is flooded, the stop lever 42 is locked in the traffic prohibition state, and the warning light flickers.

In one embodiment, the stop lever 42 is affixed with a reflective strip, and at the relatively dark garage entrance 2, the vehicle will often turn on light, and the reflective strip can warn the vehicle owner to pay attention to safe driving.

In one embodiment, the reflective strips are adhered above the water baffle 31, when the water baffle 31 blocks water, the height of the water baffle 31 is often low, and the garage entrance 2 is relatively dark, so that a relatively sharp driver can easily miss the water baffle 31 and collide on the water baffle 31. The vehicle often can open light at the garage entry 2 of dark, and the reflection of light strip can warn the car owner to notice safe driving. In addition, when the traffic is normal, the water baffle 31 is positioned below the ground surface 1, and the reflective strips do not play a negative role.

Preferably, an alarm device is arranged in the control device 5, and the control device 5 can judge whether a set value for sending an alarm signal is reached according to the monitored ascending distance of the electric lifting rod 33. When the ascending distance of the electric lifting rod 33 reaches the set distance, the alarm device in the control device 5 automatically sends out an alarm signal.

When the automatic emergency flood prevention water retaining device for the underground garage is adopted, the water retaining component 3 and the entrance guard component 4 are arranged, when the water retaining component 3 retains water, the entrance guard component 4 is in a no-pass state, the water retaining component 3 is effectively prevented from being impacted by a vehicle due to the fact that the water retaining component 3 cannot be seen clearly, and unnecessary economic loss is avoided.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art to which the present application pertains. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (7)

1. An automatic emergency flood prevention water retaining device for an underground garage, the underground garage comprises a garage inlet positioned on a ground plane, it is characterized in that the automatic water retaining device comprises a water retaining component in front of the garage entrance, an entrance guard component and a control device for controlling the water retaining component to lift and controlling the entrance guard component to work, the water retaining component comprises a water retaining plate, a water level monitoring device and an electric lifting rod, the electric lifting rod is fixedly connected with both sides of the water retaining plate, the water level monitoring device is fixed on the side surface above the electric lifting rod and is in signal connection with the control device, when the water level monitoring device monitors that the height of a water source exceeds the standard, the control device controls the electric lifting rod to lift from the position below the ground level, and meanwhile, the control device controls the access control assembly to be in a no-pass state; when the water level drops until the water level monitoring device cannot monitor water, the access control assembly is in a normal operation state.

2. The automatic emergency flood prevention water retaining device for the underground garage according to claim 1, wherein the water level monitoring device comprises a first water level line sensor and a second water level line sensor positioned below the first water level line sensor, and when the first water level line sensor monitors water, the control device controls the electric lifting rod to lift upwards; when the second water level line sensor cannot detect water, the control device controls the electric lifting rod to descend until the water baffle is positioned below the ground surface.

3. The automatic emergency flood prevention water retaining device for the underground garage according to claim 2, wherein a camera is arranged on one side of the top of the water level monitoring device.

4. The automatic emergency flood prevention water retaining device for the underground garage according to claim 1, wherein the electric lifting rod comprises a first rod section and a second rod section, the first rod section slides along the second rod section, and the water retaining plate is fixed on the side surface above the first rod section.

5. The automatic flood prevention water retaining device for the underground garage according to claim 1, wherein the entrance guard assembly comprises an entrance guard gate machine and a stop bar, and the entrance guard gate machine can control the stop bar to open and close.

6. The automatic emergency flood prevention water retaining device for the underground garage according to claim 5, wherein a warning lamp is arranged on the stop lever.

7. The automatic emergency flood prevention water retaining device for the underground garage according to claim 1, wherein an alarm device is arranged in the control device, and the control device can judge whether a set value for sending an alarm signal is reached according to the monitored ascending distance of the electric lifting rod.

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