CN216076106U - Waterproof device for ship traffic center machine room - Google Patents

Abstract

Ship traffic center computer lab watertight fittings is favorable to in time handling the urgent incident such as computer lab leaks, avoids computer lab equipment to damage or scrap because of weing, ensures the normal operating of computer lab, its characterized in that includes the layer that absorbs water that contacts with computer lab floor lower surface, it has the induction coil circuit that leaks to distribute in the first half layer on layer to absorb water, it has heating coil to distribute in the second half layer on layer to absorb water, the below on layer that absorbs water is provided with the water collector, the bottom avris of water collector is provided with connecting drain pipe's delivery port.

Description

Waterproof device for ship traffic center machine room

Technical Field

The utility model relates to a safe maintenance technology of a ship traffic center machine room, in particular to a waterproof device of the ship traffic center machine room, which is beneficial to timely processing emergency accidents such as water leakage of the machine room and the like, avoiding damage or scrap of machine room equipment due to damp and guaranteeing normal operation of the machine room.

Background

The ship traffic center machine room is provided with various network switches, core switches and other large-scale equipment, the heat dissipation is poor, and the overhigh temperature and humidity of the environment of the machine room are easily caused. If emergency accidents such as water leakage and the like are caused once, equipment in the machine room is damaged or scrapped due to damp, and the normal operation of the whole ship traffic management system is influenced. Generally, a machine room is always in an all-weather working state, and 24-hour real-time monitoring and regulation control on an environment variable of equipment operation and a state variable of the equipment operation are required to be performed, so that the stability of a network operation environment, network software and hardware resources, the safety of the equipment and the safety of related information data assets are ensured. The environmental variable control includes detection and processing of an unexpected event of water leakage. The water leakage detection system is divided into a positioning system and an un-positioning system. The positioning water leakage detection system is a water leakage detection system capable of accurately reporting a specific water leakage site. The non-positional water leak detection system can only report that a water leak is found, but cannot indicate location. The water leakage detection system consists of a sensor and a controller. When the sensor senses that the water regime appears, the alarm immediately gives an alarm, and after the alarm is given, the on-duty worker can timely process the water regime, so that the normal operation of the machine room is guaranteed.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects or shortcomings of the prior art, the utility model provides the waterproof device for the machine room of the ship traffic center, which is beneficial to timely handling the emergency accidents such as water leakage of the machine room and the like, avoiding the machine room equipment from being damaged or scrapped due to damp and ensuring the normal operation of the machine room.

The technical solution of the utility model is as follows:

marine traffic center computer lab watertight fittings, its characterized in that includes the layer that absorbs water that contacts with computer lab floor lower surface, it has the induction coil circuit that leaks to distribute in the first half layer on layer to absorb water, it has heating coil to distribute in the second half layer on layer to absorb water, the below on layer that absorbs water is provided with the water collector, the bottom avris of water collector is provided with the delivery port of connecting drain pipe.

The induction coil circuit that leaks adopts two return circuits structure, and wherein the 1 st return circuit includes the 1 st power cable and the electrically conductive cable resistance of 1 st, the one end of the electrically conductive cable resistance of 1 st is passed through the 1 st power cable is connected the 1 st power anodal, the other end of the electrically conductive cable resistance of 1 st is connected the 1 st power negative pole, the 2 nd return circuit 2 nd power cable and the electrically conductive cable resistance of 2 nd, the one end of the electrically conductive cable resistance of 2 nd is passed through the 2 nd power cable is connected the 2 nd power anodal, the other end of the electrically conductive cable resistance of 2 nd is connected the 2 nd power negative pole, the electrically conductive cable resistance of 1 st with be the induction zone that leaks between the electrically conductive cable resistance of 2 nd.

An alarm is arranged in the water leakage induction coil circuit.

The alarm is an audible and visual alarm.

The alarm comprises a manual button alarm.

The 1 st conductive cable resistor and the 2 nd conductive cable resistor are arranged in an S shape, a spiral line shape or a net shape.

The heating coils are arranged in an S shape, a spiral line shape or a net shape.

The water receiving tray is characterized in that a supporting boss is arranged on the inner surface of the bottom of the water receiving tray, a peripheral drainage ditch is arranged between the periphery of the supporting boss and the side wall of the water receiving tray, water guide grooves which are criss-cross are distributed on the upper surface of the supporting boss, and the water outlet is communicated with the peripheral drainage ditch.

And a drying device is arranged on the floor of the machine room.

And a temperature and humidity sensor connected with an alarm is arranged on the floor of the machine room.

The utility model has the following technical effects: according to the water-proof device for the ship traffic center machine room, the water absorption layer and the water receiving disc are arranged below the machine room floor, the water leakage induction coil circuit is arranged in the water absorption layer, and when water is absorbed by the water absorption layer, the water leakage induction coil can timely induce the existence of the water, so that a prompt or an alarm is given. The heating coil can be used for drying moisture and keeping the temperature in the machine room, and can also prevent moisture condensation in the machine room. Through the structure, the water leakage condition in the machine room can be found in time, and equipment in the machine room is prevented from being damaged or scrapped due to damp.

Drawings

Fig. 1 is a schematic structural diagram of a waterproof device for a ship traffic center machine room.

Fig. 2 is a schematic diagram of a water leakage induction coil circuit in fig. 1.

Fig. 3 is a schematic diagram of a short circuit between the resistances of the conductive cables due to water leakage in the water leakage induction coil circuit of fig. 2.

The reference numbers are listed below: 1-machine room floor; 2-a water-absorbing layer; 3-water leakage induction coil circuit; 4-peripheral drainage ditches; 5-supporting the boss; 6, a water pan; 7-a water chute; 8-heating coil; 9-water outlet; a-an alarm; c1-loop 1; c2-loop 2; i1-power cable 1; i2-power cable No. 2; r1-conductive wire resistance number 1; r2-conductive wire resistance number 2; r11-11 th resistance; r12-12 th resistor; r21-resistance 21; r22-22 nd resistance.

Detailed Description

The utility model is explained below with reference to the figures (fig. 1-3) and the examples.

Fig. 1 is a schematic structural diagram of a waterproof device for a ship traffic center machine room. Fig. 2 is a schematic diagram of a water leakage induction coil circuit in fig. 1. Fig. 3 is a schematic diagram of a short circuit between the resistances of the polymer conductive cables due to water leakage in the water leakage induction coil circuit of fig. 2. Referring to fig. 1 to 3, the waterproof device for the machine room of the ship traffic center comprises a water absorption layer 2 which is in contact with the lower surface of a machine room floor 1, a water leakage induction coil circuit 3 is distributed in the upper half layer of the water absorption layer 2, a heating coil 8 is distributed in the lower half layer of the water absorption layer 2, a water receiving disc 6 is arranged below the water absorption layer 2, and a water outlet 9 for connecting a water drainage pipe is arranged on the bottom side of the water receiving disc 6. The water leakage induction coil circuit 3 adopts a double-loop structure, wherein the 1 st loop C1 includes a 1 st power cable I1 and a 1 st conductive cable resistor R1, one end of the 1 st conductive cable resistor R1 is connected to the 1 st power positive electrode (+) through the 1 st power cable I1, the other end of the 1 st conductive cable resistor R1 is connected to the 1 st power negative electrode (-), the 2 nd loop C2 is connected to the 2 nd power cable I2 and the 2 nd conductive cable resistor R2, one end of the 2 nd conductive cable resistor R2 is connected to the 2 nd power positive electrode (+) through the 2 nd power cable I2, the other end of the 2 nd conductive cable resistor R2 is connected to the 2 nd power negative electrode (-), a water leakage induction region is formed between the 1 st conductive cable resistor R1 and the 2 nd conductive cable resistor R2 (the resistance of the conductive cable increases with the length, the current on the 1 st power cable I1 changes with the change of the resistance value of the conducting cable, for example, when water leakage occurs in the middle of the water leakage sensing area, the water leakage can cause R1 and R2 to form resistance split due to local short circuit, wherein R1 is split into 11 th resistor R11 and 12 th resistor R12, and R2 is split into 21 st resistor R21 and 22 th resistor R22, which causes the current I1 and I2 in the two loops C1 and C2 to change, and conversely, the water leakage of the machine room can be inferred by detecting the change of I1 and/or I2, and even the water leakage position can be determined according to the change of I1 and I2).

An alarm A is arranged in the water leakage induction coil circuit. The alarm is an audible and visual alarm. The alarm comprises a manual button alarm. The 1 st conductive cable resistor and the 2 nd conductive cable resistor are arranged in an S shape, a spiral line shape or a net shape (both refer to the trend distribution of the resistance cables). The heating coils 8 are arranged in an S shape, a spiral line shape or a net shape (all refer to the trend distribution of the electric heating wires).

The water pan is characterized in that a supporting boss 5 is arranged on the inner surface of the bottom of the water pan 6, a peripheral drainage ditch 4 is arranged between the periphery of the supporting boss 8 and the side wall of the water pan 6, water guide grooves 7 which are criss-cross are distributed on the upper surface of the supporting boss 5, and a water outlet 9 is communicated with the peripheral drainage ditch 4. And a drying device is arranged on the machine room floor 1. And a temperature and humidity sensor connected with an alarm is arranged on the machine room floor 1.

The utility model discloses a waterproof device for a machine room, which is used for monitoring the temperature, the humidity and water leakage of the machine room. A water leakage induction coil is arranged under the floor of the machine room, and warning can be given out in time when water source appears. The temperature and humidity sensor is arranged in the machine room, the real-time temperature and humidity conditions of the machine room can be displayed through a network in the management center, and warning and alarming are sent to the monitoring center when the temperature and the humidity are out of range. The ship traffic center machine room is provided with various network switches, core switches and other large-scale equipment, the heat dissipation is poor, and the overhigh temperature and humidity of the environment of the machine room are easily caused. If emergency accidents such as water leakage and the like are caused once, equipment in the machine room is damaged or scrapped due to damp, and the normal operation of the whole ship traffic management system is influenced. The underground of computer lab sets up the layer that absorbs water to in the layer internal distribution that absorbs water leak induction coil, when the layer that absorbs water, the existence of water can in time be responded to the induction coil that leaks, thereby sends suggestion or alarm. Through the structure, the water leakage condition in the machine room can be found in time, and equipment in the machine room is prevented from being damaged or scrapped due to damp.

And the heating coil is used for drying moisture and keeping the temperature in the machine room.

The heating coil (layer) and the water induction coil can be uniformly distributed in the water absorption layer, or a layer can be independently arranged and distributed below the water absorption layer.

The water absorbing layer can be arranged on a heat-conducting (metal) water receiving tray, the water receiving tray is provided with a water chute and a water outlet, and the water outlet is connected with a drainage pipe. An electric heating wire is arranged on the lower surface of the water receiving tray.

The water leakage induction coil may be in an S-shaped arrangement, a spiral arrangement or a mesh arrangement.

The heating coils may be arranged in an S-shape, a spiral shape, or a net shape.

When the water volume is larger, the water which cannot be absorbed by the water absorption layer can flow to the water outlet along the water guide groove of the water receiving tray and is finally discharged by the water discharge pipe.

The staff can be according to the water yield size control whether open the heating coil.

Other functions of the heating ring: can prevent the moisture condensation in the machine room.

The alarm can be a manual alarm button or an audible and visual alarm.

In addition, a drying device can be arranged in the machine room to regularly dry and filter the indoor air, so that the overhigh indoor humidity is prevented. Temperature and humidity sensors can be arranged in the machine rooms, real-time temperature and humidity conditions of the machine rooms can be displayed through a network in the ship traffic management center, and warning and alarming are sent to the monitoring center when the temperature and the humidity are out of range.

Those skilled in the art will appreciate that the utility model may be practiced without these specific details. It is pointed out here that the above description is helpful for the person skilled in the art to understand the utility model, but does not limit the scope of protection of the utility model. Any such equivalents, modifications and/or omissions as may be made without departing from the spirit and scope of the utility model may be resorted to.

Claims (10)

1. Marine traffic center computer lab watertight fittings, its characterized in that includes the layer that absorbs water that contacts with computer lab floor lower surface, it has the induction coil circuit that leaks to distribute in the first half layer on layer to absorb water, it has heating coil to distribute in the second half layer on layer to absorb water, the below on layer that absorbs water is provided with the water collector, the bottom avris of water collector is provided with the delivery port of connecting drain pipe.

2. The waterproof device for the ship traffic center machine room of claim 1, wherein the water leakage induction coil circuit is of a double-loop structure, wherein a 1 st loop comprises a 1 st power cable and a 1 st conductive cable resistor, one end of the 1 st conductive cable resistor is connected with a 1 st power anode through the 1 st power cable, the other end of the 1 st conductive cable resistor is connected with a 1 st power cathode, a 2 nd power cable and a 2 nd conductive cable resistor of a 2 nd loop, one end of the 2 nd conductive cable resistor is connected with a 2 nd power anode through the 2 nd power cable, the other end of the 2 nd conductive cable resistor is connected with a 2 nd power cathode, and a water leakage induction area is arranged between the 1 st conductive cable resistor and the 2 nd conductive cable resistor.

3. The waterproof device for the ship traffic center machine room according to claim 1, wherein an alarm is arranged in the water leakage induction coil circuit.

4. The waterproof device for the ship traffic center machine room according to claim 3, wherein the alarm is an audible and visual alarm.

5. The marine vessel transit center room waterproofing device according to claim 3, wherein the alarm comprises a manual button alarm.

6. The waterproof device for the ship traffic center machine room of claim 2, wherein the 1 st conductive cable resistor and the 2 nd conductive cable resistor are arranged in an S-shaped arrangement, a spiral arrangement or a net arrangement.

7. The waterproof device for the ship traffic center machine room according to claim 1, wherein the heating coils are arranged in an S-shaped arrangement, a spiral arrangement or a net arrangement.

8. The water-proof device for the ship traffic center machine room of claim 1, wherein a support boss is arranged on the inner surface of the bottom of the water pan, a peripheral drainage ditch is arranged between the periphery of the support boss and the side wall of the water pan, water guide grooves which are criss-cross are distributed on the upper surface of the support boss, and the water outlet is communicated with the peripheral drainage ditch.

9. The waterproof device for the ship traffic center machine room according to claim 1, wherein a drying device is arranged on the floor of the machine room.

10. The ship traffic center machine room waterproof device according to claim 1, wherein a temperature and humidity sensor connected with an alarm is arranged on a machine room floor.

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