CN209402395U - A kind of high-power water-cooling shore electric power - Google Patents
A kind of high-power water-cooling shore electric power Download PDFInfo
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- CN209402395U CN209402395U CN201821792740.3U CN201821792740U CN209402395U CN 209402395 U CN209402395 U CN 209402395U CN 201821792740 U CN201821792740 U CN 201821792740U CN 209402395 U CN209402395 U CN 209402395U
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Abstract
The utility model belongs to high-power harbour shore electric power technical field, more particularly to a kind of high-power water-cooling shore electric power: including: shore electric power, water-cooling system and radiator, the shore electric power is connect by water inlet pipe and outlet pipe with water-cooling system, the water-cooling system is connect by water inlet pipe B and outlet pipe B with radiator, the shore electric power further include: water cooling power module, ball valve A, flowmeter A, ball valve B, flowmeter B and reactance, the water cooling power module, ball valve A and flowmeter A are connected in series, and wherein the flowmeter A other end is also connected with water inlet pipe;The ball valve A other end connects outlet pipe, and the ball valve B, flowmeter B and reactance are connected in series;Wherein the ball valve B other end connects outlet pipe.
Description
Technical field
The utility model belongs to high-power harbour shore electric power technical field, and in particular to a kind of high-power water-cooling bank electricity electricity
Source.
Background technique
Shore electric power, i.e. bank variable-frequency power sources, also known as electronic still formula shore electric power.It is specific on ship, bank
The severe use environment such as the high temperature such as side harbour, high humidity, highly corrosive, big load impact and the high-power frequency conversion for being specifically designed manufacture
Power-supply device is widely used on ship, shipbuilding and repair shop, ocean drilling platforms, bank harbour etc. are needed by 50Hz work
Industry electricity consumption becomes 60Hz high quality frequency-voltage stabilized power source, the occasion being powered to ship electrical equipment.
In recent years, harbour and ship air pollution emission are increasingly becoming the main composition of the pollution control in coastal port city
Part.With the continuous propulsion that China works to atmosphere pollution, Pollution From Ships have caused the attention of relevant departments.Ship uses
Shore electric power has the important function such as noise reduction, vibration damping, energy conservation, emission reduction.With the continuous increase of vessel displacement, high-power bank electricity
Power supply is increasingly becoming design mainstream.
External at present and domestic bank electricity design producer mostly uses existing converter module, conventional mostly with wind-cooling heat dissipating
The efficiency of frequency-variable module is 95-98%, thus a large amount of thermal losses can be made to be accumulated in the computer room of shore electric power, lead to machine
Room temperature increases, to influence equipment normal operation, reduces normal working efficiency.
Therefore, in order to change this design defect in existing high-power harbour shore electric power technical field, exploitation one is needed
Kind novel high-power shore electric power solution, is accumulated at this disadvantage in the computer room of shore electric power for improving thermal losses,
And cooperate the popularization of high-power shore electric power, to be applicable in the design requirement of the following more high-power shore electric power.
Summary of the invention
The purpose of the utility model is to provide a kind of high-power water-cooling shore electric powers, and it is tired to solve thermal losses by water-cooling
The technical issues of meter is in the computer room of shore electric power.
The technical solution of the utility model includes:
A kind of high-power water-cooling shore electric power, comprising: shore electric power, water-cooling system and radiator, the shore electric power are logical
It crosses water inlet pipe and outlet pipe is connect with water-cooling system, the water-cooling system is connect by water inlet pipe B and outlet pipe B with radiator.
Shore electric power as described above further include: water cooling power module, ball valve A, flowmeter A, ball valve B, flowmeter B and electricity
It is anti-.
Water cooling power module, ball valve A and flowmeter A as described above are connected in series, and wherein the flowmeter A3 other end is also connected with
There is water inlet pipe;The ball valve A other end connects outlet pipe.
Ball valve B, flowmeter B and reactance as described above are connected in series;Wherein the ball valve B other end connects outlet pipe;
The flowmeter B other end connects water inlet pipe;The water cooling power module, ball valve A and this series connection of flowmeter A are returned
Road and ball valve B, flowmeter B and reactance this series loop are generally arranged in parallel.
Water-cooling system as described above further include: controller, temperature sensor A, pressure sensor A, temperature sensor B, pressure
Force snesor B and pump, the one end the temperature sensor A are connected with pressure sensor A, the connection water inlet of the temperature sensor A other end
Pipe
One end temperature sensor B as described above is connected with pressure sensor B, and the temperature sensor B other end and outlet pipe connect
It connects.
Pump one end is connected separately with pressure sensor A and pressure sensor B as described above, the pump other end and water inlet pipe B and
Outlet pipe B connection.
The utility model has the beneficial effects that
A kind of high-power water-cooling shore electric power advantage of the utility model design is as follows:
1) stability for improving equipment in shore electric power computer room, reduces the use of air-conditioning in computer room, to ensure that
Equipment operates normally;
2) the utility model has achieved the effect that shore electric power high efficiency and heat radiation;Also a save equipment cost.
Detailed description of the invention
Fig. 1 is a kind of high-power water-cooling shore electric power structure connection diagram described in the utility model;
In figure: 1- water cooling power module, 2- ball valve A, 3- flowmeter A, 4- ball valve B, 5- flowmeter B, 6- reactance, 7- control
Device, 8- temperature sensor A, 9- pressure sensor A, 10- temperature sensor B, 11- pressure sensor B, 12- pump, 13- radiator,
14- water inlet pipe A, 15- outlet pipe A, 16- water inlet pipe B, 17- outlet pipe B.
Specific embodiment
The utility model is further introduced with embodiment with reference to the accompanying drawing:
As shown in Figure 1, a kind of high-power water-cooling shore electric power, comprising: shore electric power, water-cooling system and radiator 13, institute
It states shore electric power to connect by water inlet pipe 14 and outlet pipe 15 with water-cooling system, the water-cooling system is by water inlet pipe B 16 and goes out
Water pipe B17 is connect with radiator 13.
The shore electric power further include: water cooling power module 1, ball valve A2, flowmeter A3, ball valve B4, flowmeter B5 and electricity
Anti- 6.
The shore electric power further include: water cooling power module, ball valve A, flowmeter A, ball valve B, flowmeter B and reactance.
The water cooling power module 1, ball valve A2 and flowmeter A3 are connected in series, and wherein the flowmeter A3 other end is also connected with
Water inlet pipe 14;The ball valve A2 other end connects outlet pipe 15.
The ball valve B4, flowmeter B5 and reactance 6 are connected in series;Wherein the ball valve B4 other end connects outlet pipe 15;It is described
The flowmeter B5 other end connects water inlet pipe 14;
The water cooling power module 1, ball valve A2 and this series loop of flowmeter A3 and ball valve B4, flowmeter B5 and reactance
6 this series loop are generally arranged in parallel.
The water-cooling system further include: temperature sensor A8, pressure sensor A9, temperature sensor B10, pressure sensor
B11 and pump 12, the one end the temperature sensor A8 is connected with pressure sensor A9, and the temperature sensor A8 other end connects water inlet pipe
14
The one end the temperature sensor B10 is connected with pressure sensor B11, the temperature sensor B10 other end and outlet pipe
15 connections.
12 one end of the pump are connected separately with pressure sensor A9 and pressure sensor B11,12 other ends of pump and water inlet pipe B
16 connect with outlet pipe B17.
The shore electric power of the utility model design connects water cooling cabinet body by inlet and outlet pipe, if being equipped in shore electric power
Mainstream meter and ball valve can be controlled separately the flow of power cell and reactor;
Inflow temperature sensor (PT100), intake pressure sensor, return water temperature sensing are equipped in the cabinet of water-cooling system
Device, pressure of return water sensor and pump 12.
A kind of course of work of high-power water-cooling shore electric power of the utility model design is specifically described with reference to the accompanying drawing:
Firstly, carrying out filling liquid to pump 12, by the starting of controller 7 pump 12, liquid enters bank electricity electricity by water inlet pipe A14
Source separately flows into water cooling power module 1 and reactance 6, is flowing back into pump 12 by outlet pipe A15.
The liquid for flowing back into pump 12 flows into radiator 13 by water inlet pipe B16, after radiator 13 cools down liquid, leads to
It crosses outlet pipe B17 and flow back into pump 12, water inlet pipe A14 is being flowed by pump 12, is entering and recycles next time.
The utility model monitors intake pressure by pressure sensor A9, feeds back to controller 7, prevents hydraulic pressure excessively high or mistake
It is low;
Inflow temperature is monitored by temperature sensor A8, controller 7 is fed back to, to prevent the excessively high timely shutdown of temperature;
Pressure of return water is monitored by pressure sensor B11, controller 7 is fed back to, prevents hydraulic pressure too high or too low;
Return water temperature is monitored by temperature sensor B10, feeds back to controller 7, the excessively high timely shutdown of temperature;
The flow that water cooling power module 1 is measured by flowmeter A3, adjusts cold 1 flow of power module by ball valve A2
Section;
The flow that reactance 6 is measured by flowmeter B5, is adjusted 6 flow of reactance by ball valve B4;
Operator can read the dependency numbers such as high-power water-cooling shore electric power pressure, temperature, flow by controller 7
According to.
The utility model is explained in detail above in conjunction with embodiment, but the utility model is not limited to above-mentioned implementation
Example, within the knowledge of a person skilled in the art, can also be in the premise for not departing from the utility model aims
It is lower that various changes can be made.The content being not described in detail in the utility model can use the prior art.
Claims (5)
1. a kind of high-power water-cooling shore electric power characterized by comprising shore electric power, water-cooling system and radiator (13), institute
It states shore electric power to connect by water inlet pipe (14) and outlet pipe (15) with water-cooling system, the water-cooling system passes through water inlet pipe B
(16) it is connect with outlet pipe B (17) with radiator (13).
2. a kind of high-power water-cooling shore electric power as described in claim 1, it is characterised in that: the shore electric power further include:
Water cooling power module (1), ball valve A (2), flowmeter A (3), ball valve B (4), flowmeter B (5) and reactance (6);The water cooling power
Module (1), ball valve A (2) and flowmeter A (3) are connected in series, and wherein flowmeter A (3) other end is also connected with water inlet pipe (14);
Ball valve A (2) other end connects outlet pipe (15);
The ball valve B (4), flowmeter B (5) and reactance (6) are connected in series;Wherein ball valve B (4) other end connects outlet pipe
(15);Flowmeter B (5) other end connects water inlet pipe (14).
3. a kind of high-power water-cooling shore electric power as described in claim 1, it is characterised in that: the water-cooling system further include:
Controller (7), temperature sensor A (8), pressure sensor A (9), temperature sensor B (10), pressure sensor B (11) and pump
(12), described (8) one end temperature sensor A is connected with pressure sensor A (9), the connection water inlet of temperature sensor A (8) other end
It manages (14).
4. a kind of high-power water-cooling shore electric power as claimed in claim 3, it is characterised in that: the temperature sensor B (10)
One end is connected with pressure sensor B (11), and temperature sensor B (10) other end is connect with outlet pipe (15).
5. a kind of high-power water-cooling shore electric power as claimed in claim 3, it is characterised in that: described pump (12) one end connects respectively
It is connected to pressure sensor A (9) and pressure sensor B (11), pump (12) other end and water inlet pipe B (16) and outlet pipe B (17) are even
It connects.
Priority Applications (1)
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CN201821792740.3U CN209402395U (en) | 2018-11-01 | 2018-11-01 | A kind of high-power water-cooling shore electric power |
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CN201821792740.3U CN209402395U (en) | 2018-11-01 | 2018-11-01 | A kind of high-power water-cooling shore electric power |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113556927A (en) * | 2021-07-27 | 2021-10-26 | 江苏德耐美克电气有限公司 | Circulating water cooling system for high-voltage shore power supply heat dissipation and water cooling method thereof |
-
2018
- 2018-11-01 CN CN201821792740.3U patent/CN209402395U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113556927A (en) * | 2021-07-27 | 2021-10-26 | 江苏德耐美克电气有限公司 | Circulating water cooling system for high-voltage shore power supply heat dissipation and water cooling method thereof |
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