CN205939580U - A condensate recovery and monitored control system for little modular structure of overhead cooling unit - Google Patents

Abstract

The utility model discloses a condensate recovery and monitored control system for little modular structure of overhead cooling unit, including surface cooler, water collector, communication rack, water leakage detection device I, water leakage detection device II, aqueduct and floor drain, the top of communication rack is equipped with the surface cooler, is equipped with the water collector between communication rack and surface cooler, the water collector inherent two not the co -altitude position be equipped with water leakage detection device I, water leakage detection device II respectively, the bottom of water collector is through leading the water piping connection floor drain, water leakage detection device I, water leakage detection device II respectively with monitored control system mutual information, the water level in the water collector exceeded water leakage detection device at 1 o'clock, monitored control system sends out the police dispatch newspaper, the water level when the water collector in exceeded water leakage detection device at 1 o'clock, monitored control system sends out police dispatch and reports, just closes water leakage detection device 0. The utility model discloses the potential safety hazard of overhead cooling unit comdenstion water to the communication rack has effectively been solved to when using water -cooling or cooler air -conditioner mode, can prevent the water -cooled tube to leak to the harm of computer lab production in advance.

Description

A kind of condensing hot air furnace for overhead cooling unit micromodule structure and monitoring system

Technical field

This utility model is related to a kind of condensing hot air furnace for overhead cooling unit micromodule structure and monitoring system.

Background technology

With the explosive growth of data traffic requirement, the developing rapidly of network technology, the construction at communication data center needs Ask increasing, protect the lifting of attention degree with Environmental meanwhile.That high energy consumption, high operation cost and needs The conventional data centers of very long construction period have gradually shown the tired state of development.Brand-new employing high density, new the one of low-power consumption Become main flow for modular data center.At present modular communication data center mounting structure on the market mostly take by Between row, air-conditioning is arranged on the method refrigeration between communication cabinet, and this mounting structure considerably increases the occupation of land face of data center Long-pending, a kind of micromodule structure of overhead cooling unit of our company's invention, refrigeration air-conditioner or water cooling equipment are placed in micro- mould Block communications equipment room top, this structure saves the floor space of modular communication machine room, but the recovery of condensed water and discharge Existing problems, condensed water is trapped in machine room top for a long time and the safe operation of equipment in communications equipment room is caused necessarily safety hidden Suffer from.

Utility model content

This utility model, according to above-mentioned the deficiencies in the prior art, provides one kind to be used for overhead cooling unit micromodule The condensing hot air furnace of structure and monitoring system.

In order to achieve the above object, this utility model adopts the technical scheme that：

A kind of condensing hot air furnace for overhead cooling unit micromodule structure and monitoring system, including surface cooler, water receiving Disk, communication cabinet, leakage inspector I, leakage inspector II, aqueduct and floor drain, the top of described communication cabinet is provided with Surface cooler, is provided with drip tray between communication cabinet and surface cooler, sets respectively two differing heights positions in described drip tray There are leakage inspector I, leakage inspector II, the bottom of drip tray connects floor drain by aqueduct；Described leak water detdction dress Put I, leakage inspector II respectively with monitoring system interactive information, when the water level in drip tray exceedes leakage inspector I, Monitoring system sends alarm, and when the water level in drip tray exceedes leakage inspector II, monitoring system sends alarm, and closes Refrigeration plant.

Preferably, the height of described drip tray is not less than 40mm.

Preferably, the curved design in the both sides of described drip tray.

The beneficial effects of the utility model are：

This utility model is directed to the deficiency in existing overhead cooling unit micromodule structure, there is provided a kind of overhead cooling is single The condensing hot air furnace of first micromodule structure and monitoring system, structure is simple, and reasonable in design, this design efficiently solves overhead system The potential safety hazard to communication cabinet for the cold unit condensed water, and when using water-cooled refrigeration or air conditioner refrigerating mode, can shift to an earlier date The harm that prevention water-cooled tube leakage produces to machine room, meanwhile, drip tray adopts the curved design in both sides, can be easy to condensed water Collection.

Brief description

Fig. 1 is structural representation of the present utility model；

Fig. 2 is drip tray draining schematic diagram of the present utility model；

In figure labelling：1 surface cooler, 2 drip trays, 3 air intakes, 4 communication cabinets, 5 passage of heats, 6 air drafts, 7 leakage inspectors I, 8 leakage inspectors II, 9 aqueducts, 10 floor drains.

Specific embodiment

With reference to the accompanying drawings and detailed description this utility model is illustrated.

As depicted in figs. 1 and 2, a kind of condensing hot air furnace for overhead cooling unit micromodule structure and monitoring system, Including surface cooler 1, drip tray 2, communication cabinet 4, leakage inspector I 7, leakage inspector II 8, aqueduct 9 and floor drain 10, The top of described communication cabinet 4 is provided with surface cooler 1, is provided with drip tray 2 between communication cabinet 4 and surface cooler 1.Communicated with two As a example rack 4, communication cabinet 4 can be from the low side air intake 3 of temperature, the high side air draft 6 of temperature, and the hot blast of discharge is logical at two Define the passage of heat 5 between letter rack 4, hot blast constantly rises, enter the surface cooler 1 of top, surface cooler 1 is arranged on refrigeration plant On, hot blast is condensed into water by surface cooler 1, and condensed water passes through drip tray 2 collection and gets up.

In the present embodiment, leakage inspector adopts leak water detdction rope, two differing heights positions in described drip tray 2 Put and be respectively equipped with leak water detdction rope I, leak water detdction rope II, the bottom of drip tray 2 connects floor drain 10 by aqueduct 9；Described leakage Water detection rope I, leak water detdction rope II respectively with monitoring system interactive information, when the water level in drip tray 2 exceedes leak water detdction rope I When, monitoring system sends alarm, and when the water level in drip tray 2 exceedes leak water detdction rope II, monitoring system sends alarm, and closes Close refrigeration plant.The height of described drip tray 2 is not less than 40mm, and the curved design in both sides of drip tray 2, can be easy to condense The collection of water.

This utility model can effectively solve the problem that the potential safety hazard to communication cabinet for the overhead refrigeration unit condensed water, and makes During with water-cooled refrigeration or air conditioner refrigerating mode, the harm that water-cooled tube leakage produces to machine room can be prevented in advance.

Above-mentioned example simply to illustrate that technology design of the present utility model and feature, its objective is to be to allow this area Interior those of ordinary skill will appreciate that content of the present utility model and implements according to this, can not be limited of the present utility model with this Protection domain；Equivalent change done by every essence according to this utility model content or modification, all should cover in this reality With in new protection domain.

Claims (3)

1. a kind of condensing hot air furnace for overhead cooling unit micromodule structure and monitoring system it is characterised in that：Including table Cooler, drip tray, communication cabinet, leakage inspector I, leakage inspector II, aqueduct and floor drain, described communication cabinet Top is provided with surface cooler, is provided with drip tray between communication cabinet and surface cooler, two differing heights positions in described drip tray Put and be respectively equipped with leakage inspector I, leakage inspector II, the bottom of drip tray connects floor drain by aqueduct；Described leakage Water detection means I, leakage inspector II respectively with monitoring system interactive information, when the water level in drip tray exceedes leak water detdction During device I, monitoring system sends alarm, and when the water level in drip tray exceedes leakage inspector II, monitoring system sends police Report, and close refrigeration plant.

2. a kind of condensing hot air furnace for overhead cooling unit micromodule structure according to claim 1 and monitoring system System it is characterised in that：The height of described drip tray is not less than 40mm.

3. a kind of condensing hot air furnace for overhead cooling unit micromodule structure according to claim 1 and 2 and monitoring System it is characterised in that：The curved design in both sides of described drip tray.