CN203489388U - Intelligent heat exchange system with detachable foam filter screen - Google Patents

Abstract

The utility model discloses an intelligent heat exchange system with a detachable foam filter screen. The intelligent heat exchange system comprises an air inlet apparatus. The air inlet apparatus comprises an air inlet apparatus housing, having an air inlet and an air outlet, wherein the air inlet is disposed in an outdoor manner and the air outlet is disposed in an indoor manner; and a blower fan which is disposed in the air intake apparatus housing with the two ends of the blower fan being connected at two ends of the housing in a sealing manner. The intelligent heat exchange system also comprises an air-discharge apparatus, having an air-discharge apparatus housing with an air inlet and an air outlet, wherein the air inlet is disposed in an indoor manner and the air outlet is disposed in an outdoor manner; and a blower fan which is disposed in the air-discharge apparatus housing with the two ends of the blower fan being connected at two ends of the housing in a sealing manner. The intelligent heat exchange system also comprises a temperature difference verifying device, which includes an indoor temperature detection portion and an outdoor temperature detection portion. A control portion receives the data of the temperature difference verifying device, and controls the starting and stopping of the air inlet apparatus and the air-discharge apparatus based on temperature difference. The inner side of an air inlet of the air inlet apparatus and/or an air outlet of the air-discharge apparatus is provided with a filter screen, and the filter screen is provided with detachable foam. Accordingly, the intelligent heat exchange system has the function of air filtering, and the filter screen or the foam is easy to replace.

Description

Intelligent heat exchange system with detachable foam screen pack

Technical field

The utility model relates to a kind of intelligent heat exchange system with detachable foam screen pack.

Background technology

Heat abstractor in existing machine room or communication base station, modal is to utilize air-conditioning to carry out temperature to regulate control, realizes the transfer of heat.Use vapor-compression refrigerant cycle, cold-producing medium is through indoor evaporimeter, and heat of vaporization in absorption chamber is compressed afterwards by compressor, release heat in outdoor condenser then, then enter evaporimeter by throttling arrangement, and circulate, reach the effect of transfer of heat.And the problem that this refrigerating plant exists is to consume energy greatly, structure relative complex, and also expensive; maintenance workload is many, once have a power failure, just can not freeze, and has affected the heat radiation of communication machine room; and the cold-producing medium using mostly at present is freon, and environmental protection is had to impact.

Summary of the invention

Unresolved above-mentioned technical problem, the utility model provides a kind of intelligent heat exchange system with detachable foam screen pack, and the temperature difference that can make full use of base station indoor and outdoor is carried out energy-saving cool-down, there is Wind Volume, the features such as cooling is fast, non-maintaining, its power saving rate can reach 22%-63% according to the difference in season.

For achieving the above object, the intelligent heat exchange system of the detachable foam screen pack of band of the present utility model, comprising: an air-intake device, and an air exhausting device and a temperature difference verifying attachment, and a control section, this air-intake device comprises:

One air-intake device housing, this air-intake device housing band one air inlet and an air outlet, this air inlet is positioned at outdoor, and this air outlet is positioned at indoor;

One blower fan is positioned at this air-intake device housing, and the air intake vent of this blower fan is positioned at the air inlet side of this housing, and the air outlet of this blower fan is positioned at the air outlet side of this housing, and two ends are in the sealed at both ends connection of housing; This air exhausting device comprises:

One air exhausting device housing, this air exhausting device housing band one air inlet and an air outlet, this air inlet is positioned at indoor, and this air outlet is positioned at outdoor;

One blower fan is positioned at this air exhausting device housing, and the air intake vent of this blower fan is positioned at the air inlet side of this housing, and the air outlet of this blower fan is positioned at the air outlet side of this housing, and two ends are in the sealed at both ends connection of housing; This temperature difference verifying attachment comprises:

One indoor temperature test section, and an outdoor temperature test section, and pass to a control section; This control section receives the data of this temperature difference verifying attachment, and according to the temperature difference, controls the start and stop of this air-intake device and this exhaust apparatus; A screen pack is with in the air inlet of described air-intake device and/or the air outlet of described air exhausting device inner side, on described screen pack with detachable foam.

Further, described screen pack is detachable.

Further, the blower fan of this air-intake device and/or this air exhausting device is centrifugal blower.

Further, this temperature detecting part is divided into temperature sensor.

Further, this control section starts this blower fan when indoor temperature is more than or equal to when outdoor temperature 3-15 spends, and is less than and when 3-15 spends, stops this blower fan.

Further, this air inlet place band one air door of this air exhausting device.

Further, a plurality of blades of this air door band, this blade is with sharf and by sharf rotary damper size.

Further, the air-intake device housing being somebody's turn to do and/or the air exhausting device housing being somebody's turn to do are respectively with an air intake cover and an exhaust hood.

As shown from the above technical solution, the utlity model has following beneficial effect:

1. consume 1/10 electric energy of traditional air-conditioning, compressor-free, without chemical refrigerant for equipment provides continuous, stable running environment, guarantees the energy-efficient operation of unit simultaneously;

2. reliability is high, and the life-span is long;

3. with air filtering function, and easily change screen pack or foam.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Fig. 1 represents the front view of air-intake device of the intelligent heat exchange system of the detachable foam screen pack of the utility model band;

Fig. 2 represents the side view of air-intake device of the intelligent heat exchange system of the detachable foam screen pack of the utility model band;

Fig. 3 represents the front view of air exhausting device of the intelligent heat exchange system of the detachable foam screen pack of the utility model band;

Fig. 4 represents the rearview of air exhausting device of the intelligent heat exchange system of the detachable foam screen pack of the utility model band;

Fig. 5 represents the schematic diagram of air intake cover of the intelligent heat exchange system of the detachable foam screen pack of the utility model band;

Fig. 6 represents the schematic diagram of exhaust hood of the intelligent heat exchange system of the detachable foam screen pack of the utility model band

Fig. 7 represents the enlarged drawing of detachable screen pack of the intelligent heat exchange system of the detachable foam screen pack of the utility model band;

Fig. 8 represents the enlarged drawing of knockout screw of detachable screen pack of the intelligent heat exchange system of the detachable foam screen pack of the utility model band.

Reference numeral in figure is: 1. air-intake device housing; 2. air inlet; 3. air outlet; 4. air-intake device blower fan; 5. air-intake device blower fan air intake vent; 6. air-intake device fan outlet; 7. air exhausting device housing; 8. air exhausting device air inlet; 9. air exhausting device air outlet; 10. air exhausting device blower fan; 11. filters; 12. air doors; 13. blades; 14. LCDs; 15. air intake covers; 16. exhaust hoods; 17. detachable screen packs; 18. knockout screw.

The specific embodiment

Referring to Fig. 1,2 is air-intake device front view and the side view of the intelligent heat exchange system of the detachable foam screen pack of the utility model band, air-intake device comprises: an air-intake device housing 1, described air-intake device housing 1 is with an air inlet 2 and an air outlet 3, described air inlet 2 is positioned at outdoor, and described air outlet 3 is positioned at indoor; One blower fan 4 is positioned at described air-intake device housing, and the air intake vent 5 of described blower fan 4 is positioned at air inlet 2 sides of described housing, and the air outlet 6 of described blower fan is positioned at air outlet 3 sides of described housing, and two ends are in the sealed at both ends connection of housing.Described blower fan is preferably centrifugal blower.

Referring to Fig. 3,4 is front view and the rearview of air exhausting device of the intelligent heat exchange system of the detachable foam screen pack of the utility model band, described air exhausting device comprises: an air exhausting device housing 7, described air exhausting device housing 7 is with an air inlet 8 and an air outlet 9, described air inlet 8 is positioned at indoor, and described air outlet 9 is positioned at outdoor; One blower fan 10 is positioned at described air exhausting device housing 7, and the air intake vent of described blower fan 10 is positioned at air inlet 8 sides of described housing, and the air outlet of described blower fan is positioned at air outlet 9 sides of described housing, and two ends are in the sealed at both ends connection of housing.Sealing mode is preferably by rubber ring and sealant sealing.The preferred fan of described blower fan or centrifugal blower.

Described temperature difference verifying attachment comprises: an indoor temperature transmitter, and an outdoor temperature sensor, amplify temperature value by wired or wireless mode and pass a PC part; PC partly receives temperature data, calculating temperature difference, and control the start and stop of described air-intake device and described exhaust apparatus.

This air-intake device and air exhausting device are installed separately, and preferably air exhausting device is loaded on wall upper end, and air-intake device is loaded on wall lower end.Indoor and outdoors temperature sensor is respectively near near air exhausting device and air-intake device.

The air inlet place of this air-intake device is with a filter 11, can be nettedly, and the bubble that distributes is above continuous, for filtering particle and the pollutant of extraneous air.This filter 11 needs periodically changed or cleaned.

Air inlet place band one air door 12 of this air exhausting device, for a plurality of blades 13 form, and can rotate to regulate air inlet size by sharf.

During work, when base station indoor temperature higher and indoor, when the outer temperature difference is larger when above (be conventionally greater than 5 degree), when the temperature sensor of intelligent heat exchange system records indoor/outdoor temperature-difference over setting value, host PC or PLC will start the blower fan of this air-intake device and exhaust apparatus, make to bring into operation, due to the characteristic of air be hotter atmospheric density compared with low level in upper strata, a colder atmospheric density high position is in lower floor, thereby be positioned at upper end air exhausting device blower fan discharge chamber be positioned at top hot-air, lower end air-intake device blower fan suction is positioned at the outdoor cold air that is positioned at lower to be made indoor cooling.

Be positioned at the positive basifacial of air-intake device with a LCDs 14 for Current Temperatures inside and outside display room and air quantity, also can set pattern manually or automatically.During automatic mode, can set the opening time, and the temperature difference is enabled or stops using when how much spending.

The area of upper end air exhausting device can be larger compared with lower end air-intake device area, is more conducive to hot-air and discharges and the cold temperature of indoor maintenance, or the air door of air inlet 12 is turned down.

As shown in Figure 5 and Figure 6, air-intake device housing and/or described air exhausting device housing are also respectively with an air intake cover 15 and an exhaust hood 16, and the opening up air intake cover 15 of exhaust hood 16 is opening down.

Fig. 7 and Fig. 8 represent the detachable screen pack 17 of the intelligent heat exchange system of the detachable foam screen pack of the utility model band, by backing out the detachable screen pack 17 of knockout screw 18, can take off easily cleaning or replace.On detachable screen pack, with detachable foam, by glue, pasted on screen pack or by the mode clamping up and down and fixed, this foam is disposable, after using a period of time, can replace.

As shown from the above technical solution, the utlity model has following beneficial effect:

1. consume 1/10 electric energy of traditional air-conditioning, compressor-free, without chemical refrigerant for equipment provides continuous, stable running environment, guarantees the energy-efficient operation of unit simultaneously;

2. reliability is high, and the life-span is long;

3. with air filtering function, and easily change screen pack or foam.

Claims (8)

1. with an intelligent heat exchange system for detachable foam screen pack, comprising: an air-intake device, an air exhausting device and a temperature difference verifying attachment, and a control section,

Described air-intake device comprises:

One air-intake device housing, described air-intake device housing band one air inlet and an air outlet, described air inlet is positioned at outdoor, and described air outlet is positioned at indoor;

One blower fan is positioned at described air-intake device housing, and the air intake vent of described blower fan is positioned at the air inlet side of described housing, and the air outlet of described blower fan is positioned at the air outlet side of described housing, and two ends are in the sealed at both ends connection of housing;

Described air exhausting device comprises:

One air exhausting device housing, described air exhausting device housing band one air inlet and an air outlet, described air inlet is positioned at indoor, and described air outlet is positioned at outdoor;

One blower fan is positioned at described air exhausting device housing, and the air intake vent of described blower fan is positioned at the air inlet side of described housing, and the air outlet of described blower fan is positioned at the air outlet side of described housing, and two ends are in the sealed at both ends connection of housing;

Described temperature difference verifying attachment comprises:

One indoor temperature test section, and an outdoor temperature test section, and pass to a control section;

Described control section receives the data of described temperature difference verifying attachment, and according to the temperature difference, controls the start and stop of described air-intake device and described exhaust apparatus;

It is characterized in that, a screen pack is with in the air inlet of described air-intake device and/or the air outlet of described air exhausting device inner side, on described screen pack with detachable foam.

2. the intelligent heat exchange system of the detachable foam screen pack of band as claimed in claim 1, is characterized in that, described screen pack is detachable.

3. the intelligent heat exchange system of the detachable foam screen pack of band as claimed in claim 1, is characterized in that, the blower fan of described air-intake device and/or described air exhausting device is centrifugal blower.

4. the intelligent heat exchange system of the detachable foam screen pack of band as claimed in claim 1, is characterized in that, described temperature detecting part is divided into temperature sensor.

5. the intelligent heat exchange system of the detachable foam screen pack of band as claimed in claim 1, is characterized in that, described control section starts described blower fan when indoor temperature is more than or equal to when outdoor temperature 5 is spent, and is less than 5 and stops described blower fan while spending.

6. the intelligent heat exchange system of the detachable foam screen pack of band as claimed in claim 1, is characterized in that, described air inlet place band one air door of described air exhausting device.

7. the intelligent heat exchange system of the detachable foam screen pack of band as claimed in claim 6, is characterized in that, a plurality of blades of described air door band, and described blade is with sharf and by sharf rotary damper size.

8. the intelligent heat exchange system of the detachable foam screen pack of band as claimed in claim 1, is characterized in that, described air-intake device housing and/or described air exhausting device housing are respectively with an air intake cover and an exhaust hood.

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