CN201748561U - Base station intelligent energy-saving heat exchanger - Google Patents

Abstract

The utility model relates to a base station intelligent energy-saving heat exchanger which comprises a cabinet, and is characterized in that the middle in the cabinet is provided with a clapboard with a heat exchange core body; the middle of the front end surface of the cabinet is internally provided with an electrical apparatus control box hinged with a box cover and internally provided with a switch power supply, a main control panel and a GSM message communication template; a middle hole in the inner end surface of the box cover is provided with an LCD template with a display screen, and a key hole at the right end part is provided with a key operation panel with keys; the upper end part and the lower end part of the panel of the cabinet are provided with an indoor air inlet and an indoor air outlet with a centrifugal fan respectively; the upper end part and the lower end part of the rear panel at the rear end are provided with an outdoor air outlet with a centrifugal fan, and an outdoor air inlet respectively; the inner sides of the indoor air inlet and air outlet and the outdoor air inlet and air outlet are provided with indoor air inlet and air outlet temperature sensors and outdoor air inlet and air outlet temperature sensors; one side wall of the cabinet is sequentially provided with a radio frequency interface, a machine room monitoring system interface, an air-conditioning linkage output interface, an air-conditioning linkage feedback input interface and an alternating-current power supply input interface; and one end of the top surface of the cabinet is provided with a radio frequency antenna. The heat exchanger is applicable to communication base station machine rooms.

Description

Base station intelligent power saving heat exchange machine

Technical field:

The utility model relates to a kind of heat exchange machine, particularly relates to a kind of base station intelligent power saving heat exchange machine.

Background technology:

" communications industry 2008-2010 resources conservation and comprehensive utilization standard development program " proposes energy-saving and emission-reduction, and extremely urgent.And require further to work harder.

In communication base station room, according to analysis of statistical data, air-conditioning becomes the main current consuming apparatus in the communication base station room, the air-conditioning power consumption accounts for 42% of total power consumption, at the bigger situation of existing communication base station machine room power consumption consumption, the temperature controlled energy-saving potential of communication base station room is huge, the energy-conservation key of communication base station room is the air-conditioner temperature control system of improving in the communication base station room, under the prerequisite that does not change the communication base station room internal environment, as much as possible outdoor natural cooling source is introduced in the communication base station room, shorten air-conditioning service time, realize energy-conservation power savings.

Summary of the invention:

The purpose of this utility model is that a kind of base station intelligent power saving heat exchange machine will be provided, it not only can be introduced outdoor natural cooling source in the communication base station room effectively and lower the temperature, but also can make the control that links of base station intelligent power saving heat exchange machine and air-conditioning, shorten air-conditioning service time, realize energy-conservation power savings.In addition, it is simple in structure, and is easy to manufacture, easy to use.

In order to realize that above-mentioned purpose the utility model proposes following design: intelligent power saving heat exchange machine in base station of the present utility model comprises a cabinet cabinet, middle part in the described cabinet cabinet is provided with a dividing plate that is embedded with a heat exchange core body on it, the place is provided with the electric appliance control box that a hinge-coupled has case lid in the middle part of the positive end face of described cabinet cabinet, be provided with a Switching Power Supply in the described electric appliance control box from left to right successively, master board and GSM short message communication template, center on the inner face of described case lid is provided with a display screen installing hole, the place, right part is provided with key hole, described display screen installing hole place is provided with the LCD template of a band display screen, described display screen matches with the display screen installing hole, described key hole place is provided with the button operation plate of a band button, described button matches with key hole, described button from up to down is followed successively by function key, upturning key, downturning key, acknowledgement key, ESC Escape, on the panel of the positive end face of described cabinet cabinet, place, end, lower end is provided with an indoor air inlet respectively, indoor air outlet, on the backboard of described cabinet cabinet rear end face, place, end, lower end is provided with an outdoor air outlet respectively, outdoor air inlet, described indoor air outlet, the place, inboard of outdoor air outlet also is respectively equipped with an indoor air outlet centrifugal blower and outdoor air outlet centrifugal blower, described indoor air inlet, the place, inboard of indoor air outlet and outdoor air inlet also is respectively equipped with an indoor EAT sensor, indoor leaving air temp sensor and outdoor EAT sensor, be provided with radio frequency interface successively on one sidewall of described cabinet cabinet, the center monitoring system interface, air-conditioning interlock output interface, air-conditioning interlock feedback input interface and AC power input interface, one end place of the end face of described cabinet cabinet is provided with a radio-frequency antenna, temperature signal input interface Z1 in the described master board, temperature signal input interface Z2 and temperature signal input interface Z3 are respectively by cable and outdoor EAT sensor, the temperature signal output of indoor EAT sensor and indoor leaving air temp sensor is electrically connected, push button signalling input interface Z4 in the described master board is electrically connected with the switching value signal output interface of button operation plate by cable, switching value output interface Z5 in the described master board is electrically connected by the terminals of the interlock of the air-conditioning on cable and cabinet cabinet one sidewall output interface rear end, the terminals that switch value input interface Z6 in the described master board feeds back the input interface rear end by cable and the air-conditioning interlock on cabinet cabinet one sidewall are electrically connected, AC power input interface Z7 in the described master board is electrically connected by the terminals of the AC power input interface rear end on cable and cabinet cabinet one sidewall, dc source input interface Z8 in the described master board is electrically connected with the output interface of Switching Power Supply by cable, serial ports Z9 in the described master board is electrically connected with order and data-interface T1 on the GSM short message communication template by cable, serial ports Z10 in the described master board is electrically connected by the terminals of the center monitoring system interface rear end on cable and cabinet cabinet one sidewall, video interface Z11 in the described master board is electrically connected with control and data-interface on the LCD template by cable, outdoor air outlet centrifugal blower in the described master board drives interface Z12 and indoor air outlet centrifugal blower driving interface Z13 is electrically connected by the terminals of cable with outdoor air outlet centrifugal blower and indoor air outlet centrifugal blower respectively, short message data on described GSM short message communication template transmitting-receiving interface T2 is electrically connected by the terminals of the radio frequency interface rear end on cable and cabinet cabinet one sidewall, the front end of the radio frequency interface on cabinet cabinet one sidewall is electrically connected by the radio-frequency antenna of cable with cabinet cabinet end face one end, and the terminals of the AC power input interface rear end on described cabinet cabinet one sidewall also are electrically connected by the input interface of the Switching Power Supply in cable and the electric appliance control box.

Described heat exchange core body is reverse-flow aluminium platinum heat exchange core body.Described indoor air inlet, indoor air outlet, outdoor air outlet and outdoor air inlet place are provided with an indoor air inlet web plate, indoor air outlet web plate, outdoor air outlet web plate and outdoor air inlet web plate respectively.

Because the utility model in communication base station room, has increased base station intelligent power saving heat exchange machine, improve the air-conditioner temperature control system of base station machine room.As much as possible outdoor natural cooling source is introduced in the communication base station room, shortened air-conditioning service time, realize energy-conservation power savings.

Intelligent power saving heat exchange machine in base station of the present utility model is mainly by described heat exchange core body, indoor air outlet centrifugal blower, outdoor air outlet centrifugal blower, indoor EAT sensor, indoor leaving air temp sensor, outdoor EAT sensor, master board, GSM short message communication template and other installation components are formed, base station of the present utility model intelligent power saving heat exchange machine and utilized existing single chip microcontroller, GSM short message communication template, employed software is design voluntarily, and also can reach the transmission or the reception of short message, described master board is a single chip microcontroller, and described heat exchange core body is reverse-flow aluminium foil heat exchange core body.

Intelligent power saving heat exchange machine in base station of the present utility model adopts the heat exchange cooling technology, higher and the base station machine room of temperature in base station machine room indoor, when the outer temperature difference is big, base station intelligent power saving heat exchange machine enters the heat exchange running status, hot-air in the base station machine room and cool ambient air are by the reverse-flow aluminium foil heat exchange core body heat exchange of setting-in on the dividing plate at middle part in the cabinet cabinet, and utilize the interior indoor air outlet centrifuge of cabinet cabinet to make the indoor air inlet of indoor Hot air quilt inhalation machine bin, enter in the inner chamber of dividing plate front end, and by after the heat exchange of reverse-flow aluminium foil heat exchange core body, become in colder air and the indoor air outlet supply chamber by the cabinet cabinet, and outdoor cold air is inhaled into the outdoor air inlet of cabinet cabinet by the outdoor air outlet centrifugal blower in the cabinet cabinet, enter in the inner chamber of dividing plate rear end, after the heat exchange of reverse-flow aluminium foil heat exchange core body, the outdoor air outlet that becomes hot air and slave bin is discharged outdoor.

Air-conditioning interlock output interface on cabinet cabinet one sidewall, after relevant interface air-conditioning switch on air-conditioning interlock feedback input interface and the supporting air-conditioning equipment and wind pressure type sensor electrical are connected, by master board, indoor EAT sensor, indoor leaving air temp sensor and outdoor EAT sensor are realized base station intelligent power saving heat exchange machine and air-conditioning interlock control mode adjusting indoor temperature, when the temperature of base stations detected machine room indoor and outdoor, when indoor temperature at 28 ℃～35 ℃, and, the indoor and outdoor temperature difference is during greater than 8 ℃, intelligent power saving heat exchange machine in base station starts, and close air-conditioning, when indoor temperature during greater than 35 ℃, starting of air conditioner, and close base station intelligent power saving heat exchange machine, when the indoor levels air temperature difference during greater than 5 ℃, air outlet centrifuge in the opening chamber, carry out interior circulation, when indoor temperature during less than 28 ℃, base station intelligent power saving heat exchange machine and air-conditioning quit work simultaneously.

Generally speaking, base station intelligent power saving heat exchange machine is by the simple transformation to the base station building, base station intelligent power saving heat exchange machine with intelligent logical control, make full use of communication base station room inside, the external environment condition temperature difference, the cold and hot air heat exchange in realization communication base station room inside and outside is lowered the temperature, the reverse-flow aluminium platinum heat exchange core body that adopts makes indoor-outdoor air isolated fully, avoid room air to be subjected to the pollution of outdoor air, and the running status by interlock control communication base station room air-conditioning, reach and reduce the communication base station room operation of air conditioner time, reduce the purpose of base station machine room air conditioning energy consumption.

Description of drawings:

Concrete structure of the present utility model is provided by following embodiment and accompanying drawing thereof.

Fig. 1 is that the master of intelligent power saving heat exchange machine in base station of the present utility model looks schematic diagram.

Fig. 2 is the schematic rear view of intelligent power saving heat exchange machine in base station of the present utility model.

Fig. 3 is the internal structure schematic diagram of intelligent power saving heat exchange machine in base station of the present utility model.

Fig. 4 is the schematic diagram of the electric appliance control box case lid of intelligent power saving heat exchange machine in base station of the present utility model when opening.

Fig. 5 is that schematic diagram is looked on the right side of intelligent power saving heat exchange machine in base station of the present utility model.

Fig. 6 is the master board schematic diagram of intelligent power saving heat exchange machine in base station of the present utility model.

Fig. 7 is the GSM short message communication template schematic diagram of intelligent power saving heat exchange machine in base station of the present utility model.

Fig. 8 is the user mode reference diagram of intelligent power saving heat exchange machine in base station of the present utility model.

The specific embodiment:

Below with reference to accompanying drawing intelligent power saving heat exchange machine in base station of the present utility model is described in further detail.

With reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7 and Fig. 8, the base station intelligent power saving heat exchange machine of this utility model includes a cabinet cabinet 1.

One end place of the end face of described cabinet cabinet 1 is provided with a radio-frequency antenna 29.

Be provided with radio frequency interface 24, center monitoring system interface 25, air-conditioning interlock output interface 26, air-conditioning interlock feedback input interface 27 and AC power input interface 28 on described cabinet cabinet 1 one sidewalls successively.

Middle part in the described cabinet cabinet 1 is provided with a dividing plate 3, is embedded with a heat exchange core body 2 on the described dividing plate 3, and described heat exchange core body 2 is reverse-flow aluminium platinum heat exchange core body.

On the panel of described cabinet cabinet 1 positive end face, place, end, lower end is provided with an indoor air inlet 15 respectively, indoor air outlet 16, on the backboard of described cabinet cabinet 1 rear end face, place, end, lower end is provided with an outdoor air outlet 17 respectively, outdoor air inlet 18, described indoor air outlet 16, the place, inboard of outdoor air outlet 17 also is respectively equipped with an indoor air outlet centrifugal blower 19 and outdoor air outlet centrifugal blower 20, described indoor air inlet 15, the place, inboard of indoor air outlet 16 and outdoor air inlet 18 also is respectively equipped with an indoor EAT sensor 21, indoor leaving air temp sensor 22 and outdoor EAT sensor 23, described indoor air inlet 15, indoor air outlet 16, outdoor air outlet 17 and outdoor air inlet 18 places are provided with an indoor air inlet web plate 30 respectively, indoor air outlet web plate 31, outdoor air outlet web plate 32 and outdoor air inlet web plate 33.

The place is provided with the electric appliance control box that a hinge-coupled has case lid in the middle part of described cabinet cabinet 1 positive end face, center on the inner face of described case lid is provided with a display screen installing hole, the place, right part is provided with key hole, described display screen installing hole place is provided with the LCD template 7 of a band display screen 8, described display screen 8 matches with the display screen installing hole, described key hole place is provided with the button operation plate 9 of a band button, described button matches with key hole, described button from up to down is followed successively by function key 10, upturning key 11, downturning key 12, acknowledgement key 13, ESC Escape 14 is provided with a Switching Power Supply 4 from left to right successively in the described electric appliance control box, master board 5 and GSM short message communication template 6.

Temperature signal input interface Z1, temperature signal input interface Z2 in the described master board 5 and temperature signal input interface Z3 are electrically connected by the temperature signal output of cable with outdoor EAT sensor 23, indoor EAT sensor 21 and indoor leaving air temp sensor 22 respectively.

Push button signalling input interface Z4 in the described master board 5 is electrically connected with the switching value signal output interface of button operation plate 9 by cable.

Switching value output interface Z5 in the described master board 5 is electrically connected by the terminals of the interlock of the air-conditioning on cable and cabinet cabinet 1 one sidewalls output interface 26 rear ends.

The terminals that switch value input interface Z6 in the described master board 5 feeds back input interface 27 rear ends by cable and the air-conditioning interlock on cabinet cabinet 1 one sidewalls are electrically connected.

AC power input interface Z7 in the described master board 5 is electrically connected by the terminals of AC power input interface 28 rear ends on cable and cabinet cabinet 1 one sidewalls.

Dc source input interface Z8 in the described master board 5 is electrically connected by the output interface of cable with Switching Power Supply 4.

Serial ports Z9 in the described master board 5 is electrically connected with the order and the data-interface T1 of GSM short message communication template 6 by cable.

Serial ports Z10 in the described master board 5 is electrically connected by the terminals of center monitoring system interface 25 rear ends on cable and cabinet cabinet 1 one sidewalls.

Video interface Z11 in the described master board 5 is electrically connected with control and data-interface on the LCD template 7 by cable.

Outdoor air outlet centrifugal blower in the described master board 5 drives interface Z12 and indoor air outlet centrifugal blower driving interface Z13 is electrically connected by the terminals of cable with outdoor air outlet centrifugal blower 20 and indoor air outlet centrifugal blower 19 respectively.

Short message data on the described GSM short message communication template 6 transmitting-receiving interface T2 is electrically connected by the terminals of radio frequency interface 24 rear ends on cable and cabinet cabinet 1 one sidewalls.The front end of the radio frequency interface 24 on cabinet cabinet 1 one sidewalls is electrically connected by the radio-frequency antenna 29 of cable with cabinet cabinet 1 end face one end.

The terminals of AC power input interface 28 rear ends on described cabinet cabinet 1 one sidewalls also are electrically connected by the input interface of the Switching Power Supply 4 in cable and the electric appliance control box.

The use of intelligent power saving heat exchange machine in base station of the present utility model, base station intelligent power saving heat exchange machine and air-conditioning adopt interlock control, the existing start of air-conditioning key is transformed, mode with dry contact is controlled air-conditioning, dispose a wind pressure type sensor at air conditioning air outlet, detect as backfeed loop, air-conditioning is reliably controlled with assurance.Earlier the interlock of the air-conditioning on cabinet cabinet 1 one sidewalls output interface 26, air-conditioning interlock feedback input interface 27 are connected with relevant interface air-conditioning switch and wind pressure type sensor electrical on the supporting air-conditioning equipment respectively, again AC power input interface 28 front ends are electrically connected with civil power.Its course of work is as follows: by pressing key assignments complete machine operational factor, at first, by after the function key 10, enter an interface, the input password is pressed acknowledgement key 13, after enter the function menu interface, then, press upturning key 11, downturning key 12 again, the selection parameter is set, press acknowledgement key 13 again, enter parameter and set the interface, last, parameter is set and is comprised when opening base station intelligent power saving heat exchange machine corresponding indoor and outdoor temperature range; When opening air-conditioning, corresponding indoor and outdoor temperature range, indoor high temperature alarm temperature range, indoor air outlet centrifugal blower 19 and outdoor air outlet centrifugal blower 20 minimum running time and operational modes, after having set operational factor, be withdrawn into the starting up interface, enter running status.And the inside and outside temperature of automatic sensing chamber of system, according to different temperature values, judge, enter corresponding operational mode, comprise in the opening chamber air outlet centrifugal blower 19 and outdoor air outlet centrifugal blower 20 and close air-conditioning, air outlet centrifugal blower 19, outdoor air outlet centrifugal blower 20 and unlatching air-conditioning in the close chamber, simultaneously air outlet centrifugal blower 19, outdoor air outlet centrifugal blower 20 and air-conditioning in the close chamber, so that indoor temperature drops to setting value, reach energy-conservation purpose by reducing the operation of air conditioner time.The inside and outside temperature of automatic sensing chamber, indoor air outlet centrifugal blower 19, outdoor air outlet centrifugal blower 20, indoor EAT sensor 21, indoor leaving air temp sensor 22 and outdoor EAT sensor 23 failure conditions in the base station intelligent power saving heat exchange machine running, and on display screen 8, show indoor temperature and running state information, as refrigeration, air-supply and standby etc.Any equipment of base station intelligent power saving heat exchange machine and air-conditioning breaks down, all another equipment of enforced opening.Intelligent power saving heat exchange machine in base station, no matter how many indoor and outdoor temperature is can be avoided indoor air outlet centrifugal blower 19 and outdoor air outlet centrifugal blower 20 frequently to open like this, thereby prevent the lost of life in case unlatching will move a period of time.

Intelligent power saving heat exchange machine in base station of the present utility model also can be electrically connected the center monitoring system interface 25 on cabinet cabinet 1 one sidewalls with the base station machine room monitoring system, base station intelligent power saving heat exchange machine and can include the base station machine room monitoring system in, but uploading device running state information, comprise indoor air outlet centrifugal blower 19, outdoor air outlet centrifugal blower 20, indoor EAT sensor 21, indoor leaving air temp sensor 22 and outdoor EAT sensor 23 faults are to the center monitoring system, and the machine room information that passes under the reception base station machine room monitoring system, comprise that power of computer room powers on, power down information, the running status of air-conditioning etc., base station intelligent power saving heat exchange machine carries out corresponding actions according to corresponding information, comprise positive closing base station intelligent power saving heat exchange machine and air-conditioning, or arbitrary equipment in enforced opening base station intelligent power saving heat exchange machine and the air-conditioning.

Intelligent power saving heat exchange machine in base station of the present utility model also can also can communicate base station intelligent power saving heat exchange machine and backstage long distance control system by the GSM short message way.Base station intelligent power saving heat exchange machine timed sending self-operating status information and energy-conservation data are to the backstage long distance control system, when the backstage long distance control system learns that by analysis base station intelligent power saving heat exchange machine breaks down, can report to the police automatically and close base station intelligent power saving heat exchange machine by short message.

The behaviour in service of intelligent power saving heat exchange machine in base station of the present utility model can be selected earlier and be carried out, and also can carry out simultaneously.

Intelligent power saving heat exchange facility in base station of the present utility model have back-up source that function is provided, and after the power of computer room power down, master board 5 has only temperature detection, state to show and the GSM Short Message Mobile Originated by the reserve lithium battery power supply this moment.Base station intelligent power saving heat exchange machine has self-starting function, preserves operational factor in the running, enters power down state before after re-powering automatically.

Claims (3)

1. base station intelligent power saving heat exchange machine, it comprises a cabinet cabinet (1), it is characterized in that middle part in the described cabinet cabinet (1) is provided with a dividing plate (3) that is embedded with a heat exchange core body (2) on it, the place is provided with the electric appliance control box that a hinge-coupled has case lid in the middle part of the positive end face of described cabinet cabinet (1), be provided with a Switching Power Supply (4) in the described electric appliance control box from left to right successively, master board (5) and GSM short message communication template (6), center on the inner face of described case lid is provided with a display screen installing hole, the place, right part is provided with key hole, described display screen installing hole place is provided with the LCD template (7) of a band display screen (8), described display screen (8) matches with the display screen installing hole, described key hole place is provided with the button operation plate (9) of a band button, described button matches with key hole, described button from up to down is followed successively by function key (10), upturning key (11), downturning key (12), acknowledgement key (13), ESC Escape (14), on the panel of the positive end face of described cabinet cabinet (1), place, end, lower end is provided with an indoor air inlet (15) respectively, indoor air outlet (16), on the backboard of described cabinet cabinet (1) rear end face, place, end, lower end is provided with an outdoor air outlet (17) respectively, outdoor air inlet (18), described indoor air outlet (16), the place, inboard of outdoor air outlet (17) also is respectively equipped with an indoor air outlet centrifugal blower (19) and outdoor air outlet centrifugal blower (20), described indoor air inlet (15), the place, inboard of indoor air outlet (16) and outdoor air inlet (18) also is respectively equipped with an indoor EAT sensor (21), indoor leaving air temp sensor (22) and outdoor EAT sensor (23), be provided with radio frequency interface (24) on one sidewall of described cabinet cabinet (1) successively, center monitoring system interface (25), air-conditioning interlock output interface (26), air-conditioning interlock feedback input interface (27) and AC power input interface (28), one end place of the end face of described cabinet cabinet (1) is provided with a radio-frequency antenna (29), temperature signal input interface Z1 in the described master board (5), temperature signal input interface Z2 and temperature signal input interface Z3 are respectively by cable and outdoor EAT sensor (23), the temperature signal output of indoor EAT sensor (21) and indoor leaving air temp sensor (22) is electrically connected, push button signalling input interface Z4 in the described master board (5) is electrically connected by the switching value signal output interface of cable with button operation plate (9), switching value output interface Z5 in the described master board (5) is electrically connected by the terminals of the interlock of the air-conditioning on cable and cabinet cabinet (1) one sidewall output interface (26) rear end, the terminals that switch value input interface Z6 in the described master board (5) feeds back input interface (27) rear end by cable and the air-conditioning interlock on cabinet cabinet (1) one sidewall are electrically connected, AC power input interface Z7 in the described master board (5) is electrically connected by the terminals of AC power input interface (28) rear end on cable and cabinet cabinet (1) one sidewall, dc source input in the described master board (5) meets Z8 and is electrically connected by the output interface of cable with Switching Power Supply (4), serial ports Z9 in the described master board (5) is electrically connected with order and data-interface T1 on the GSM short message communication template (6) by cable, serial ports Z10 in the described master board (5) is electrically connected by the terminals of center monitoring system interface (25) rear end on cable and cabinet cabinet (1) one sidewall, video interface Z11 in the described master board (5) is electrically connected with control and data-interface on the LCD template (7) by cable, outdoor air outlet centrifugal blower driving interface Z12 in the described master board (5) and the driving of indoor air outlet centrifugal blower meet Z13 and are electrically connected by the terminals of cable with outdoor air outlet centrifugal blower (20) and indoor air outlet centrifugal blower (19) respectively, the transmitting-receiving of short message data on the described GSM short message communication template (6) meets T2 and is electrically connected by the terminals of radio frequency interface (24) rear end on cable and cabinet cabinet (1) one sidewall, the front end of the radio frequency interface (24) on cabinet cabinet (1) one sidewall is electrically connected by the radio-frequency antenna (29) of cable with cabinet cabinet (1) end face one end, and the terminals of AC power input interface (28) rear end on described cabinet cabinet (1) one sidewall also are electrically connected by the input interface of the Switching Power Supply (4) in cable and the electric appliance control box.

2. intelligent power saving heat exchange machine in base station according to claim 1 is characterized in that described heat exchange core body (2) is reverse-flow aluminium platinum heat exchange core body.

3. intelligent power saving heat exchange machine in base station according to claim 1 is characterized in that described indoor air inlet (15), indoor air outlet (16), outdoor air outlet (17) and outdoor air inlet (18) locate to be provided with respectively an indoor air inlet web plate (30), indoor air outlet web plate (31), outdoor air outlet web plate (32) and outdoor air inlet web plate (33).

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