A kind of air displacement main frame with the automatic control of bypass
Technical field
The utility model relates to a kind of air displacement device, especially relates to a kind of air displacement main frame with the automatic control of bypass.
Background technology
The design of room air displacement main frame is to be used for improving IAQ, reduces indoor energy loss simultaneously, reduces the energy consumption of air-conditioning.But the operational mode of most air displacement main frame can not change and change along with outdoor environment.For example: need refrigeration when indoor, and outside temperature is lower than when indoor; Or heat when indoor needs, and outside air temperature is higher than when indoor, still carries out heat exchange in these cases will inevitably cause a large amount of air energy wastes and the loss of electric energy, has also accelerated wearing out of exchange kernel and blower fan simultaneously.
The utility model content
The purpose of this utility model is exactly the band bypass air displacement main frame of control automatically that provides a kind of in order to overcome the defective that above-mentioned prior art exists and reduce electric energy loss, improves service life.
The purpose of this utility model can be achieved through the following technical solutions:
A kind of air displacement main frame with the automatic control of bypass, it is characterized in that, this air displacement main frame is made of heat exchange kernel, fresh wind port, exhaust outlet, return air inlet, air outlet, by-passing valve and bypass passageways, described heat exchange kernel is a hexagonal structure, described exhaust outlet and fresh wind port are located at the right side of described heat exchange kernel, described return air inlet and air outlet are located at the left side of described heat exchange kernel, described by-pass line is located at the bottom of described heat exchange kernel, and described by-passing valve is located on the bypass passageways.
Described exhaust outlet is located at the top on described heat exchange kernel right side.
Described fresh wind port is located at the bottom on described heat exchange kernel right side.
Described air outlet is located at the top in described heat exchange kernel left side.
Described return air inlet is located at the bottom in described heat exchange kernel left side.
Compared with prior art, the utlity model has following advantage:
(1) effectively utilized air energy to reduce the loss of electric energy;
(2) easy-to-use, all adopt the Monitoring and Controlling technology of automation;
(3) effectively raise life-span of product.
Description of drawings
Structural representation when Fig. 1 opens situation for the utility model;
Structural representation when Fig. 2 closes situation for the utility model.
1 is that heat exchange kernel, 2 is that exhaust outlet, 3 is that fresh wind port, 4 is that return air inlet, 5 is that air outlet, 6 is that by-passing valve, 7 is a bypass passageways among the figure.
The specific embodiment
Below in conjunction with the drawings and specific embodiments the utility model is elaborated.
Embodiment
A kind of air displacement main frame with the automatic control of bypass, by the monitoring indoor and outdoor temperature, automatically control the unlatching of bypass and close the quality of regulating room air automatically, realize a large amount of energy-conservation, this air displacement main frame is by heat exchange kernel 1, exhaust outlet 2, fresh wind port 3, return air inlet 4, air outlet 5, by-passing valve 6 and bypass passageways 7 constitute, heat exchange kernel 1 is a hexagonal structure, exhaust outlet 2 and fresh wind port 3 are located at the right side of heat exchange kernel 1, wherein, exhaust outlet 2 is located at the top on heat exchange kernel 1 right side, fresh wind port 3 is located at the bottom on heat exchange kernel 1 right side, return air inlet 4 and air outlet 5 are located at the left side of heat exchange kernel 1, wherein, air outlet 5 is located at the top in heat exchange kernel 1 left side, return air inlet 4 is located at the bottom in heat exchange kernel 1 left side, and by-pass line 7 is located at the bottom of heat exchange kernel 1, and by-passing valve 6 is located on the bypass passageways 7.
Structure when the utility model is opened situation as shown in Figure 1, during normal the operation, new wind enters heat exchange kernel 1 from fresh wind port 3, air draft enters heat exchange kernel 1 from return air inlet 4, thereby carry out heat exchange in heat exchange kernel 1 inside, through after the heat exchange, new wind is sent from air outlet 5, and air draft is discharged from exhaust outlet 2.New wind obtains energy of exhaust air in the inside of heat exchange kernel 1, reaches purpose of energy saving.
Structure when the utility model is closed situation as shown in Figure 2, when not needing heat exchange, adopt the pattern of bypass, this moment, by-passing valve 6 was opened, simultaneously fresh wind port 3 is closed, new wind is directly sent into from the bypass air channel 7 of the bottom of heat exchange kernel 1, and air draft is discharged from exhaust outlet 2 through heat exchange kernel 1 from return air inlet 4.