TWI525258B - A temperature regulating device - Google Patents

Description

Fan temperature control device

The present invention relates to a fan, and more particularly to a temperature regulating device related to a fan.

In the hot summer, people often use air-conditioners to reduce the ambient temperature, or use fans to increase air circulation to improve the sultry situation. Although the cooling effect of the air conditioner is excellent, its cost and power consumption far exceed the fan, which is not in line with the concept of energy conservation. Although the power consumption of the fan is smaller than that of the air conditioner, the fan's air temperature cannot be changed, and it is difficult to adjust the ambient temperature effectively, even if the fan still feels stuffy.

Moreover, in cold climates, people generally use electric heaters or electric heaters to raise the ambient temperature. Since the electric heating furnace or the electric heating fan is mostly a quartz tube as a heating source, the quartz tube will burn oxygen, which is likely to cause insufficient oxygen in the room, and the electric heating furnace or the electric heating fan will continue to rise in the long-term use temperature, and Accidents that can easily lead to fires.

Therefore, the purpose of the present invention is to provide an energy-saving and safe fan temperature regulating device for adjusting the fan outlet temperature so that the fan can blow cold air and warm air to adjust the ambient temperature.

The technical means for solving the problems of the prior art provides a temperature regulating device, which is disposed on a fan. The temperature regulating device comprises: a pneumatic mechanism for outputting a compressed gas; and a vortex tube having a a gas port, and a hot gas discharge port and a cold air discharge port connected to the air inlet, the air inlet is connected to the air pressure mechanism to receive the compressed gas, and the hot gas is discharged from the hot gas discharge port After the compressed gas passes through the vortex tube, a hot gas gas having a temperature higher than the compressed gas is output, and the compressed gas is passed through the vortex tube from the cold air discharge port to output a cold air gas having a temperature lower than the compressed gas; The hot gas accelerating mechanism has a hot gas outlet, the hot gas accelerating mechanism is connected to the hot gas discharge port of the vortex tube and the air pressure mechanism, so that the compressed gas merges with the hot gas and is derived from the hot gas outlet as a high flow rate a hot gas gas; a cold air accelerating mechanism having a cold air outlet, the cold air accelerating mechanism confluently connecting the cold air discharge port of the vortex tube and the air pressure mechanism, and the compressed gas is merged with the cold air gas to be derived from the cold air outlet a high flow rate cold gas; and an output mechanism connecting the hot gas outlet of the hot gas acceleration mechanism and the cold air outlet of the cold air acceleration mechanism, the output mechanism comprising a temperature regulating gas outlet and an exhaust gas outlet, wherein The high-flow hot gas and the high-flow cold gas are mixed into a temperature-regulating gas at a predetermined ratio from the adjustment Output to a gas outlet channel of the blower fan to adjust the air temperature of the fan, and the preset hot gas other than the high flow rate and the ratio of the air-gas output from the high flow rate of the exhaust gas outlet.

In an embodiment of the invention, a temperature regulating device is provided. The output mechanism includes a flow regulating valve having a first input end, a second input end, and an adjustment output end. The first input end is connected. The second input end is connected to the cold air outlet of the cold air accelerating mechanism, and the regulating output end is connected to the temperature regulating gas output port of the output mechanism.

In an embodiment of the invention, a temperature regulating device is provided. The flow regulating valve is a three-way valve, and the regulating output end is configured to switch between the first input end and the second input end.

In an embodiment of the present invention, a temperature regulating device is provided, the output mechanism includes a three-way valve connected between the hot gas outlet, the temperature regulating gas output port and the exhaust gas output port, or connected The cold air outlet, the temperature control gas output port and the exhaust gas output port.

In an embodiment of the present invention, there is provided a temperature regulating device having a straight pipe portion and a inclined pipe portion obliquely connected to the straight pipe portion, wherein the hot gas discharge port of the vortex tube is connected to The straight pipe portion is connected to the inclined pipe portion.

In an embodiment of the present invention, there is provided a temperature regulating device having a straight pipe portion and a inclined pipe portion obliquely connected to the straight pipe portion, wherein the cold air discharge port of the vortex tube is connected to The straight pipe portion is connected to the inclined pipe portion.

In an embodiment of the invention, a temperature regulating device is provided, further comprising a pressure adjusting mechanism, a compressed gas line disposed between the air pressure mechanism and the air inlet of the vortex tube.

In an embodiment of the invention, a temperature regulating device is provided, further comprising a pressure adjusting mechanism, a compressed gas line disposed between the air pressure mechanism and the cold air acceleration mechanism and the hot gas acceleration mechanism.

The temperature regulating device of the present invention has the following effects. By the temperature control device installed in the fan, the cold air gas and the hot gas generated by the vortex tube in the temperature control device and the hot and cold gas distribution by other mechanisms can be used to make the fan emit air at various required temperatures. In addition, the temperature regulating device generates a cold and hot gas by the compressed gas, and has the advantages of very low power consumption and no consumption of oxygen compared with the conventional cold air, electric heating furnace and electric heating fan.

100‧‧‧temperature control device

1‧‧‧Air compressor

2‧‧‧Vortex tube

21‧‧‧Air inlet

22‧‧‧hot air outlet

23‧‧‧Air-conditioning outlet

3‧‧‧hot gas acceleration mechanism

31‧‧‧hot gas outlet

32, 42‧‧‧ Straight Tube Department

33, 43‧‧‧ oblique tube

4‧‧‧Air-conditioning acceleration mechanism

41‧‧‧Cold air outlet

5‧‧‧Output agency

51‧‧‧ thermostat gas outlet

52‧‧‧Exhaust gas outlet

53, 54‧‧‧ flow control valve

531, 541‧‧‧ first input

532, 542‧‧‧ second input

533‧‧‧Adjustment output

543‧‧‧Exhaust output

55, 56‧‧‧ three-way valve

6, 7‧‧‧ Pressure regulating mechanism

8‧‧‧shell

F‧‧‧Fan

G1, G2, G3, G4, G5, G6, G7‧‧ gases

I‧‧‧ air inlet

L1, L2‧‧‧ compressed gas pipeline

O‧‧‧air outlet

Fig. 1 is a schematic view showing a temperature regulating device according to an embodiment of the present invention.

Fig. 2 is a schematic view showing the temperature regulating device of Fig. 1 disposed on a fan.

Fig. 3 is a schematic view showing a temperature regulating device according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to Figs. 1 to 3 . This description is not intended to limit the embodiments of the invention, but is an embodiment of the invention.

As shown in FIG. 1 and FIG. 2, a temperature regulating device 100 according to an embodiment of the present invention is disposed in a fan F. The temperature regulating device 100 includes: a air pressure for outputting a compressed gas G1. The mechanism 1, a vortex tube 2, a hot gas acceleration mechanism 3, a cold air acceleration mechanism 4, and an output mechanism 5.

The vortex tube 2 has an air inlet 21, a hot gas discharge port 22 communicating with the air inlet 21, and a cold air discharge port 23, and the air inlet port 21 is connected to the air compressor 1 to receive the compressed gas G1. The compressed gas G1 is passed through the vortex tube 2 from the hot gas discharge port 22 to output a hot gas G2 having a temperature higher than the compressed gas G1, and the compressed gas G1 is passed through the vortex tube 2 from the cold air discharge port 23. Thereafter, a cold gas G3 whose temperature is lower than the compressed gas G1 is discharged.

The hot gas acceleration mechanism 3 has a hot gas outlet 31. The hot gas accelerating mechanism 3 is connected to the hot gas discharge port 22 of the vortex tube 2 and the air compressor 1 to make the compressed gas G1 merge with the hot gas G2 and derive from the hot gas outlet 31 as a high flow rate hot gas G4. .

The cold air acceleration mechanism 4 has a cold air outlet 41. The cold air accelerating mechanism 4 is connected to the cold air discharge port 23 of the vortex tube 2 and the air compressor 1 to make the compressed gas G1 merge with the cold air gas G3 and is led out from the cold air outlet 41 as a high flow rate cold gas G5. .

The output mechanism 5 is connected to the hot gas outlet 31 of the hot gas acceleration mechanism 3 and the cold air outlet 41 of the cold air acceleration mechanism 4. The output mechanism 5 includes a temperature control gas output port 51 and an exhaust gas output port 52. The output mechanism 5 is configured to mix the high-flow hot gas G4 and the high-flow cold gas G5 into a temperature control gas G6 at a predetermined ratio, and output from the temperature control gas output port 51 to a air supply passage of the fan F to adjust The exhaust air temperature of the fan F is output from the exhaust gas output port 52 of the high-flow hot gas G4 having the predetermined ratio and the high-flow cold gas G5. In the present embodiment, the temperature control gas output port 51 is disposed at the air inlet I of the fan F. Of course, the temperature control gas output port 51 may also be disposed at the air outlet O of the fan F.

As shown in Fig. 1, according to the temperature regulation device 100 of the embodiment of the present invention, the hot gas acceleration mechanism 3 has a straight tube portion 32 and a skewed tube portion 33 which is obliquely connected to the straight tube portion 32. The hot gas discharge port 22 of the vortex tube 2 is connected to the straight pipe portion 32, and the air compressor 1 is connected to the inclined pipe portion 33. The hot gas acceleration mechanism 3 causes the compressed air G1 to be inclined and the hot air by the inclined pipe portion 33. The high-flow hot gas G4 can be derived by confluent gas G2.

As shown in Fig. 1, according to the temperature regulation device 100 of the embodiment of the present invention, the cold air acceleration mechanism 4 has a straight tube portion 42 and a skewed tube portion 43 which is obliquely connected to the straight tube portion 42. The cold air discharge port 23 of the vortex tube 2 is connected to the straight pipe portion 42, and the air pressure mechanism 1 is connected to the inclined pipe portion 43. The cold air accelerating mechanism 4 is configured such that the compressed air G1 is converge toward the cold air gas G3 by the inclined pipe portion 43, and the high-flow cold air gas G5 can be derived.

As shown in Fig. 1, according to the temperature regulating device 100 of the embodiment of the present invention, the output mechanism 5 includes two flow regulating valves 53, 54.

The flow regulating valve 53 has a first input end 531, a second input end 532, and a regulating output end 533. The first input end 531 is connected to the hot gas outlet 31 of the hot gas accelerating mechanism 3, the second input end 532 is connected to the cold air outlet 41 of the cold air accelerating mechanism 4, and the regulating output end 533 is connected to the temperature regulating gas of the output mechanism 5. Output port 51. In detail, the flow regulating valve 53 is a three-way valve, and the regulating output end 533 is configured to switch between the first input end 531 and the second input end 532. When the flow regulating valve 53 is switched to connect the regulating output end 533 to the first input end 531, the high-flow hot gas G4 derived from the hot gas outlet port 31 is output from the regulating flow via the flow regulating valve 53. The end 533 outputs to increase the outlet temperature of the fan F.

When the flow regulating valve 53 is switched to connect the regulating output end 533 to the second input end 532, the high-flow cold gas G5 derived from the cold air outlet 41 is output from the regulating flow via the flow regulating valve 53. The end 533 outputs to lower the outlet temperature of the fan F. Of course, the invention is not limited thereto. The flow regulating valve 53 may be a gas flow regulating valve, and the high-flow hot gas G4 introduced into the flow regulating valve 53 from the hot gas outlet port 31 and the flow regulating valve 53 may be introduced from the cold air outlet 41. The ratio of the high flow rate cold gas G5.

The flow regulating valve 54 has a first input end 541, a second input end 542, and an exhaust gas output end 543. The first input end 531 is connected to the hot gas export of the hot gas acceleration mechanism 3 The port 31, the second input end 532 is connected to the cold air outlet 41 of the cold air accelerating mechanism 4, and the regulating output end 543 is connected to the exhaust gas output port 52 of the output mechanism 5. For example, the flow regulating valve 54 can be a three-way valve.

As shown in Fig. 1, according to the temperature regulating device 100 of the embodiment of the present invention, the output mechanism 5 includes two three-way valves 55, 56. The three-way valve 55 is connected between the hot gas outlet port 31, the temperature regulating gas output port 51 and the exhaust gas output port 52, and the high-flow hot gas G4 derived from the hot gas outlet port 31 flows into the flow rate adjustment. Valve 53. The three-way valve 56 is connected between the cold air outlet 41, the temperature control gas output port 51, and the exhaust gas output port 52.

Specifically, as shown in FIG. 2, the temperature regulating device 100 includes a casing 8 for accommodating the air compressor 1, the vortex tube 2, the hot gas acceleration mechanism 3, and the cold air acceleration mechanism 4, The flow regulating valves 53, 54 and the three-way valves 55, 56 facilitate the movement or installation of the temperature regulating device 100.

As shown in FIG. 1, the temperature regulating device 100 according to this embodiment of the present invention further includes a pressure adjusting mechanism 6. The pressure adjusting mechanism 6 is disposed in a compressed gas line L1 between the air compressor 1 and the intake port 21 of the vortex tube 2. In detail, the pressure adjusting mechanism 6 is a pressure regulating valve.

As shown in FIG. 2, a temperature regulating device 100a according to another embodiment of the present invention is substantially the same as the temperature regulating device 100, and the same portions will not be described again. The difference is that the temperature adjustment device 100a includes another pressure adjustment mechanism 7, a compressed gas line L2 disposed between the air pressure mechanism 1 and the cold air acceleration mechanism 4 and the hot gas acceleration mechanism 3.

The above description and description are only illustrative of the preferred embodiments of the present invention, and those of ordinary skill in the art can make other modifications in accordance with the scope of the invention as defined below and the description above, but such modifications should still be It is within the scope of the invention to the invention of the invention.

100‧‧‧temperature control device

1‧‧‧Air compressor

2‧‧‧Vortex tube

21‧‧‧Air inlet

22‧‧‧hot air outlet

23‧‧‧Air-conditioning outlet

3‧‧‧hot gas acceleration mechanism

31‧‧‧hot gas outlet

32, 42‧‧‧ Straight Tube Department

33, 43‧‧‧ oblique tube

4‧‧‧Air-conditioning acceleration mechanism

41‧‧‧Cold air outlet

5‧‧‧Output agency

51‧‧‧ thermostat gas outlet

52‧‧‧Exhaust gas outlet

53, 54‧‧‧ flow control valve

531, 541‧‧‧ first input

532, 542‧‧‧ second input

533‧‧‧Adjustment output

543‧‧‧Exhaust output

55, 56‧‧‧ three-way valve

6‧‧‧Pressure adjustment mechanism

G1, G2, G3, G4, G5, G6, G7‧‧ gases

L1‧‧‧Compressed gas pipeline

Claims (8)

A temperature regulating device is disposed on a fan, the temperature regulating device comprises: an air pressure mechanism for outputting a compressed gas; a vortex tube having an air inlet, and a hot gas discharge port connecting the air inlet and a a cold air discharge port, the air inlet is connected to the air pressure mechanism to receive the compressed gas, and the compressed gas is passed through the vortex tube from the hot gas discharge port to output a hot gas gas having a temperature higher than the compressed gas, and The cold air discharge port passes the compressed gas through the vortex tube to output a cold air gas having a temperature lower than the compressed gas; a hot gas accelerating mechanism has a hot gas outlet, and the hot gas accelerating mechanism is connected to the hot gas row of the vortex tube. An outlet and the air compressor, wherein the compressed gas merges with the hot gas to be derived from the hot gas outlet as a high flow rate hot gas; a cold air acceleration mechanism has a cold air outlet, the cold accelerating mechanism confluently connects the vortex a cold air discharge port of the tube and the air pressure mechanism, wherein the compressed gas merges with the cold air gas and is led out from the cold air outlet to be a high flow rate cold a gas; and an output mechanism connecting the hot gas outlet of the hot gas acceleration mechanism and the cold air outlet of the cold air acceleration mechanism, the output mechanism comprising a temperature regulating gas output port and an exhaust gas output port, wherein the high flow rate hot gas is And the high-flow cold air gas is mixed into a temperature-regulating gas at a predetermined ratio, and is outputted from the temperature-regulating gas output port to a air supply passage of the fan to adjust an air outlet temperature of the fan, and the height is higher than a preset ratio. The flow rate hot gas and the high flow rate cold gas are output from the exhaust gas outlet. The temperature regulating device of claim 1, wherein the output mechanism comprises a flow regulating valve having a first input end, a second input end, and an adjustment output end, the first input end being connected to the hot gas The hot gas outlet of the acceleration mechanism is connected to the cold air outlet of the cold air acceleration mechanism, and the regulating output end is connected to the temperature regulating gas output port of the output mechanism. The temperature regulating device according to claim 2, wherein the flow regulating valve is a three-way valve, the adjusting The node output is configured to be switched in communication with the first input terminal and the second input terminal. The temperature regulating device of claim 2, wherein the output mechanism comprises a three-way valve connected between the hot gas outlet, the temperature regulating gas outlet and the exhaust gas outlet, or connected to the cold air guide. The outlet, the temperature regulating gas output port and the exhaust gas output port. The temperature regulating device according to claim 1, wherein the hot gas accelerating mechanism has a straight pipe portion and a inclined pipe portion obliquely connected to the straight pipe portion, and the hot gas discharge port of the vortex pipe is connected to the straight pipe The air compressor is connected to the inclined pipe portion. The temperature regulating device according to claim 1, wherein the cold air acceleration mechanism has a straight pipe portion and a inclined pipe portion obliquely connected to the straight pipe portion, and the cold air discharge port of the vortex pipe is connected to the straight pipe The air compressor is connected to the inclined pipe portion. The temperature regulating device according to claim 1, further comprising a pressure adjusting mechanism, a compressed gas line disposed between the air pressure mechanism and the air inlet of the vortex tube. The temperature regulating device according to claim 1, further comprising a pressure adjusting mechanism, a compressed gas line disposed between the air pressure mechanism and the cold air acceleration mechanism and the hot gas acceleration mechanism.