AUTOMATIC SHUTTER IN A MULTIPLE EXHAUST PORT DEVICE
A fan circulates air inside a device. A first exhaust port vents the circulated air out of the computing device. A second exhaust port also vents circulated air out of the computing device. A shutter automatically blocks one of the exhaust ports based on the physical orientation of the computing device.
Heated generated within a computing device is typically extracted via a heat exchanger and then vented out of a device exhaust port via a fan. A cool computing device typically runs more reliably and lasts longer than one that runs hot. Overheating of the internal components in a computing device can lead to data loss or even damage to the computing device itself.
The following description includes discussion of figures having illustrations given by way of example of implementations of embodiments of the invention.
When a user holds a portable computing device (e.g., a tablet or slate style notebook), the user can position the device in many different physical orientations (e.g., landscape mode, portrait mode, etc.). Frequently, one side of the computing device rests against or is facing the user's body. Depending on the orientation of the device, the thermal exhaust port on the device may become blocked or it may direct exhaust directly towards the user. As mentioned above, overheating of the internal components in a computing device can lead to data loss or even damage to computing device itself.
In various embodiments described herein, a portable computing device is endowed with multiple thermal exhaust ports. A shutter included in the fan housing of the computing device automatically rotates to block one of the thermal exhaust ports based on the physical orientation of the device. The shutter is designed to automatically block an exhaust port that is orientated downward (i.e., towards the ground). Indeed, an exhaust port on the downward-facing side of a computing device is prone to becoming blocked inasmuch as this side frequently rests against something (e.g., a user, furniture, etc.).
Coinciding with the blocking of one thermal exhaust port, the shutter opens a different thermal exhaust port (e.g., one that faces away from the user or object in contact with the computing device). Thus, for example, when the orientation of the computing device is changed (e.g., from portrait mode to landscape mode), the shutter automatically blocks the exhaust port facing the user while opening the exhaust port facing away from the user.
From the perspective of a user facing (e.g., while holding) the display screen 102 of device 100,
As described in more detail below, a shutter mechanism inside device 100 moves to block either exhaust port 110 or exhaust port 120 based on the orientation of device 100.
In the various embodiments described herein, the exhaust ports and/or outlets may be configured differently than shown in
In various embodiments, device 200 may include a heat exchanger 240 to transfer heat to the fan housing area of device 200. Fan 230 circulates air inside device 200. In many cases, including those where heat exchanger 240 is used, the air circulated by fan 230 may be heated air. Exhaust ports 210 and 220 vent the circulated air out of device 200. Thus, the combination of heat exchanger 240, fan 230 and exhaust ports 210 and 220 vent air (e.g., heated air) out of device 200.
In various embodiments, a gravity shutter 250 rotates around fan 210 using the same axis as fan 210. In alternate embodiments, gravity shutter 250 could rotate around a different axis than fan 210. As the name implies, gravity shutter 250 moves (e.g., rotates) based on gravity. Gravitational force pulls gravity shutter 250 downward in view of changing device orientation. For example, if exhaust port 210 is oriented downward (i.e., towards the ground), then gravity shutter 250 automatically rotates to block exhaust port 210. Concurrently, the blocking of exhaust port 210 causes exhaust port 220 to become unblocked. Thus, heat may be vented out of device 200 through exhaust port 220 when exhaust port is oriented downward and is blocked by shutter 250. Similarly, if a user is holding device 200 with exhaust port 220 oriented downward (e.g., towards the ground and/or against the user's lap), then gravity causes shutter 250 to move such that it blocks exhaust port 220, which concurrently opens exhaust port 210, again allowing heat to be vented in a direction away from the user.
In various embodiments, the shutter (e.g., shutter 450) may move in some manner other than by rotating around an axis. For example, a separate shutter could be placed between the fan and each exhaust port where the shutter is a hinged panel that flips up and down based on switch control, gravity, etc. Any other suitable shutter mechanism (or combination of shutter mechanisms) could be used to block exhaust ports based the orientation of the computing device.
Claims
1. An apparatus for venting air from a computing device, the apparatus comprising:
- a fan to circulate air inside the computing device;
- a first exhaust port to vent the circulated air out of the computing device;
- a second exhaust port to vent the circulated air out of the computing device; and
- a shutter to automatically block one of the exhaust ports based on a physical orientation of the computing device.
2. The apparatus of claim 1, wherein the fan is rotatable around an axis and the shutter is independently rotatable around the axis.
3. The apparatus of claim 2, wherein the shutter is rotatable in a first direction around the axis by a gravitational force.
4. The apparatus of claim 3, further comprising:
- a spring mechanism having a spring force to rotate the shutter in a second direction around the axis, wherein the spring force is less than the gravitational force.
5. The apparatus of claim 1, further comprising:
- an accelerometer to detect a change in orientation of the computing device; and
- a switch to move the shutter to block one of the exhaust ports in response to a notification from the accelerometer of the change in orientation of the computing device.
6. A method, comprising:
- automatically closing one of multiple heat exhaust outlets on a computing device based at least on an orientation of the computing device; and
- ventilating heat out of the computing device through an open heat exhaust outlet.
7. The method of claim 6, wherein the automatic closing further comprises:
- detecting, by a sensor, a first change in orientation of the computing device; and
- driving a switch to close one of the multiple heat exhaust outlets in response to detecting the change in orientation.
8. The method of claim 7, further comprising:
- driving the switch to open a closed heat exhaust outlet in response to detecting a second change in orientation of the computing device.
Type: Application
Filed: Jan 25, 2010
Publication Date: May 10, 2012
Inventor: Mark Senatori (The Woodlands, TX)
Application Number: 13/384,916
International Classification: F28F 13/00 (20060101);