KR101441965B1 - Computer case - Google Patents

Abstract

The present invention relates to a computer case, and more particularly to a computer case having an actuator module that thermally expands by thermal energy and controls the opening and closing of an openable and closable vent hole formed in a case body, minimizes dust inflow from the outside, And a computer case capable of automatically controlling the opening and closing of the openable and closable ventilation openings according to a temperature change.

Description

Computer case {Computer case}

The present invention relates to a computer case, and more particularly to a computer case having an actuator module that thermally expands by thermal energy and controls the opening and closing of an openable and closable vent hole formed in a case body, minimizes dust inflow from the outside, And a computer case capable of automatically controlling the opening and closing of the openable and closable ventilation openings according to a temperature change.

The 'computer case' of the present invention refers to the outer shape of the main body in a typical computer system. Here, the term 'computer system' generally includes a main body having various electronic components mounted therein, a monitor as a display means, and a keyboard as input means. Inside the main body, a main board on which a central processing unit (CPU) is mounted, a power supply device, a hard disk drive, and the like and electronic components are installed and used.

Such a computer case is usually made of a metal plate member, and is partially formed in various shapes, but basically, a hexahedron is formed by using six plate members.

The conventional computer case includes two plate members, which are not shown but usually have a relatively large area and are spaced apart from each other, and a front plate, a back plate, and a pair of side plates which are perpendicularly coupled to the two plate members. The computer case can be used in a vertical direction as needed (in this case, the two plate members stand upright in the vertical direction) and can be used in a horizontal direction.

On the other hand, in such a computer case, the main board is mounted on the inner surface of one of the two relatively large plate members compared to the other plate portions. The main board contains electronic components for performing various functions of the computer. Among these, many components that generate heat during operation are included. Among these heat generating components, particularly, the central processing unit generates a lot of heat during operation, and therefore, there is provided an air cooling type cooling device for cooling the generated heat using the air inside.

The air-cooled cooling device includes a heat absorbing portion, a heat dissipating portion, and a cooling fan. The heat absorbing portion absorbs heat generated from the central processing device and transfers the heat to the heat dissipating fin. Passes through the heat radiating fins and is heat-exchanged, and as a result, the central processing unit is cooled.

On the other hand, the air-cooled cooling apparatus for cooling the central processing unit has various forms, and thus the direction of the flow of air produced by each cooling apparatus differs from one cooling apparatus to another.

However, since the ventilation openings are generally opened at all times in the plate portions constituting the conventional computer case so that the internal air heated by the heat generating component is ventilated, There is a problem that the same foreign matter is introduced. In order to solve such a problem, some computer cases have been equipped with an opening / closing type ventilation hole. In this case, since the ventilation opening is opened and closed by using a separate sensor and a motor connected to the computer power supply, And it is difficult to use in general computer case.

The above-described background technology is technical information that the inventor holds for the derivation of the present invention or acquired in the process of deriving the present invention, and can not necessarily be a known technology disclosed to the general public prior to the filing of the present invention.

The present invention provides an actuator module that controls the opening and closing of the openable and closable ventilation openings formed in the case body by thermal expansion by heat energy, minimizes the inflow of dust from the outside and automatically opens and closes the openable and closable ventilation openings It is an object of the present invention to provide a computer case capable of controlling opening and closing.

The present invention relates to a case body comprising a main body of a computer case, an interior of which is housed with electronic components, and at least one surface of which is provided with an openable / closable ventilation opening capable of selectively opening and closing; And an actuator module disposed on one side of the openable and closable ventilation opening of the case body and thermally expanding by thermal energy to control opening and closing of the opening and closing ventilation opening.

In the present invention, the actuator module may include: a housing; A sliding member formed to be slidable with respect to the housing and being drawn in or out of the housing; And a thermal actuator accommodated in the housing and pressing the sliding member to cause the sliding member to be drawn out of the housing when thermal expansion is caused by thermal energy.

In this case, a guide hole is formed in the housing, and the sliding member is provided with a guide pin to be inserted into the guide hole. As the guide pin moves along the guide hole, movement of the sliding member with respect to the housing is guided by the guide .

The sliding member may further include an elastic member interposed between the housing and the sliding member to apply a predetermined elastic force in a direction in which the sliding member is drawn in the housing.

Here, when the thermal actuator is inflated by the applied thermal energy, the thermal actuator presses the sliding member to draw the sliding member against the housing, and when the thermal actuator is contracted, the elastic force applied by the elastic member A sliding member can be pulled into the housing.

Here, the thermal actuator can thermally expand only within a predetermined temperature range.

Here, the actuator module may further include a thermoelectric element that generates heat when a predetermined power source is applied.

Here, when power is applied to the computer, power is automatically applied to the thermoelectric element, so that the opening / closing type vent can be opened.

Here, when the opening signal of the opening / closing type vents is inputted, power is applied to the thermoelectric elements, so that the opening / closing type vents can be opened.

Here, the openable / closable vents include a plurality of blades. When the thermal actuator presses the sliding member and the sliding member is drawn out of the housing, the sliding member moves the blade to open the opening and closing type vents have.

According to the present invention, since the actuator module that thermally expands by thermal energy and controls the opening and closing of the openable and closable vent holes formed in the case body is provided, dust inflow from the outside is minimized, The opening and closing of the opening and closing vent can be controlled.

1 is a perspective view illustrating a computer case according to an embodiment of the present invention, in which the openable and closable vent is closed;
Fig. 2 is a view showing a state in which the openable / closable vents of the computer case of Fig. 1 are opened.
3 is a perspective view of an actuator module of the computer case of Fig.
4 is an exploded perspective view of the actuator module of Fig.
5 is a cross-sectional view taken along the line V-V in Fig.
Fig. 6 is a partial perspective view showing a state in which the opening and closing vent is closed in the computer case of Fig. 1. Fig.
7 is a partial perspective view showing a state in which the opening and closing ventilating opening is opened in the computer case of Fig.

The following detailed description of the invention refers to the accompanying drawings, which are given by way of illustration of specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, the specific shapes, structures, and characteristics described herein may be implemented by changing from one embodiment to another without departing from the spirit and scope of the invention. It should also be understood that the location or arrangement of individual components within each embodiment may be varied without departing from the spirit and scope of the present invention. Therefore, the following detailed description is not to be taken in a limiting sense, and the scope of the present invention should be construed as encompassing the scope of the appended claims and all equivalents thereof. In the drawings, like reference numbers designate the same or similar components throughout the several views.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to which the present invention pertains.

FIG. 1 is a perspective view of a computer case according to an embodiment of the present invention. FIG. 2 is a view illustrating a state in which the opening and closing vent holes of the computer case of FIG. 1 are opened .

1 and 2, a computer case 1 according to an embodiment of the present invention comprises a main body of a computer case 1, and includes electronic parts housed therein, and at least one surface thereof is opened and closed A case body 200 having a selectively openable and closable ventilation hole 210 and a ventilation opening 210 disposed on one side of the opening and closing ventilation opening 210 of the case body 200 and thermally expanding by heat energy, And an actuator module (see 100 in Fig. 3) for controlling the closing.

In detail, a main board on which a central processing unit (CPU) is mounted, a power supply unit, a hard disk drive, and the like and electronic parts are installed in the case body 200. The case main body 200 is usually made of a metal plate member, and is partially formed in various shapes, but basically, a hexahedron is formed by using six plate members.

At least one surface of the case body 200 is formed with an openable / closable ventilation hole 210 capable of selectively opening and closing the case body 200. The openable and closable ventilation hole 210 may be opened or closed by thermal expansion of an actuator module (see 100 in FIG. 3) to be described later. Although the openable and closable ventilation holes 210 are formed on the upper surface of the case body 200 and the openable and closable ventilation holes 210 include a plurality of blades 211, the present invention is not limited thereto, And may be formed at various positions capable of discharging the heat generated in the main body 200 to the outside, in various shapes in which the open state and the closed state can be selectively made.

The plurality of blades 211 constituting the openable and closable ventilation holes 210 are coupled to one surface of the case body 200 and rotate or move around a predetermined rotation axis to open or close the opening and closing ventilation openings 210. However, The shape of the present invention is not limited thereto and may be formed in various shapes that can open or close a vent hole formed in the case body 200.

Hereinafter, the actuator module 100 of the present invention will be described in more detail.

FIG. 3 is a perspective view of an actuator module of the computer case of FIG. 1, FIG. 4 is an exploded perspective view of the actuator module of FIG. 3, and FIG. 5 is a sectional view taken along line V-V of FIG.

3, 4 and 5, the actuator module 100 of the present invention includes a housing 110, a sliding member 120, a cover 130, a thermal actuator 140, and an elastic member 150 do. The actuator module 100 may further include a fixing member 160, a stopper 170, a thermoelectric element 180, and a power terminal 190.

In detail, the housing 110 constitutes the main body of the actuator module 100 and includes a housing body 111 formed in a substantially hexahedron shape. An actuator hole 112 is formed in the center of the housing main body 111 to receive the thermal actuator 140. A guide pin 122 of a sliding member 120, A guide hole 113 may be formed.

The sliding member 120 is formed to be slidable with respect to the housing 110 so as to be inserted into or drawn out from the housing 110. The sliding member 120 includes a base plate 121 having a substantially flat plate shape and a guide pin 122 protruding from the base plate 121 in one direction. The guide pin 122 is inserted into the guide hole 113 of the housing 110 and moves along the guide hole 113 so that the sliding member 120 is slidable with respect to the housing 110 . On the other hand, the base plate 121 serves to enlarge the operating area of the sliding member 120.

The cover 130 is coupled to the rear surface of the housing 110 by a fixing member 160 and serves as a base to which the thermoelectric element 180 and the power terminal 190 are coupled. The thermoelectric element 180 and the power source terminal 190 will be described later in detail.

The thermal actuator 140 is accommodated in the actuator hole 112 of the housing 110 and thermally expanded by thermal energy to press the sliding member 120 so that the sliding member 120 is pulled out of the housing 110 Role. When the thermal expansion member 141 undergoes thermal expansion, the thermal actuator 140 moves in the direction of the arrow A in FIG. 4 by the thermal expansion member 141 to move the sliding member 120 (Not shown).

In detail, a thermal actuator is a kind of a thermo element that is a generic term of a device using a change in phenomena due to heat or temperature. A thermal actuator converts a temperature change into displacement or force to generate a driving force do. As an example of a thermal actuator, there has been known a wax thermo element using a volume change accompanying melting / solidification of a wax (resin) according to a change in temperature. That is, when the predetermined thermal energy is applied to the thermal actuator 140, the thermally expanding member 141 such as wax thermally expands, and when the thermally expanding member 141 thermally expands, the thermally expanding member 141 presses the pressing pin 142 The sliding member 120 moves in the direction of arrow A in Fig. 4 to push the sliding member 120, and consequently the sliding member 120 moves in the direction of arrow A in Fig.

The thermal actuator using the thermal expansion is easy to manufacture and has a relatively strong force, so that the opening and closing of the opening and closing vent can be controlled without a separate sensor and a motor. Here, the physical property of the thermal expansion member 141 is a numerical value showing the inherent characteristics of the material of the thermal expansion member 141, and can exhibit various values. For example, Young's modulus, Poisson's ratio, Depth, Electrical conductivity, Conductivity coefficient, Convection coefficient, Thermal expansion coefficient ) And the like.

Such a thermal actuator 140 can operate only within a predetermined temperature range. For example, the thermal actuator 140 of the present invention thermally expands when the temperature of the thermal actuator 140 is within the operating temperature range of about 5 ° C to 135 ° C, and slides the sliding member 120 in the direction of arrow A in FIG. 4, (210) can be opened.

Accordingly, when the power of the computer is turned off, the thermal actuator 140 does not thermally expand and thus the opening and closing type vent hole 210 is closed. Then, the power of the computer is turned on, When the temperature of the inside of the computer case 1 reaches a predetermined operating range (for example, 5 to 135 ° C), the thermal actuator 140 operates to move the sliding member 120 The opening / closing type ventilation hole 210 can be opened by sliding.

The elastic member 150 is interposed between the housing 110 and the sliding member 120 so as to exert a predetermined elastic force in a direction in which the sliding member 120 is inserted into the housing 110.

The guide pin 122 of the sliding member 120 is fitted into the guide hole 113 of the housing 110 and the elastic member 150 can be further inserted into the guide pin 122. In this state, the stopper 170 can be engaged with the guide pin 122. In this state, both ends of the elastic member 150 are fixedly coupled to the sliding member 120 and the housing 110 (and the stopper fixedly coupled to the housing), respectively, and the elastic member 150 is moved in the direction of the arrow K A predetermined elastic force is applied. That is, the elastic member 150 applies a predetermined elastic force in a direction in which the sliding member 120 approaches the housing 110.

When the temperature of the inside of the computer case 1 is lowered due to the reasons such as the power of the computer being turned off or the like and the operating temperature of the thermal actuator 140 is out of the operating temperature range, The sliding member 120 is moved in the direction opposite to the arrow A in Fig. 4, so that the opening and closing type ventilation hole 210 can be closed again.

On the other hand, the thermoelectric element 180 generates a predetermined thermal energy when power is supplied from the outside, thereby operating the thermal actuator 140. The power terminal 190 is formed on one side of the thermoelectric element 180 and transmits power generated from the main power source of the computer to the thermoelectric element 180.

Here, the thermoelectric element 180 is a collective term of elements using various effects which are expressed by the interaction of heat and electricity. A thermistor, which is a device using temperature change of electric resistance, a device using Jeff Beck effect, which is a phenomenon in which electromotive force is generated by temperature difference, and a Peltier device using Peltier effect, which is a phenomenon in which heat is absorbed . A thermistor is a type of semiconductor device in which the electrical resistance varies greatly with temperature. The NTC thermistor is a type of semiconductor device in which electrical resistance is reduced by an increase in temperature, a positive temperature coefficient thermistor (PTC) positive temperature coefficient thermistor). The thermistor is made by blending molybdenum, nickel, cobalt, iron, and other oxides into a plurality of components, sintering it, and stabilizing the circuit and using it for heat, power, and light detection.

The thermal actuator 140 is heated by the thermal energy so that the temperature of the thermal actuator 140 is maintained within a predetermined operating range (for example, 5 占 폚 to 135 占 폚), the thermal actuator 140 operates to slide the sliding member 120, thereby opening the opening / closing type ventilation hole 210. [

At this time, when power is applied to the computer, power is applied to the thermoelectric element 180 automatically, so that the opening and closing type ventilation hole 210 can be opened. (Not shown). When a predetermined opening / closing type vents opening / closing signal is inputted by operating the vents opening / closing switch, power is applied to the thermoelectric element 180 so that the opening / closing type vents 210 are opened .

FIG. 6 is a partial perspective view showing a state in which the openable and closable vent is closed in the computer case of FIG. 1, and FIG. 7 is a partial perspective view showing a state in which the openable and closable vent is opened in the computer case of FIG.

6, when the power of the computer is turned off, the thermal actuator 140 does not thermally expand so that a plurality of blades 211 come into close contact with the case body 200 to close the openable / .

In this state, 1) the power of the computer is turned on, and the electronic parts inside the computer are operated to generate a predetermined heat so that the temperature inside the computer case 1 reaches a predetermined operating range (for example, 5 [ Or 135 degrees Celsius) or 2) when the power of the computer is turned on, power is applied to the thermoelectric element 180 automatically so that predetermined thermal energy is generated in the thermoelectric element 180, The temperature of the thermal actuator 140 is heated to a predetermined operating range (for example, 5 ° C to 135 ° C) or 3) a separate vent opening / closing switch (not shown) Closing ventilation opening 210 is opened by operating the thermal actuator 140 to slide the sliding member 120 when a predetermined openable / closable ventilation open / close signal is inputted and power is applied to the thermoelectric element 180 It is.

That is, when the temperature of the thermal actuator 140 reaches a predetermined operating range (for example, 5 ° C to 135 ° C), the thermal actuator 140 thermally expands to move the sliding member 120 in a straight line . Then, the sliding member 120 moves the press connected to the plurality of blades 211 while linearly moving, rotates the pressed press blades 211 about a predetermined rotation axis, and rotates the openable and closable ventilation holes 210 It opens up.

According to the present invention, since the actuator module that thermally expands by thermal energy and controls the opening and closing of the openable and closable vent holes formed in the case body is provided, dust inflow from the outside is minimized, The opening and closing of the opening and closing vent can be controlled. Further, since no separate sensor or motor for opening and closing the ventilation hole is required, the manufacturing cost is reduced, the probability of failure is reduced, management is facilitated, no motor noise is generated, and operation reliability is enhanced have. Further, since the actuator module can be installed alone, it can be installed in other parts requiring opening and closing, and the effect of differentiating the case system due to the mounting of the operating part can be obtained.

Although the present invention has been described with reference to the limited embodiments, various embodiments are possible within the scope of the present invention. It will also be understood that, although not described, equivalent means are also incorporated into the present invention. Therefore, the true scope of protection of the present invention should be defined by the following claims.

1: Computer case
100: actuator module
110: Housing
120: Sliding member
130: cover
140: Thermal actuator
150: elastic member
200: Case body
210: Retractable vents

Claims (10)

A case body including a main body of a computer case, an electronic component housed therein, and an openable and closable ventilation opening capable of selectively opening and closing the at least one surface; And
And an actuator module disposed on one side of the openable and closable ventilation opening of the case body and thermally expanding by thermal energy to control opening and closing of the opening and closing ventilation opening,
The actuator module includes:
A housing having a guide hole formed therein;
A sliding member formed to be slidable with respect to the housing as the guide pin moves along the guide hole and is drawn into or pulled out of the housing; And
And a thermal actuator accommodated in the housing and pressing the sliding member to cause the sliding member to be drawn out of the housing when thermal expansion is caused by thermal energy. The method according to claim 1,
And a resilient member interposed between the housing and the sliding member to exert a predetermined elastic force in a direction in which the sliding member is drawn in the housing. 3. The method according to claim 1 or 2,
When the thermal actuator expands due to the applied thermal energy, the thermal actuator presses the sliding member to draw the sliding member against the housing,
And when the thermal actuator is contracted, the sliding member is pulled into the housing by an elastic force applied by the elastic member. The method according to claim 1,
Wherein the thermal actuator thermally expands only within a predetermined temperature range. The method according to claim 1,
Wherein the openable / closable vents include a plurality of blades,
Wherein when the thermal actuator presses the sliding member and the sliding member is pulled out to the housing, the sliding member moves the blade to open the opening and closing type vents. A case body including a main body of a computer case, an electronic component housed therein, and an openable and closable ventilation opening capable of selectively opening and closing the at least one surface; And
And an actuator module disposed on one side of the openable and closable ventilation opening of the case body and thermally expanding by thermal energy to control opening and closing of the opening and closing ventilation opening,
The actuator module includes:
housing;
A sliding member formed to be slidable with respect to the housing and being drawn in or out of the housing; And
A thermal actuator accommodated in the housing and pressing the sliding member to cause the sliding member to be drawn out to the housing when thermal expansion is caused by heat energy; And
And a thermoelectric element for generating heat when a predetermined power source is applied. The method according to claim 6,
Wherein when the power is applied to the computer, power is automatically applied to the thermoelectric element to open the opening and closing vent. The method according to claim 6,
Wherein when the opening signal of the opening / closing type vents is inputted, power is applied to the thermoelectric element to open the opening / closing type vents. delete delete

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