KR101125151B1 - Temperature control device using thermoelectric element and rf device having thereof - Google Patents

Abstract

PURPOSE: A temperature control apparatus and a radio frequency receiver including the same are provided to maintain a fixed temperature by arranging a thermoelectric element which includes a ceramic plate for being cooled or heated according to a current direction. CONSTITUTION: A temperature sensor detects a surrounding temperature. A thermoelectric device(330) comprises a ceramic plate(331) which is cooled or heated according to a current direction. A front pin(333) and a rear pin(334) are respectively attached on the outside of the ceramic plate facing to the thermoelectric device. A front fan(335) and a rear fan(336) are attached on the upper part of the front pin and the rear pin. A controller(400) controls the operation of the thermoelectric device, the temperature sensor, the front fan, and the rear fan.

Description

TEMPERATURE CONTROL DEVICE USING THERMOELECTRIC ELEMENT AND RF DEVICE HAVING THEREOF

The present invention relates to a thermostat device using a thermoelectric element and an RF receiver having the same, and more particularly, to a thermostat device using a thermoelectric element for maintaining a constant temperature inside the electronic device from a temperature change of the external environment and It relates to an RF receiver.

In general, electronic devices are provided with a hard case to protect components from external shocks and to fix components for desired operation of electronic devices such as printed circuit boards, electronic devices, and electrical wiring. .

In particular, if the electronic device is operated by being exposed to the external environment, an error in the measured value may occur due to temperature change in the case of sensors among the electronic devices embedded in the case, and the sensor may be stopped due to the high temperature. .

In addition, even if an additional heating element is installed inside, a thermal control device may be added to the electronic device to maintain a proper temperature, since a thermal element may cause malfunction due to heat generated from the heating element. .

In general, the temperature control device has been used for the thermal protection of the device, the cooling fins, cooling fans or heat pipes individually or in combination according to the needs of the designer, but recently the cooling device using the thermoelectric element using the Peltier effect Is widely used.

In Korean Utility Model Publication No. 1998-063021, as shown in FIG. 1, there is provided a temperature control device using such a thermoelectric element such that various wired / wireless transmission devices and communication devices such as peripheral devices are built in to exhibit a predetermined function. .

In the cabinet of the device, a thermoelectric element which can be installed and operated intimately between the inner and outer circumferential surfaces, a heat sink fixed to the endothermic and heat dissipating surfaces of the thermoelectric element and positioned toward the inner and outer surfaces of the cabinet, and on the heat sink It is composed of a temperature sensor to be installed and a power applied by the control command of the temperature sensor, and provided with a fan that can be driven to position each heat sink to maintain the internal temperature on the cabinet in an appropriate state.

However, the thermostat of the prior art has a structure in which the body part of the chassis frame constituting the cabinet is removed, and the thermostat is fitted to the removed part, so that it is free to change the installation position for moving or repairing the device. none.

In particular, for devices that are fixedly placed so as to be unable to move, it is necessary to easily separate and repair only the thermostat.

The present invention has been made to solve the above problems, and an object thereof is to improve the cooling efficiency of the device particularly sensitive to temperature changes.

According to an embodiment of the present invention for solving the above problems, in the temperature control device for maintaining a closed space at a predetermined temperature,

The temperature control device 300, the body portion 310, and made of a temperature control unit 320 mounted inside the body portion 310,

The body portion 310 is penetrated in a longitudinal direction thereof, and a protrusion 312 is formed along a circumference at the inner center of the penetrated inner portion.

The temperature controller 320 mounted on the protrusion 312 may include a temperature sensor that detects an ambient temperature; A thermoelectric element 330 including a ceramic plate 331 disposed to face each other in which heat and cooling are performed in a current direction; A front fin 333 and a rear fin 334 respectively attached to the outer side of the ceramic plate 331 of the thermoelectric element 330; A front fan 335 and a rear fan 336 attached to upper portions of the front pin 333 and the rear pin 334; It has a preset temperature value, and consists of a control unit 400 for controlling the power supply and operation to the front fan 335 and rear fan 336, the temperature sensor and the thermoelectric element 330,

The front pin 333 and the front fan 335 is disposed toward the sealed space, the rear pin 334 and the rear fan 336 is disposed in an unsealed space, the side of the front pin 333 When the temperature value measured by the disposed temperature sensor is higher than the set temperature value, cooling is performed on the ceramic plate 331 attached to the front fin 333 of the thermoelectric element 330 by applying a forward current. When the temperature value is lower than the set temperature value, the reverse current is applied to heat the ceramic plate 331 attached to the front fin 333 of the thermoelectric element 330.

In addition, the heat insulating sheet 313 is added to a portion where the front fin 333 inside the body 310 is not attached.

In addition, the protrusion 312 is provided with a stepped portion, and the thermoelectric element 330 of the temperature control unit 320 is characterized in that coupled to the stepped portion.

In addition, a closing plate 311 is installed at an end portion at which the rear pin 334 of the body portion 310 is formed, and a discharge port through which air is discharged by the rotation of the rear fan 336 at the lower side of the rear fan 336. It is characterized in that the further provided.

In addition, according to an embodiment of the present invention, in the RF receiver for receiving vehicle information,

The RF receiver 100, the case 210; A protective plate 220 installed on the front of the case 210; It consists of a main body 200 consisting of an RF receiver 230 mounted inside the protective plate 220,

In order to maintain a constant temperature inside the case 210, the front surface of the temperature control device 300 is coupled to the rear surface of the case 210.

In addition, the rear surface of the case 210 and the front of the temperature control device 300 is characterized in that the elastic body 250 for limiting the sealed space is further provided.

In addition, the combination of the main body 200 and the temperature control device 300 is rotated by a hinge 500 mounted on each of the lower surfaces of the main body 200 and the temperature control device 300, the main body 200 And a door lock mounted on each of the upper surfaces of the temperature control device 300.

In addition, the back side of the lower surface of the case 210 is characterized in that the support piece 240 for limiting the opening of the temperature control device 300 in the ground direction is provided.

The temperature control device according to the present invention configured as described above and the RF receiver having the same, it is possible to maintain a constant temperature in a closed space.

In addition, it is possible to add a temperature control device only by the addition of a simple coupling means, which can be applied to devices of various shapes and shapes.

1 is a view showing a temperature control device of the prior art.
2 is a diagram illustrating an example in which an RF receiver for paying a road toll according to an embodiment of the present invention is installed on a road.
3 is a perspective view of an RF receiver.
4 is a cross-sectional view showing a main body forming an RF receiver.
Figure 5 is a cross-sectional view showing a thermostat coupled to the body of the RF receiver.
6 is a view showing that the main body and the temperature control device of the RF receiver according to the present invention are coupled to or separated from each other.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may properly define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the configuration and method shown in the embodiments and drawings described herein are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be substituted for them at the time of the present application It should be understood that there may be equivalents and variations.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a diagram illustrating an example in which a radio frequency (RF) receiver for paying a road toll according to an embodiment of the present invention is installed on a road.

As illustrated, the RF receiver 100 fixedly installed at the toll gate exchanges vehicle information and traffic information at a predetermined distance when the vehicle enters the vehicle, and billing is processed by the central processor unit.

The RF receiver 100 is composed of a main body 200 for transmitting and receiving a predetermined signal with the vehicle entering, and a temperature control device 300 for maintaining a constant temperature inside the main body 200.

3 is a perspective view of the RF receiver, and FIG. 4 is a cross-sectional view illustrating a main body of the RF receiver.

As shown in FIG. 3, the main body 200 is provided with a supporting plate 270 fixed to the ground, and a support 260 is fixed to the lower part of the main body 200 at an upper portion of the supporting plate 270. And exchange information between the case 210 and the RF receiver 230 and the controller 400 mounted inside the case 210 and the central processor unit spaced apart from each other and mounted on the RF receiver 100. It is composed of a cable (not shown) for supplying the operating power of the devices.

Although the RF receiver 100 illustrated in FIGS. 2 and 3 is fixed to the ground by using the support 260 and the support plate 270 on the left and right sides of the road, the RF receiver 100 is positioned at the front and rear positions of the road into which the vehicle enters. Of course, it can be fixed using a separate aerial support.

Referring to FIG. 4, the case 210 of the main body 200 has a protective plate 220 mounted on a front surface of the case 210 of the main body 200 in a direction in which the vehicle enters into a substantially rectangular shape, and the inner side of the protective plate 220. The RF receiving unit 230 is formed. The RF receiver 230 includes one or more copper plates 233 arranged in a matrix at regular intervals on a substrate.

The lower surface of the case 210 facing the ground is formed with a central processor portion and a cable outlet for signal transmission.

In the embodiment of the present invention, the support 260 and the cable for fixing the position of the main body 200 are formed separately, but according to the design convenience, the support 260 is composed of a cylindrical pipe and the cable inside the pipe It may be formed to be snow.

In addition, this may be applied to the case where the RF receiver 100 is installed in the air.

In addition, a support piece 240 for limiting the opening of the temperature control device 300 in the direction of the ground in the corner portion in contact with the rear side in the lower surface at a predetermined angle is provided.

Regarding the opening angle restriction will be described later in the description for separation and coupling with the temperature control device (300).

In addition, the back of the case 210 is provided with an elastic body 250 for close contact with the temperature control device (300).

The elastic member 250 is formed of a rubber material, and is formed to protrude a predetermined portion to the outside of the rear surface in a round shape according to the cut portion of the rear surface of the case 210.

In this case, the cut-out portion may have the same size or a larger size than that of the RF receiver 230 embedded in the main body 200.

On the other hand, the plate is provided inside the body portion 310 of the temperature control device 300, the other end of the elastic body 250 is provided to be in close contact.

In addition, the protruding portion of the elastic body 250 is formed with an uneven portion so as to vary the adhesive force according to the opening and closing degree of the main body 200 and the temperature control device 300.

The elastic force does not work when the main body 200 and the temperature control device 300 are separated, but if the main body 200 and the temperature control device 300 are in close contact with each other, the gap between the concave-convex portion and the convex portion of the concave-convex portion is applied to the pressing force. As a result, the height is lowered, so that they are completely in contact with each other.

Although the packing (not shown) for preventing leakage is added to the combined portion of the main body 200 and the temperature control device 300 by the addition of the elastic body 250, there is a more complete leakage prevention effect.

The primary leakage prevention by packing and the secondary leakage prevention by elastic force can further reduce the failure or malfunction of electronic devices exposed to the external environment.

In addition, the inside of the elastic body may be coated with a heat insulating material for thermal disconnection. Therefore, since the space to be adjusted becomes smaller as the enclosed space is limited to the inside of the elastic body, it is natural that the temperature control energy by the temperature control device can be reduced.

The main body 200 of the RF receiver 100 has a temperature control device 300 for properly maintaining the temperature of the surrounding internal environment of the RF receiver 230 provided in the main body 200. It is installed in addition to the back of the.

Figure 5 is a cross-sectional view showing a thermostat coupled to the body of the RF receiver.

The temperature control device 300 is composed of a body portion 310 and the temperature control portion 320 mounted inside the body portion 310, the body portion 310 is the RF receiver 100, the main body 200 The cross section is formed in a substantially rectangular shape so that the cross section is the same shape as the main body 200 so as to correspond to the back surface of the.

However, the shape is not necessarily limited to the rectangular shape and may be variously modified according to the coupling means or the size and type of the cooling means.

On the other hand, the body portion 310 is penetrated in the longitudinal direction, the front outer end of the body portion 310 is equipped with a predetermined coupling means to be coupled to the case 210 of the body 200. .

And the rear end of the body portion 310 is provided with a closing plate 311 for closing the open portion.

In addition, a projection 312 is provided along the inner center circumference of the inner center of the longitudinal direction so that the temperature control unit is installed and fixed.

The protrusion 312 is formed with a stepped portion so that the thermoelectric element 330 of the temperature controller 320 to be described later is mounted.

The stepped portion may be installed at one side or the other side with respect to the center of the body portion 310 to couple the thermoelectric element 330, but in the present embodiment the other side (the direction of the portion where the finish plate 311 is installed) ) Is provided.

As shown in FIG. 5, the temperature controller 320 includes a thermoelectric element 330, a front fin 333, a front fan 335, a rear fin 334, a rear fan 336, and a controller 400. Consists of

The thermoelectric element 330 uses the Peltier effect and is formed by placing a plurality of P-type semiconductors and N-type semiconductors between different metal plates 332. The thermoelectric element 330 applies a direct DC current to the two metal plates 332 facing each other. When applied, one metal plate 332 absorbs heat and the other metal plate 332 emits heat.

If a reverse current is applied to the two metal plates 332, the metal plate 332 for absorbing heat and the metal plate 332 for dissipating heat are opposite to each other.

In addition, a ceramic plate 331 for protecting the metal plate 332 is added to the outer side of the two metal plates 332. Subsequently, heat emission and absorption are shown in the ceramic plate 331.

Such thermoelectric elements are already well known elements, and detailed descriptions of their functions and configurations are omitted here.

The front fin 333 and the rear fin 334 are attached to the left and right sides based on the thermoelectric element 330 mounted on the stepped portion, respectively. Here, the left means the direction in which the RF receiver 230 of the main body 200 is mounted, and the right means the opposite side.

In addition, the thermoelectric element 330, the front fin 333 and the rear fin 334 is preferably bonded to each other after applying the thermal grease to increase the thermal conductivity.

In addition, in order to improve thermal circulation between the thermoelectric element 330 and the external environment, the front fan 335 and the rear fan 336 are mounted on the front fin 333 and the rear fin 334, respectively.

In addition, the insulating sheet 313 is attached to the surface of the protrusion 312 and the thermoelectric element 330 except for the portion where the front fin 333 is attached.

The insulating sheet 313 serves to space the hot and cold air from the ceramic plate 331 of the thermoelectric element 330. Since the thermoelectric element 330 does not have any function of endotherm and heat dissipation due to its characteristics, other functions are not smoothly performed. Needs one.

In the temperature controller 3320 formed as described above, a controller 400 for driving the thermoelectric element 330, the front fan 335, and the rear fan 336 is formed on the insulating sheet 313.

The formation position may be attached anywhere on the front inner wall of the body portion 310 as needed.

In addition, the control unit 400 is a temperature sensor (not shown) for detecting a temperature change in a sealed space in which the RF receiver 100 is installed, that is, inside the RF receiver 100 and a set temperature of the temperature sensor. Is provided with a temperature setting controller (not shown) that can vary.

Here, the preset temperature may be generally 20 ° C. to 25 ° C., but the user may add or decrease the set value as needed.

The temperature sensor and the temperature setting controller may be added to the upper portion of the circuit board constituting the control unit 400, respectively.

When the main body 200 and the temperature control device 300 are coupled to each other, the enclosed space is an inner space of the main body 200 and the case 210 surrounding the RF receiver 230 and the case 210. The inner space of the body portion 310 of the temperature control device 300 facing the inner side.

The rear pin 334 and the rear fan 336 is formed in the space (closed by the closing plate 311) is formed in the lower side of the body portion 310 is emitted from the rear pin 334 At least one cutout for discharging heat to the outside of the RF receiver 100 may be installed.

In addition, each incision is formed in a circular shape for rapid intake and discharge of air. The discharge fan 337 can be added and fixed. Therefore, the position and number of the cutouts are determined by considering the flow of air according to the shape of the enclosed space.

The RF receiver 100 configured as described above has a predetermined coupling means added to allow the main body 200 and the temperature control device 300 to be separated or combined with each other for replacement of a part or setting of a temperature according to repairs therein. Is installed.

In this embodiment, one side is formed by the hinge 500 to separate from each other in one embodiment, but it is possible to select a variety of known coupling means, such as coupling by screws to completely separate.

6 is a view showing that the main body and the temperature controller of the RF receiver according to the present invention are coupled to or separated from each other.

As shown in the figure, hinges 500 are provided on the left and right sides in which the support pieces 240 of the lower side of the rear edge of the main body 200 are installed.

In general, the hinge 500 is a member consisting of two brackets into which an elongated rod-shaped shaft support 260 is fitted. The hinge 500 may rotate at a predetermined angle about the shaft support 260.

Therefore, when the temperature control device 300 connected to the hinge 500 is opened by the hinge 500, the main body 200 is fixed from the ground, the lower portion of the temperature control device 300 is the main body ( Since the rotation is stopped by the support piece 240 provided on the lower one side of the 200 to form a right angle relative to the horizontal plane.

At this time, the RF receiver 230, the control unit 400, the front pin 333 and the front fan 335 allows the user to easily remove the parts and adjust the temperature setting of the control unit 400.

Then, when the main body 200 and the temperature control device 300 are completely open to each other, the upper ends of the main body 200 and the temperature control device 300 are coupled to the door locks 510a and 510b for fixing them to each other. ) Can be added to form.

Referring to the operation of the RF receiver 100 configured as described above is as follows.

The protection plate 220 provided on the front surface of the main body 200 and the RF receiver 230 mounted therein are easily transferred to the inner space compared to the case 210.

At this time, the temperature of the internal space is measured by a temperature sensor provided in the controller 400, and if the measured temperature value is higher than the temperature value preset in the controller 400, the controller 400 in the front fan 335 and the rear Power is applied to the fan 336 to rotate.

Meanwhile, a forward current is applied to the thermoelectric element 330, and heat is generated in the ceramic plate 331 on the side to which the rear fin 334 of the thermoelectric element 330 is attached, and the front fin 333 is attached to the thermoelectric element 330. In the ceramic plate 331 of the cooling is made.

The rotation of the front fan 335 serves to quickly convection the hot heat staying in the closed space to the cooled front fin 333, the rotation of the rear fan 336 is the rear fin 334 The heat dissipation in the can be made smoothly.

On the contrary, if the outside temperature is lowered and the temperature value measured in the enclosed space is lower than the preset temperature value, the rear fin 334 of the thermoelectric element 330 is attached while the reverse current is applied in the thermoelectric element 330. Cooling is performed in the ceramic plate 331 on the side, and heat is generated in the ceramic plate 331 on the side to which the front pin 333 is attached.

The enclosed space increases the temperature due to heat generation in the ceramic plate 331 on the side to which the front pin 333 is attached. In this case, it can be seen that the heating and cooling functions caused by the rotation of the front fan 335 and the rear fan 336 are operated opposite to each other.

Therefore, in a closed space irrespective of the temperature change of the external environment, the control unit may maintain the temperature at a predetermined temperature value.

In the present invention, only the temperature controller and the RF receiver using the same have been described, but a variety of modifications are possible to those skilled in the art within the scope of the technical idea as described above.

100: RF receiver
200: main body
210: case
220: protector
230: RF receiver
233 copper plate
240: support piece
250: elastomer
260 support
270 support plate
300: temperature controller
310: body part
311: finish plate
312: protrusion
313: Insulation Sheet
320: temperature control unit
330: thermoelectric element
331: ceramic plate
332: metal plate
333: front pin
334 rear pin
335: Front Fan
336: rear fan
337: discharge fan
400:
500: hinge
510a, 510b: door lock

Claims (8)

In the temperature control device 300 for maintaining a closed space at a predetermined temperature,
The temperature control device 300, the body portion 310, and made of a temperature control unit 320 mounted inside the body portion 310,
The body portion 310 is penetrated in a longitudinal direction thereof, and a protrusion 312 is formed along a circumference at the inner center of the penetrated inner portion.
The protrusion 312 is provided with a stepped portion, and the thermoelectric element 330 of the temperature controller 320 is coupled to the stepped portion,
The temperature controller 320 mounted on the protrusion 312 may include a temperature sensor that detects an ambient temperature; A thermoelectric element 330 including a ceramic plate 331 disposed to face each other in which heat and cooling are performed in a current direction; A front fin 333 and a rear fin 334 respectively attached to the outer side of the ceramic plate 331 of the thermoelectric element 330; A front fan 335 and a rear fan 336 attached to upper portions of the front pin 333 and the rear pin 334; It has a preset temperature value, and consists of a control unit 400 for controlling the operation of the front fan 335 and rear fan 336, the temperature sensor and the thermoelectric element 330, and supplying power.
The front pin 333 and the front fan 335 is disposed toward the closed space, the rear pin 334 and the rear fan 336 is disposed in an unsealed space, the side of the front pin 333 When the temperature value measured by the temperature sensor disposed in the temperature value is higher than the set temperature value, cooling is performed on the ceramic plate 331 attached to the front fin 333 of the thermoelectric element 330 by applying a forward current. When the measured temperature value is lower than the set temperature value, by applying a reverse current to the ceramic plate 331 attached to the front pin 333 of the thermoelectric element 330, the temperature control device characterized in that the heat is generated.
The method of claim 1,
Temperature control device, characterized in that the heat insulation sheet 313 is added to the portion where the front fin 333 inside the body portion 310 is not attached.
delete The method of claim 1,
A closing plate 311 is installed at an end portion of the body portion 310 at which the rear pin 334 is formed, and a discharge port through which the air is discharged by the rotation of the rear fan 336 is disposed at the lower side of the rear fan 336. Temperature control device characterized in that it is further provided.
In the RF receiver 100 for receiving vehicle information,
The RF receiver 100, the case 210; A protective plate 220 installed on the front of the case 210; It consists of a main body 200 consisting of an RF receiver 230 mounted inside the protective plate 220,
In order to maintain a constant temperature inside the case 210, the rear surface of the case 210, the front surface of the temperature control device 300 according to any one of claims 1, 2 and 4 RF receiver, characterized in that coupled.
The method of claim 5, wherein
The back of the case 210 and the front of the thermostat 300 is an RF receiver, characterized in that it is further provided with an elastic body (250) for defining a closed space.
The method according to claim 6,
The combination of the main body 200 and the temperature control device 300 is rotated by a hinge 500 mounted on each of the lower surfaces of the main body 200 and the temperature control device 300, the main body 200 and RF receiver, characterized in that made by the door locks (510a, 510b) mounted on each of the upper surface of the temperature control device (300).
The method of claim 7, wherein
RF case, characterized in that the support side 240 for limiting the opening of the temperature regulating device 300 in the ground direction is provided on the rear side of the lower surface of the case (210).

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