HEAT DISSIPATING DEVICE FOR FAN DRIVING MOTOR ROTATING SPEED CONTROL RESISTOR OF AIR CONDITIONER
The present invention refers to a heat radiating device relates to an air conditioner fan driving motor to rotate resistor search, more particularly resistance circuit contact on both surfaces of the insulating layer, said insulating layer including external heat transferred into the light part and the fixed plate is inserted layer with clad metal plate shape engaging the lower case, an upper insulating plate blocking resistance circuit board electrical energized does not bind between separately supported with fixing the heat dissipation case number may be small chip is to reduce the costs as well as reducing resistor resistance circuit board on both sides of the insulating plate load resistor coupled step for efficiency and productivity for pollution and moving hereinafter to air conditioner fan driving motor to rotate a heat radiating device can be a resistor are disclosed. A cooling device for adjusting indoor air current supply operation range of the a vehicle coolant essentially means is arranged, said cooling, exhaust coolant occurs via device, warmth of the kind having a fan driven through motor vehicle through indoor river etc. supplied number. The on. The opening relative to the series current steel number supplying method for temperature room temperature which maintains the optimum state for the breeze, wind about, such as 3 - 4 step generally radially driver on degree of the sample value. The power supply of cold air to be in the nanometer range. Each step in order to be operated on. Pivotally mounted fan and said fan drive means number steel cold air supply means mounted stroke realized by introducing a step of selective setting which, etc. the motor rotational speed as regulating resistor is used. To this end also using 1 to 3 used resistor also results in the description, the drawing code 30 base body (30) exhibits. Said base body (30) is formed with a plurality according to power connection terminal (10) on main circle connection terminal (20) are coupled to, said power connection terminal (10) connected to a resistive circuit substrate (80) the heat dissipation case (40) coupled within a substrate. Said radiating case (40) such as 2 also includes a heat-dissipating unit (50) and a fixation plate (60) consists of the. Said heat-dissipating unit (50) a plurality of bent end binding groove (51) is formed, said engagement groove (51) fitted to the coupled bond (61) fixed plate (60) between a bond first film is bent end (61) is engaged with the binding groove (51) at a fixing plate fitted (60) chassis part (50) bind to. And a locking plate (60) is provided at the center of resistance circuit board (80) coupled to the temperature fuse (90) can be formed semi-cylindrical fixed stationary support (62) is formed. Said resistance circuit board (80) is formed on a thin sheet, resistance circuit board (80) formed on top of the connection end (81) occurs at the motor for driving fan when power steel number circuited in temperature fuse (90) is coupled by spot welding. The resistance circuit board (80) coupled to the temperature fuse (90) such as 3 also includes a fixing plate (60) two parallel fixed support (62) to an case (40) is fixedly coupled to the substrate. On the other hand, resistance circuit board (80) for blocking voltage to the number 1 to energized electric mica insulation plate (70) and insulation plate number 2 (71) also 3 such as a resistance circuit board (80) construction of front, back are each bonded to JPO. The, resistance circuit board (80) the number 1 energized electric insulation plate (70) and insulation plate number 2 (71) due to a heat-dissipating unit (50) and a fixation plate (60) to prevent electric flow are disclosed. Air conditioner fan driving motor to rotate a heat radiating device of the existing method however door number point resistance resistor circuit board (80) to the cooking number 1 energized for blocking insulation plate (70) and insulation plate number 2 (71) the protrusion of a, radiating case (40) as well as increased cost of number 1 number of small insulating plate (70) and insulation plate number 2 (71) a resistor circuit board (80) the process for preparing an increase in number of the teller for binding to the pipe door number has been as well. In addition, a heat-dissipating unit (50) and a fixation plate (60) number 1 between the insulating plate (70) and insulation plate number 2 (71) while combined resistance circuit board (80) flowing through resistor weight increase since electric power is generated in the hereinafter for exists in the number has been as well. In particular, number 1 L-mica insulation plate (70) number 2 and insulation plate (71) is resistance circuit board (80) studied enclosing combined to resistance circuit board (80) to prevent the heat generated in the heat exposed, thereby resistance circuit board (80) on the level or heat resistance circuit board (80) spot welded temperature fuse (90) if the door number has been as well. Prior art document◆◆ The utility model registration number 20 - 0389078 Korean call The, door number for the present invention refers to resistance circuit to the external contact on both surfaces of said insulating layer, said insulating layer including external heat transferred into the light part and the fixed plate is inserted layer with clad metal plate shape engaging the lower case, an upper insulating plate blocking resistance circuit board electrical energized does not bind between separately supported with fixing the heat dissipation case number may be small chip is to reduce the costs as well as reducing resistor resistance circuit board on both sides of the insulating plate load resistor coupled step for efficiency and productivity for pollution and moving hereinafter to air conditioner fan driving motor to rotate resistor heat radiating device can be intended for a number public box. In this way the present invention refers to said, A base body; A heat-dissipating part and the fixed plate coupled to the base body to the upper surface of the light case (100) on; Combined heat therebetween on a thin sheet of resistance circuits substrate; system for air conditioner fan driving motor to rotate in a heat radiating device including a resistor, Acquiring with clad metal radiating case joined to a metal is formed, clad metal not conduct electricity insulating layer, formed on the heat dissipation layer function to characterized. The herein invention, resistance circuit contact on both surfaces of the insulating layer, said insulating layer is inserted into the heat transferred into the stationary plate supported with the lower case plate shape engaging configuration consisting, an upper insulating plate blocking resistance circuit board separately energized electric chip is supported with fixing the heat dissipation case does not bind between the first and second small number can be the host server are disclosed. In addition, resistance circuit board on both sides of the insulating plate coupling step for reducing resistor load resistor hereinafter for pollution and moving efficiency and productivity can be can be a construction. Figure 1 shows a heat radiating device of the existing method air conditioner fan driving motor to rotate resistor also shown front. Figure 2 shows a heat radiating device of the existing method also relates to a method for air conditioner fan driving motor to rotate resistor separate sensors mounted thereon. Figure 3 shows a heat radiating device of the existing method air conditioner fan driving motor to rotate partially magnifying a resistor also shown in cross-section. Figure 4 shows a heat radiating device of the present invention also relates to a method for air conditioner fan driving motor to rotate resistor front. Figure 5 shows a heat radiating device of the present invention also relates to a method for air conditioner fan driving motor to rotate resistor separate sensors mounted thereon. Figure 6 shows a heat radiating device of the present invention also shown in cross-section partially magnifying a air conditioner fan driving motor to rotate resistor. Figure 7 shows a heat radiating device of the present invention also other embodiment air conditioner fan driving motor to rotate the resistor shown for example. Hereinafter, a preferred embodiment of the present invention example 3 using 7 attached to hole are also described as follows. First, the description of the invention prior art prior the same construction as the element code the same drawing the drawing code description of the V-shaped marking performed less than 1000. The present invention refers to the drawing, Base body (30) on; Base body (30) coupled to the upper surface of unit block (110) and a fixation plate (120) to the light case (100) on; Radiating case (100) on a thin sheet of resistance circuits coupled between the substrate (80); a heat radiating device including air conditioner fan driving motor to each other to rotate in resistor, Radiating case (100) is joined to a heterologous metal clad metal (multilayer metal plate) stream is formed, Not conduct electricity clad metal insulating layer (130) and, having heat radiating layer (140) formed on the to have characterized. Radiating case (100) is inserted constitutes (110) is constituted of circuit board (80) formed on one surface that contacts one side of the insulating layer (130) and; Insulating layer (130) formed in the outer surface a resistance circuit board (80) and a heat generated in the heat-sink layer (140); characterized to improve the production yield. Said heat-dissipating unit (110) coupled to the resistance circuit board (80) for fixing plate (120) is also 6 such as resistance circuit board (80) on one side a contact of insulating layer (130) and; Insulating layer (130) formed in the outer surface a resistance circuit board (80) and a heat generated in the heat-sink layer (140); characterized to improve the production yield. Said heat-dissipating unit (110) and a fixation plate (120) insulation layer (130) a heat layer (140) through the different heterogeneous metal clad metal and implemented as a, different kinds of metal material bonding of dissimilar metals coupled method applying pressure to hot and cold under pressure or gunpowder explosion impact energy generated when coupled to heterogeneous metal charge metal catalyst into the resin adhesive resin is or visco pressure welding selects either bind to. The, heat dissipation layer (140) formed thereon and being excellent thermal conductivity, stainless, galvanized steel sheet characterized by selecting one of the speed. The insulating layer (130) to disapproval alloy insulating function. The heterogeneous metal bonding insulating layer (130) a heat layer (140) consisting of a heat-dissipating unit (110) and a fixation plate (120) and a bottom surface of case composed (100) thus forming, an upper resistance circuit board (80) is formed on an insulating plate number 1 (70) number 2 and insulation plate (71) chassis case (40) does not bind to the interior of the chip is the heat dissipation case (100) can be capable of reducing the cost of a styrofoam are disclosed. In addition, insulation plate number 1 (70) number 2 and insulation plate (71) a resistor circuit board (80) of an electric vehicle, the rear face of the first and second resistor in connection process number bath time improve productivity can be the effect. Figure 7 shows a embodiment of the present invention also other example is shown, the same component desires performed the same drawing code description of surface code dispensed the on-sensors other. Example embodiment of the present invention other heat-dissipating layer (140) of an electric vehicle, each rear insulating layer (130) is formed and a bottom surface (110) and a fixation plate (120) to the light case (100) are disclosed form. The heat-dissipating unit (110) of an electric vehicle, such as the rear also 7 insulating layer (130) is more than that, the dielectric function can be expected to improve. 10: power connection terminal, 20: main circle connection terminal, 30: base body, 40: radiation case, 50: a heat-dissipating unit, 51: binding groove, 60: fixing plate, 61: bond, 62: fixed support, 70: insulating plate number 1, 71: insulating plate number 2, 80: resistance circuit board, 90: temperature fuse, 100: radiation case, 110: a heat-dissipating unit, 120: fixing plate, 130: insulating layer, 140: radiating layer, The present invention relates to a heat dissipating device for a fan driving motor rotation speed control resistor of an air conditioner. The heat dissipating device according to the present invention can reduce manufacturing costs of a heat dissipation case because an insulation plate blocking electricity flowing in a resistor circuit board is not separately combined between a heat dissipation unit and a fixed plate like a conventional method, by forming the heat dissipation case configured by combining the heat dissipation unit composed of an insulation layer in contact with both sides of the resistor circuit substrate and a heat dissipation layer which dissipates heat transmitted to the insulation layer, to the outside with the fixed plate. COPYRIGHT KIPO 2017 Base body (30) on the; base body (30) coupled to the upper surface of unit block (110) and a fixation plate (120) to the light case (100) on; radiating case (100) on a thin sheet of resistance circuits coupled between the substrate (80); a heat radiating device including air conditioner fan driving motor to each other to rotate in resistor, radiating case (100) is joined to a heterogeneous metal is formed with clad metal, clad metal not conduct electricity insulating layer (130) and, having heat radiating layer (140) which is formed with, a heat-dissipating unit (110) is, resistance circuit board (80) on one side a contact of insulating layer (130) and; insulating layer (130) formed in the outer surface a resistance circuit board (80) and a heat generated in the heat-sink layer (140); consists of, fixing plate (120) is, resistance circuit board (80) on one side a contact of insulating layer (130) and; insulating layer (130) formed in the outer surface a resistance circuit board (80) and a heat generated in the heat-sink layer (140); characterized in that it comprises a heat radiating device to rotate resistor air conditioner fan driving motor. 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