TWM299849U - The heat pipe maximum heat transfer rate test platform machine - Google Patents

Description

M299849 VIII. New description: [New technical field] The author uses the principle of heat transfer balance to measure the heat transfer capacity of the heat pipe, and the flow passage device in the condensing end device has heat dissipation fins for air and The test of the two fluids of the water, and the rotation of the strut frame to produce the heat pipe test device of each heat pipe test. Φ [Prior Art] It is expected that the electronics industry will use a heat pipe to dissipate heat with a light electronic tree and heat. However, the heat transfer capacity of the fresh heat is directly unknown to the #界界,' the reason is As shown in the figure - as shown in the figure, the heat pipe (10) is embedded with a heating rod (30), and the plate (40) is heated by electric heating of the heating rod (3〇) to transfer the heat to the upper and lower force. a plate (40), which is radiated by the heat officer (10) to the atmosphere, or uses air to balance the heat of the heat pipe to determine the heat transfer capacity of the heat pipe, but often because of the external flow field The test was not accurate and could not tell the true heat balance, and it was not convinced by the industry. [New content] White = heat: m is set as shown in the figure _. Since the actual amount of heat transfer of the heat balance cannot be calculated because the amount of heat loss cannot be calculated, industrial requirements cannot be met. This creation, please refer to the second picture, which includes the internal control of the machine control box (10) (control computer, water cycle, air compressor air pressure source and PLC control board, for the tool used in the M299849 Not shown in the figure), the upper and lower heat pipe test mold set (10) is equipped with a heater (10), a heat insulator (10) and a gas-liquid condenser (10), because both air and water can pass through the gas-liquid condenser ( 220) The internal flow channel, and the heat energy of the heat pipe (10) is transferred to the money or water by using the heat dissipation Z (270), and the heat transfer energy of the heat pipe (10) can be calculated by using the temperature difference between the inlet and the outlet of the flow channel, and the heat is heated by the automatic control. Cry (the heating power value of _ can measure the heat transfer amount of various heats of the wire). A new type of coexisting heat pipe test machine that can automatically measure the gas and water. [Embodiment] In order to make the person specializing in this skill It is more familiar with the true meaning of this creation. The principle of the machine components is explained in detail in Figure 3 to Figure 7. Figure 3 is a perspective view of the structure of the air pressure cooling fixture, the bakelite insulation fixture and the rotating platform. The vertical thrust of the oil cylinder (10) The oil pneumatic cylinder upper plate frame (10) can be clamped with the oil pneumatic cylinder lower plate frame (140), and the upper and lower heat pipe test mold group (just) can be placed between them to generate the upper and lower clamping molds. The force application _, so that it is tightly combined, so that the thermocouple on the heat pipe surface can be in close contact (f knowing not drawn), the overall rotating platform (10) can be adjusted according to the angle of the test of the angle 11 (12 ()) Angle, and the fixed column frame (10) can be combined with the rotation of the _28 〇), and the Langding column frame _ can be combined with the machine control box __, and both are equipped with a number of gambling wheels Easy to move and carry. In Figure 4, it can be seen that the upper and lower heat pipe test die set (sharp) contains the heater (200) with the heating bar. 'In order to obtain the upper and lower temperature equalization effect, the upper and lower heat pipe test puller group (10)) are both upper and lower symmetrical devices. The same, and the heat pipe (10)) in between, using the 5 M299849 heater (2〇0) heating heat pipe (210), the energy is transferred through the heat pipe, through the insulation of the bakelite and other insulation (230), and then, The liquid-liquid condensation with the inner flow passage of the heat-dissipating fin (27〇) is (220) 'The heat is transferred from the heat pipe by the air or water flowing through the heat-dissipating fins (270), which is accurately and quickly measured. The temperature difference between the inlet and outlet of the flow channel, and then the heat transfer amount of the heat pipe, is more clearly seen in Figure 5. The heat dissipating fins (27_ with the heat pipe copper bottom bearing (10)), the fresh (10)) fresh carrying grooves (24_(four) heat To the air or water outside the heat dissipating fins (270), the characteristics of this creation are due to the flow of air and water through the inner flow channel, and the outer walls are all insulated by the heat insulating plate (_, so it can be accurately and quickly measured (4) The temperature of the air or water, and the heat loss of the control machine (including the light heat is precisely controlled τ, The value of the voltage and current of the calorific value can be accurately recorded. The condensation of air or water, such as (220), can be calculated in an accurate manner, and the overall upper and lower heat 'tube test mold set (10)) is also insulated (10)). Sealing to prevent heat loss', it is one of the characteristics of this creation. This creation, and the traditional heat pipe test (belonging to the external flow field test method), the biggest non-same as the creation of heat pipe test air and water In the flow channel of the gas-liquid condenser (10)), it belongs to the internal flow field test method, so the heat-insulating plate (the _ 之 敎 呈 = = = = _ _ _ _ _ _ _ _ _ _ _ _ _ _ Two progressive 'and can be the fineness requirement on the production f, so the new patent 6 M299849 [Simple description of the diagram] The first picture is a perspective view of the conventional heat pipe test device. The second picture is the heat of the heat pipe of the creation. The three-dimensional structure of the transmission test machine. The third picture shows the structure of the air clamp fixture, the bakelite insulation fixture and the rotating platform. The fourth picture is the perspective view of the interior structure of the bakelite insulation fixture. The fifth picture shows the condenser structure of this creation. Fig. 6 is a perspective view of the structure of the rotating platform of the present creation. The seventh picture is a perspective view of the structure of the pneumatic clamp fixture of the present creation. [Explanation of main component symbols] [General knowledge] 10 heat pipe 20 heating up and down cover plate 30 heating rod [this Creation] 120 angle scriber 140 oil pressure cylinder lower plate frame 160 machine control box 180 front control box plate 200 heater 220 gas-liquid condenser 110 fixed pillar plate 130 rotating column plate 150 oil pressure cylinder 170 pulley 190 upper and lower heat pipe test mold group 210 heat pipe M299849 230 heat insulator 240 heat pipe bearing groove 270 heat dissipation fin 280 rotating column shaft 290 oil pressure cylinder upper plate frame

Claims (1)

M299849 Nine, the scope of application for patents: 1. A heat pipe maximum heat transfer test machine, including: a gas-liquid condenser, the internal flow channel can be equipped with heat-dissipating fins, flowable gas or liquid flow field flow A test tube set with upper and lower heat pipes, which can be equipped with an electric heating rod heater, a bakelite insulator, a gas-liquid condenser, and the outside is insulated by a heat insulating plate; one has an angle control on the angled horn The rotating strut plate frame enables the heat pipe to measure the heat transfer amount at different angles; and the machine control box having the outer box.