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An exemplary injection molding apparatus includes a first mold defining a passage therein, a second mold engaging with the first mold, working fluid received in the passage of the first mold, and a thermal conductive member engaged in the first mold and thermally interconnecting the first mold and t

An exemplary injection molding apparatus includes a first mold defining a passage therein, a second mold engaging with the first mold, working fluid received in the passage of the first mold, and a thermal conductive member engaged in the first mold and thermally interconnecting the first mold and the working fluid. The first mold and the second mold cooperatively define a molding chamber therebetween adapted to receive injected molten material therein. The thermal conductive member transfers heat from the first and second molds to the working fluid when the first and second molds are hotter than the working fluid, and transfers heat from the working fluid to the first and second molds when the working fluid is hotter than the first and second molds.

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1. An injection molding apparatus comprising: a first mold defining a passage therein;a second mold engaging with the first mold, the first mold and the second mold cooperatively defining a molding chamber therebetween adapted to receive injected molten material therein;working fluid received in the

1. An injection molding apparatus comprising: a first mold defining a passage therein;a second mold engaging with the first mold, the first mold and the second mold cooperatively defining a molding chamber therebetween adapted to receive injected molten material therein;working fluid received in the passage of the first mold; anda thermostat assembly comprising a thermal conductive member thermally contacting the first mold and directly contacting the working fluid, a heating and cooling device, and a controller detecting a temperature of the first mold and the second mold and controlling the heating and cooling device to heat or cool the working fluid to adjust a temperature of the working fluid to alter a cooling speed of a desired product received in the molding chamber via heat exchange between the thermal conductive member and the working fluid. 2. The injection molding apparatus of claim 1, wherein the thermostat assembly further comprises a tube communicating with the passage of the first mold, the tube and the passage cooperatively form a circulatory loop, and the working fluid circulates along the circulatory loop. 3. The injection molding apparatus of claim 1, wherein the second mold is a female mold, and defines a cavity therein, the first mold is a male mold, and comprises a base and a protruding portion protruding from the base, and the protruding portion is inserted in the cavity and spaced from the female mold to define the molding chamber therebetween. 4. The injection molding apparatus of claim 3, wherein one portion of the thermal conductive member is embedded in the male mold and another portion of the thermal conductive member is exposed and received in the passage. 5. The injection molding apparatus of claim 4, wherein the one portion of the thermal conductive member extends through the base and is embedded in a center of the protruding portion of the male mold. 6. The injection molding apparatus of claim 4, wherein the passage is defined in a front portion of the base and extends through the base from top to bottom. 7. The injection molding apparatus of claim 6, wherein a recess is defined in a center of an internal wall of the base that bounds the passage, the recess communicates with the passage, and the other portion of the thermal conductive member is received in the recess and the passage. 8. The injection molding apparatus of claim 3, wherein the thermal conductive member is entirely embedded in the protruding portion of the male mold. 9. The injection molding apparatus of claim 8, wherein the passage is defined in the protruding portion and located at an end of the thermal conductive member. 10. The injection molding apparatus of claim 9, wherein an end of the thermal conductive member is exposed to the passage such that the working fluid contacts the end of the thermal conductive member. 11. The injection molding apparatus of claim 3, wherein the female mold comprises a base plate and two shoulders protruding from opposite ends of a front surface of the base plate, and the base plate and the shoulders cooperatively define the cavity therebetween. 12. The injection molding apparatus of claim 11, wherein the shoulders abut and thermally contact the base of the male mold. 13. An injection molding apparatus comprising: a first mold containing working fluid therein;a second mold engaging with the first mold, the first mold and the second mold cooperatively defining a molding chamber therebetween to receiving injected molten material therein; anda thermostat assembly comprising a thermal conductive member thermally contacting the first mold and directly contacting the working fluid, and a temperature regulating module detecting a temperature of the first mold and the second mold and adjusting the temperature of the first mold and the second mold via heat exchange between the thermal conductive member and the working fluid to adjust a cooling speed of the molten material received in the molding chamber. 14. The injection molding apparatus of claim 13, wherein a passage is defined in the first mold, the working fluid is contained in the passage, and the thermal conductive member thermally contacts the first mold and the working fluid in the passage to exchange heat therebetween. 15. The injection molding apparatus of claim 14, wherein the temperature regulating module comprises a tube communicating with the passage, a heating and cooling device, and a controller detecting a temperature of the first mold and the second mold and controlling the heating and cooling device to heat or cool the working fluid to adjust a temperature of the working fluid to alter the cooling speed of the molten material received in the molding chamber. 16. The injection molding apparatus of claim 14, wherein one end of the thermal conductive member is embedded in the first mold and the other end of the thermal conductive member is exposed and received in the passage. 17. The injection molding apparatus of claim 16, wherein a recess is defined in the first mold and communicates with the passage, and the corresponding other end of the thermal conductive member is received in the recess and the passage. 18. The injection molding apparatus of claim 15, wherein the thermal conductive member is entirely embedded in the first mold. 19. The injection molding apparatus of claim 13, wherein the first mold is a male mold, and the second mold is a female mold. 20. An injection molding apparatus comprising: a first mold defining a passage therein;a second mold engaging with the first mold, the first mold and the second mold cooperatively defining a molding chamber therebetween adapted to receive injected molten material therein;working fluid received in the passage of the first mold; anda thermal conductive member engaged in the first mold and thermally interconnecting the first mold and directly contacting the working fluid, the thermal conductive member transferring heat from the first and second molds to the working fluid when the first and second molds are hotter than the working fluid, and transferring heat from the working fluid to the first and second molds when the working fluid is hotter than the first and second molds.