Inkjet chip and contro circuit of printing module of rapid prototyping apparatus

What is claimed is: 1 . An inkjet chip used in a printing module of a rapid prototyping apparatus, wherein the printing module includes a printing platform, a carrying seat and at least two modular ink cartridges, and the at least two modular ink cartridges are disposed on the carrying seat, wherein each of the modular ink cartridges has a case body and three ink chambers, the three ink chambers are divided within the case body for receiving different print liquids, respectively, and the case bodies of the at least two modular ink cartridges contain at least one print liquid the same with each other, wherein the inkjet chip is disposed on a bottom of the case body of the modular ink cartridge and has a length and a width to define a total area, the inkjet chip comprising: an unwiring area having at least three liquid supply slots in parallel with each other and respectively connected to one of the three ink chambers of the modular ink cartridge; and a wiring area having a control circuit, wherein the control circuit includes a plurality of liquid ejectors and each liquid ejector has a heating resistor, a driving transistor and a nozzle, wherein the heating resistors are disposed on the inkjet chip and sealed by a nozzle plate, the nozzles are disposed on the nozzle plate and corresponding to the heating resistors, the plural liquid ejectors are arranged along an axis and disposed at the bilateral sides of the corresponding liquid supply slot in staggered arrangement, and the ratio of the wiring area of the inkjet chip to the total area of the inkjet chip is ranged from 85.03% to 94.65%. 2 . The inkjet chip according to claim 1 , wherein each inkjet chip includes four liquid supply slots disposed thereon. 3 . The inkjet chip according to claim 2 , wherein the ratio of the wiring area of the inkjet chip to the total area of the inkjet chip is ranged from 80.05% to 92.87%. 4 . The inkjet chip according to claim 1 , where any two adjacent liquid supply slots have a distance at 1.27 mm. 5 . The inkjet chip according to claim 1 , wherein the aspect ratio of the length of the inkjet chip to the width of the inkjet chip is ranged from 2.2 to 3.08. 6 . The inkjet chip according to claim 1 , wherein the inkjet chip has 2400 liquid ejectors. 7 . The inkjet chip according to claim 1 , wherein any two adjacent liquid ejectors in different rows have a vertical distance at 1/600 inch. 8 . The inkjet chip according to claim 1 , wherein the control circuit is connected to receive a power signal, a printing data signal, a preheating data signal, a preheating control signal, a reverse preheating control signal, a heating control signal, and a reverse heating control signal and connected with a common connection node for controlling the liquid ejector, the heating resistor has an input terminal for receiving the power signal and an output terminal connected with an input terminal of the driving transistor, the driving transistor has an output terminal connected to the common connection node, and the driving transistor is controlled by the control circuit, the control circuit comprises: a first switch circuit having an input terminal for receiving the power signal and a control terminal connected to the heating resistor; a second switch circuit having an input terminal for receiving the power signal, an output terminal connected to the heating resistor, and a control terminal connected to the output terminal of the first switch circuit; a third switch circuit having two control terminals for receiving the heating control signal and the print data signal respectively, an output terminal connected to the common connection node, and an input terminal connected to the input terminal of the first switch circuit and the control terminal of the second switch circuit; a fourth switch circuit having two control terminals connected to receive the preheating control signal and the preheating data signal respectively, an output terminal connected to the common connection node, and an input terminal connected to the input terminal of the first switch circuit, the control terminal of the second switch circuit and the input terminal of third switch circuit; a fifth switch circuit having two control terminals connected to receive the reverse heating control signal and the printing data signal, an output terminal connected to the common connection node, and an input terminal connected to the control terminal of the first switch circuit, the output terminal of the second switch circuit, and the control terminal of the liquid ejector; and a sixth switch circuit having two control terminals connected to receive the preheating control signal and the preheating data signal, an output terminal connected to the common connection node and an output terminal connected to the control terminal of the first switch circuit, the output terminal of the second switch circuit and the control terminal of the liquid ejector; wherein when the preheating control signal and the preheating data signal are at high voltage levels and the reverse preheating control signal is at low voltage level, the sixth switch circuit is turned off, the second switch circuit is controlled by the output terminal of the first switch circuit and the fourth switch circuit is turned on, so that the power signal is transmitted to the heating resistor from the second switch circuit and the heating resistor preheats a part of the print ink and the inkjet chip; and when the print data signal and the heating control signal are at high voltage levels and the reverse heating control signal is at low voltage level, the fifth switch circuit is turned off, the second switch circuit is controlled by the output terminal of the first switch circuit and the third switch circuit is turned on, so that the power signal is transmitted to the heating resistor from the second switch circuit and the heating resistor heats a part of the print ink to generate a bubble and eject the print ink through the nozzle of the inkjet chip. 9 . The inkjet chip according to claim 8 , wherein the first switch circuit of the control circuit includes a first switch element having a gate terminal, a drain terminal and a source terminal, wherein the source terminal of the first switch element is connected to receive the power signal, the drain terminal of the first switch element is connected to the control terminal of the second switch circuit, and the gate terminal of the first switch element is connected to the heating resistor, so as to determine if the first switch element is turned on by the gate terminal thereof. 10 . The inkjet chip according to claim 9 , wherein the second switch circuit of the control circuit includes a second switch element having a gate terminal, a drain terminal and a source terminal, wherein the source terminal of the second switch element is connected to receive the power signal, the drain terminal of the second switch element is connected to the control terminal of the heating resistor, and the gate terminal of the second switch element is connected to the drain terminal of the first switch element, so as to determine if the second switch element is turned on by the gate terminal thereof. 11 . The inkjet chip according to claim 9 , wherein the third switch circuit of the control circuit includes a third switch element and a fourth switch element in series, and the third switch element and the fourth switch have a gate terminal, a drain terminal and a source terminal, respectively, wherein the gate terminal of the third switch element is connected to receive the heating control signal for determining if the third switch element is turned on by the control of the heating co