CN2704880Y - Distributor of contacting screen - Google Patents
Distributor of contacting screen Download PDFInfo
- Publication number
- CN2704880Y CN2704880Y CN 200420034417 CN200420034417U CN2704880Y CN 2704880 Y CN2704880 Y CN 2704880Y CN 200420034417 CN200420034417 CN 200420034417 CN 200420034417 U CN200420034417 U CN 200420034417U CN 2704880 Y CN2704880 Y CN 2704880Y
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- signal
- interface
- controller
- touch
- processing chip
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Abstract
The utility model relates to a distributor of contacting screen which can realize the signal transmission among a host machine, a plurality of controllers and a plurality of contacting screens. The utility model comprises an RS interface or a USB interface or a PSII interface, a signal processing chip and the RS interface or the USB interface. The signal can be accessed in the host machine by the RS interface or the USB interface or the PSII interface, after the signal passes through the signal processing chip, the input signal can be converted into the signal output required by the corresponding USB interface or the RS interface, and then the signal is transmitted to a controller, after the signal is analyzed and treated by the controller, it is transmitted to the contacting screen, and simultaneously a wave generated from the contacting screen is transmitted to the controller, after the treatment it forms the required signal. Then the signal can be transmitted to the signal processing chip form the controller by the corresponding USB interface or the RS interface. After the input signal is treated by the signal processing chip, the signal is converted into the signal received by the corresponding RS interface or the USB interface or the PSII interface, and then the signal can be transmitted to thehost machine to get treatment by the RS interface or the USB interface or the PSII interface.
Description
Affiliated technical field
The utility model relates to a kind of computer media interfacing, especially a kind of main frame multi-controller that is used for, the touch-screen divider of many touch-screens.
Background technology
At present, a general main frame all can only be with a controller and a touch-screen, like this occasion or the environment of using many touch-screens multi-controller with needs has just been increased unnecessary cost.
Summary of the invention
Drive problem, the especially realization of touch-screen divider that a plurality of touch-screens and controller are worked simultaneously in order to solve a main frame.
The touch-screen divider, it is characterized in that: this utility model is linked to each other with signal processing chip (8) with main frame (1) by RS interface (5) or USB interface (6) or PSII interface (7), by the RS interface (5.1~5.n) or USB interface (6.1~6.n) with signal processing chip (8) and controller (3.1~3.n) are connected to form, main frame (1) passes through RS interface (5) or USB interface (6) or PSII interface (7) signal is inserted, behind signal processing chip (8), input signal is converted into corresponding RS interface (5.1~5.n) or USB interface (6.1~6.n) needed signals outputs, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, (3.1~3.n) are transferred to signal processing chip (8) with the USB interface or the RS interface of signal by correspondence by controller, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) or USB interface (6) or PSII interface (7) are accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) or PSII interface (7) and handles.
Described touch-screen divider, main frame (1) inserts signal by RS interface (5), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) and handles.
Described touch-screen divider, main frame (1) inserts signal by RS interface (5), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) and handles.
Described touch-screen divider, main frame (1) inserts signal by USB interface (6), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) and handles.
Described touch-screen divider, main frame (1) inserts signal by USB interface (6), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) and handles.
Described touch-screen divider, main frame (1) inserts signal by PSII interface (7), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by PSII interface (7) and handles.
Described touch-screen divider, main frame (1) inserts signal by PSII interface (7), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by PSII interface (7) and handles.
Described touch-screen divider, main frame (1) inserts signal by RS interface (5) or USB interface (6), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) and handles.
Described touch-screen divider, machine (1) inserts signal by RS interface (5) or USB interface (6), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) and handles.
Described touch-screen divider, main frame (1) inserts signal by RS interface (5) or USB interface (6), behind signal processing chip (8), input signal is converted into corresponding USB interface (6.1~6.n) or (5.1~5.n) the needed signals outputs of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal by corresponding USB interface (6.1~6.n) or the RS interface (5.1~5.n) are transferred to signal processing chip (8), signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) and handles.
Described touch-screen divider, main frame (1) inserts signal by RS interface (5) or PSII interface (7), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or PSII interface (7) and handles.
Described touch-screen divider, main frame (1) inserts signal by RS interface (5) or PSII interface (7), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or PSII interface (7) and handles.
Described touch-screen divider, main frame (1) inserts signal by RS interface (5) or PSII interface (7), behind signal processing chip (8), input signal is converted into corresponding USB interface (6.1~6.n) or (5.1~5.n) the needed signals outputs of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal by corresponding USB interface (6.1~6.n) or the RS interface (5.1~5.n) are transferred to signal processing chip (8), signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or PSII interface (7) and handles.
Described touch-screen divider, main frame (1) inserts signal by USB interface (6) or PSII interface (7), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the USB interface (6) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) or PSII interface (7) and handles.
Described touch-screen divider, main frame (1) inserts signal by USB interface (6) or PSII interface (7), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the USB interface (6) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) or PSII interface (7) and handles.
Described touch-screen divider, main frame (1) inserts signal by USB interface (6) or PSII interface (7), behind signal processing chip (8), input signal is converted into corresponding USB interface (6.1~6.n) or (5.1~5.n) the needed signals outputs of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal by corresponding USB interface (6.1~6.n) or the RS interface (5.1~5.n) are transferred to signal processing chip (8), signal processing chip (8) is converted into signal the USB interface (6) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) or PSII interface (7) and handles.
Described touch-screen divider, main frame (1) passes through RS interface (5) or USB interface (6) or PSII interface (7) signal is inserted, behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) or USB interface (6) or PSII interface (7) are accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) or PSII interface (7) and handles.
Described touch-screen divider, main frame (1) inserts signal by RS interface (5) or USB interface (6) or PSII interface (7) interface, behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) or USB interface (6) or PSII interface (7) are accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) or PSII interface (7) and handles.
Described touch-screen divider, main frame (1) passes through RS interface (5) or USB interface (6) or PSII interface (7) signal is inserted, behind signal processing chip (8), input signal is converted into corresponding USB interface or the needed signal output of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, (3.1~3.n) are transferred to signal processing chip (8) with the USB interface or the RS interface of signal by correspondence by controller, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) or USB interface (6) or PSII interface (7) are accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) or PSII interface (7) and handles.
The technical scheme that its technical matters that solves the utility model adopts is: finish being connected of main frame and a plurality of controllers by the touch-screen divider.
The beneficial effects of the utility model are, can drive a plurality of controllers simultaneously and touch-screen carries out work by a main frame, have effectively saved cost.
Description of drawings
Below in conjunction with drawings and Examples the utility model is further specified.
Fig. 1 is a fundamental diagram of the present utility model.
Fig. 2 is the structural drawing of first embodiment.
Fig. 3 is the structural drawing of second embodiment.
Fig. 4 is the structural drawing of the 3rd embodiment.
Fig. 5 is the structural drawing of the 4th embodiment.
Fig. 6 is the structural drawing of the 5th embodiment.
Fig. 7 is the structural drawing of the 6th embodiment.
Fig. 8 is the structural drawing of the 7th embodiment.
Fig. 9 is the structural drawing of the 8th embodiment.
Figure 10 is the structural drawing of the 9th embodiment.
Figure 11 is the structural drawing of the tenth embodiment.
Figure 12 is the structural drawing of the 11 embodiment.
Figure 13 is the structural drawing of the 12 embodiment.
Figure 14 is the structural drawing of the 13 embodiment.
Figure 15 is the structural drawing of the 14 embodiment.
Figure 16 is the structural drawing of the 15 embodiment.
Figure 17 is the structural drawing of the 16 embodiment.
Figure 18 is the structural drawing of the 17 embodiment.
Figure 19 is the structural drawing of the 18 embodiment.
Among the figure 1, main frame; 2, touch-screen divider; 3.1 ... 3.n, controller; 4.1 ... 4.n, touch-screen; 5,5.1 ... 5.n, the RS interface; 6,6.1 ... 6.n, USB interface; 7, PSII interface; 8, signal processing chip.
Embodiment
In embodiment illustrated in Figure 2, main frame (1) inserts signal by RS interface (5), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) and handles.
In embodiment illustrated in Figure 3, main frame (1) inserts signal by RS interface (5), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) and handles.
In embodiment illustrated in Figure 4, main frame (1) inserts signal by USB interface (6), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) and handles.
In embodiment illustrated in Figure 5, main frame (1) inserts signal by USB interface (6), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) and handles.
In embodiment illustrated in Figure 6, main frame (1) inserts signal by PSII interface (7), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by PSII interface (7) and handles.
In embodiment illustrated in Figure 7, main frame (1) inserts signal by PSII interface (7), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by PSII interface (7) and handles.
In embodiment illustrated in Figure 8, main frame (1) inserts signal by RS interface (5) or USB interface (6), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) and handles.
In embodiment illustrated in Figure 9, machine (1) inserts signal by RS interface (5) or USB interface (6), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) and handles.
In embodiment illustrated in Figure 10, main frame (1) inserts signal by RS interface (5) or USB interface (6), behind signal processing chip (8), input signal is converted into corresponding USB interface (6.1~6.n) or (5.1~5.n) the needed signals outputs of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal by corresponding USB interface (6.1~6.n) or the RS interface (5.1~5.n) are transferred to signal processing chip (8), signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) and handles.
In embodiment illustrated in Figure 11, main frame (1) inserts signal by RS interface (5) or PSII interface (7), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or PSII interface (7) and handles.
In embodiment illustrated in Figure 12, main frame (1) inserts signal by RS interface (5) or PSII interface (7), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or PSII interface (7) and handles.
In embodiment illustrated in Figure 13, main frame (1) inserts signal by RS interface (5) or PSII interface (7), behind signal processing chip (8), input signal is converted into corresponding USB interface (6.1~6.n) or (5.1~5.n) the needed signals outputs of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal by corresponding USB interface (6.1~6.n) or the RS interface (5.1~5.n) are transferred to signal processing chip (8), signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or PSII interface (7) and handles.
In embodiment illustrated in Figure 14, main frame (1) inserts signal by USB interface (6) or PSII interface (7), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the USB interface (6) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) or PSII interface (7) and handles.
In embodiment illustrated in Figure 15, main frame (1) inserts signal by USB interface (6) or PSII interface (7), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the USB interface (6) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) or PSII interface (7) and handles.
In embodiment illustrated in Figure 16, main frame (1) inserts signal by USB interface (6) or PSII interface (7), behind signal processing chip (8), input signal is converted into corresponding USB interface (6.1~6.n) or (5.1~5.n) the needed signals outputs of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal by corresponding USB interface (6.1~6.n) or the RS interface (5.1~5.n) are transferred to signal processing chip (8), signal processing chip (8) is converted into signal the USB interface (6) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) or PSII interface (7) and handles.
In embodiment illustrated in Figure 17, main frame (1) passes through RS interface (5) or USB interface (6) or PSII interface (7) signal is inserted, behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) or USB interface (6) or PSII interface (7) are accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) or PSII interface (7) and handles.
In embodiment illustrated in Figure 18, main frame (1) inserts signal by RS interface (5) or USB interface (6) or PSII interface (7) interface, behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) or USB interface (6) or PSII interface (7) are accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) or PSII interface (7) and handles.
In embodiment illustrated in Figure 19, main frame (1) passes through RS interface (5) or USB interface (6) or PSII interface (7) signal is inserted, behind signal processing chip (8), input signal is converted into corresponding USB interface or the needed signal output of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, (3.1~3.n) are transferred to signal processing chip (8) with the USB interface or the RS interface of signal by correspondence by controller, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) or USB interface (6) or PSII interface (7) are accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) or PSII interface (7) and handles.
Claims (19)
1. touch-screen divider, it is characterized in that: this utility model is linked to each other with signal processing chip (8) with main frame (1) by RS interface (5) or USB interface (6) or PSII interface (7), by the RS interface (5.1~5.n) or USB interface (6.1~6.n) with signal processing chip (8) and controller (3.1~3.n) are connected to form, main frame (1) passes through RS interface (5) or USB interface (6) or PSII interface (7) signal is inserted, behind signal processing chip (8), input signal is converted into corresponding RS interface (5.1~5.n) or USB interface (6.1~6.n) needed signals outputs, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, (3.1~3.n) are transferred to signal processing chip (8) with the USB interface or the RS interface of signal by correspondence by controller, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) or USB interface (6) or PSII interface (7) are accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) or PSII interface (7) and handles.
2. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by RS interface (5), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) and handles.
3. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by RS interface (5), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) and handles.
4. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by USB interface (6), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) and handles.
5. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by USB interface (6), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) and handles.
6. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by PSII interface (7), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by PSII interface (7) and handles.
7. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by PSII interface (7), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by PSII interface (7) and handles.
8. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by RS interface (5) or USB interface (6), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) and handles.
9. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by RS interface (5) or USB interface (6), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) and handles.
10. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by RS interface (5) or USB interface (6), behind signal processing chip (8), input signal is converted into corresponding USB interface (6.1~6.n) or (5.1~5.n) the needed signals outputs of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal by corresponding USB interface (6.1~6.n) or the RS interface (5.1~5.n) are transferred to signal processing chip (8), signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that USB interface (6) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) and handles.
11. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by RS interface (5) or PSII interface (7), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or PSII interface (7) and handles.
12. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by RS interface (5) or PSII interface (7), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or PSII interface (7) and handles.
13. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by RS interface (5) or PSII interface (7), behind signal processing chip (8), input signal is converted into corresponding USB interface (6.1~6.n) or (5.1~5.n) the needed signals outputs of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal by corresponding USB interface (6.1~6.n) or the RS interface (5.1~5.n) are transferred to signal processing chip (8), signal processing chip (8) is converted into signal the RS interface (5) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, will believe that by RS interface (5) or PSII interface (7) mother is sent to main frame (1) and handles again.
14. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by USB interface (6) or PSII interface (7), behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the USB interface (6) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) or PSII interface (7) and handles.
15. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by USB interface (6) or PSII interface (7), behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the USB interface (6) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) or PSII interface (7) and handles.
16. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by USB interface (6) or PSII interface (7), behind signal processing chip (8), input signal is converted into corresponding USB interface (6.1~6.n) or (5.1~5.n) the needed signals outputs of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal by corresponding USB interface (6.1~6.n) or the RS interface (5.1~5.n) are transferred to signal processing chip (8), signal processing chip (8) is converted into signal the USB interface (6) of correspondence or the signal that PSII interface (7) is accepted after treatment with input signal, passes the signal to main frame (1) again by USB interface (6) or PSII interface (7) and handles.
17. touch-screen divider according to claim 1, it is characterized in that: main frame (1) passes through RS interface (5) or USB interface (6) or PSII interface (7) signal is inserted, behind signal processing chip (8), input signal is converted into (5.1~5.n) the needed signal outputs of corresponding RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (5.1~5.n) are transferred to signal processing chip (8) by corresponding RS interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) or USB interface (6) or PSII interface (7) are accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) or PSII interface (7) and handles.
18. touch-screen divider according to claim 1, it is characterized in that: main frame (1) inserts signal by RS interface (5) or USB interface (6) or PSII interface (7) interface, behind signal processing chip (8), input signal is converted into (6.1~6.n) the needed signal outputs of corresponding USB interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, by controller (3.1~3.n) with signal (6.1~6.n) are transferred to signal processing chip (8) by corresponding USB interface, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) or USB interface (6) or PSII interface (7) are accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) or PSII interface (7) and handles.
19. touch-screen divider according to claim 1, it is characterized in that: main frame (1) passes through RS interface (5) or USB interface (6) or PSII interface (7) signal is inserted, behind signal processing chip (8), input signal is converted into corresponding USB interface or the needed signal output of RS interface, be sent to controller (3.1~3.n) then, (3.1~3.n) carry out signal to be sent to touch-screen again (on 4.1~4.n) after the analyzing and processing by controller, (4.1~4.n) ripples of going up generation are transferred to controller, and (3.1~3.n) form the signal that needs after treatment by touch-screen simultaneously, (3.1~3.n) are transferred to signal processing chip (8) with the USB interface or the RS interface of signal by correspondence by controller, signal processing chip (8) is converted into signal the signal that corresponding RS interface (5) or USB interface (6) or PSII interface (7) are accepted after treatment with input signal, passes the signal to main frame (1) again by RS interface (5) or USB interface (6) or PSII interface (7) and handles.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200420034417 CN2704880Y (en) | 2004-04-19 | 2004-04-19 | Distributor of contacting screen |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200420034417 CN2704880Y (en) | 2004-04-19 | 2004-04-19 | Distributor of contacting screen |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN2704880Y true CN2704880Y (en) | 2005-06-15 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 200420034417 Expired - Lifetime CN2704880Y (en) | 2004-04-19 | 2004-04-19 | Distributor of contacting screen |
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| Country | Link |
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| CN (1) | CN2704880Y (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101593072B (en) * | 2009-04-28 | 2011-05-11 | 广东威创视讯科技股份有限公司 | Method for processing stroke breaks in spliced wall multi-person labeling system |
| CN103902191A (en) * | 2012-12-24 | 2014-07-02 | 联想(北京)有限公司 | Display method and electronic device |
| CN109308142A (en) * | 2018-08-31 | 2019-02-05 | 中国人民解放军陆军工程大学 | The more touch screen man-machine interactive systems of single host and its implementation |
-
2004
- 2004-04-19 CN CN 200420034417 patent/CN2704880Y/en not_active Expired - Lifetime
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101593072B (en) * | 2009-04-28 | 2011-05-11 | 广东威创视讯科技股份有限公司 | Method for processing stroke breaks in spliced wall multi-person labeling system |
| CN103902191A (en) * | 2012-12-24 | 2014-07-02 | 联想(北京)有限公司 | Display method and electronic device |
| CN109308142A (en) * | 2018-08-31 | 2019-02-05 | 中国人民解放军陆军工程大学 | The more touch screen man-machine interactive systems of single host and its implementation |
| CN109308142B (en) * | 2018-08-31 | 2022-03-15 | 中国人民解放军陆军工程大学 | Single-host multi-touch screen man-machine interaction system and implementation method thereof |
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Owner name: JIRUI TOUCH COMPUTER CO., LTD., CHENGDU Free format text: FORMER OWNER: ZHONG DECHAO; PATENTEE Effective date: 20060602 |
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Effective date of registration: 20060602 Address after: 610041 No. 6 Park South Road, hi tech Zone, Sichuan, Chengdu Patentee after: Chengdu Jirui Touch Computer Co., Ltd. Address before: 610051 Sichuan city of Chengdu province Jinchengyuan Shuhan Road No. 289 Building 1 unit 14 No. 1 Co-patentee before: Li Haitao Patentee before: Zhong Dechao |
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| C56 | Change in the name or address of the patentee |
Owner name: CHENGDU JIRUI TOUCH TECHNOLOGY CO. Free format text: FORMER NAME OR ADDRESS: JIRUI TOUCH COMPUTER CO., LTD., CHENGDU |
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| CP03 | Change of name, title or address |
Address after: 610041 No. 6 Park South Road, hi tech Zone, Sichuan, Chengdu Patentee after: Chengdu General Touch Technology Co., Ltd. Address before: 610041 No. 6 Park South Road, hi tech Zone, Sichuan, Chengdu Patentee before: Chengdu Jirui Touch Computer Co., Ltd. |
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| C17 | Cessation of patent right | ||
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Expiration termination date: 20140419 Granted publication date: 20050615 |