JP4024114B2 - Signal acquisition system from analytical instruments - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a system for collecting signals from an analytical instrument for use in measuring exhaust gas from an engine.
[0002]
[Prior art]
In a technique for collecting signals from an analysis device or the like, usually, a plurality of devices are connected to one amplifier to collect signals. In the case of collecting signals by inputting signals from such a plurality of devices to one amplifier, a relay connector board is generally used. (For example, Patent Document 1)
[Patent Document 1]
JP2002-25661
[0003]
For example, when two analytical instruments are connected to one amplifier, if an 8-channel signal is used as a signal from the analytical instrument, the amplifier needs to have a capacity for capturing a 16-channel signal. A conventional system in such a case will be described with reference to FIGS. In FIG. 4, 1 is a vehicle, 2 is an engine incorporated in the vehicle, 3, 3 'is analysis means such as analytical equipment for analyzing exhaust gas etc. from the engine 2, 4 is a relay connector board, and 5 is an amplifier. is there. The analysis means 3 and 3 ′ are connected to the relay connector board 4 by the connector cable 11, and the relay connector board 4 is connected to the amplifier 5 and the connector cable 10. Reference numeral 20 denotes a connector connecting portion incorporated in the amplifier 5 for inputting a signal to the amplifier 5, and reference numerals 21 and 22 denote connecting portions provided at both ends of the connector cable 10. Reference numerals 23 and 24 denote connector connecting portions provided on the relay connector board 14, 23 being provided to correspond to the amplifier 5 side, and 24 corresponding to the analyzing means 3 and 3 'side. Reference numerals 25, 26, and 27 denote connection portions provided at both ends of the connector cable 11, 25 corresponds to the connection portion 24 of the relay connector board, and 26 and 27 are connected to the analysis means 3 and 3 ′, respectively.
[0004]
FIG. 5 is a diagram showing in detail a connection portion for connecting the relay connector board 4 to the analysis means 3 and the amplifier 5 in the conventional system shown in FIG. The connection part 23 provided so as to correspond to the amplifier 5 side and the connection part 24 provided so as to correspond to the analysis means side have a structure for capturing a 16-channel signal and are surrounded by a dotted line. It has a 16-pin connector structure as shown in the figure. Therefore, the electrical connection portion (for example, the connector cable 10) that connects the relay connector board 4 and the amplifier 5 has a one-to-one correspondence of 16 channels to 16 channels, and has an electrically simple structure (for example, a simple 16). Channel cable).
[0005]
Further, the connector cable 11 is connected to the signal from the analyzing means 3, 3 ′ by the connecting part 25 corresponding to the connecting part 24 on the relay connector board side and the connecting parts 26, 27 corresponding to each of the analyzing means 3, 3 ′. Is transmitted to the relay connector board 4. Here, the connection unit 25 has a structure for transmitting a 16-channel signal similarly to the connection units 23 and 24, and the connection units 26 and 27 have a structure for transmitting an 8-channel signal. Have. As a result, the 8-channel signals obtained from the analyzing means 3 are respectively transmitted to the connecting portion 24 (or the connecting portion 25 of the connector cable 11) of the relay connector board 4 on the analyzing means 3 side, and taken in as 16-channel signals. It is. That is, the 8-channel signal from the analysis unit 3 is input to the channels (1) to (8) of the connection unit 24 (or 25), and the 8-channel signal from the analysis unit 3 ′ is input to the connection unit 24 (or 25) are input to the channels (9) to (16), and are input to the connection unit 24 as signals (1) to (16). Therefore, the connector cable 11 originally needs to be a crotch connector cable divided into 8 channel-8 channel cables by processing such as cutting the 16 channel cable.
[0006]
[Problems to be solved by the invention]
However, when trying to make such a crotch cable, it is necessary to cut and process the 16-channel cable, and it is necessary to create an 8-channel cable, and the cable 11 is analyzed 11a and 11b . Care must be taken not to mistake the order of connection to the means. In the case where the signal obtained from the analyzing means 3 is four channels, the cable 11 needs to be processed more complicatedly (4 channels × 4) when four analyzing means are connected to the amplifier 5. Further, the length of the cable 11 is a restriction on the distance between the analyzing means 3 and the relay connector board 4. As a result, the positions where the analysis means and the amplifier 5 are arranged are also considerably restricted by the length of the cable 11.
[0007]
[Means for Solving the Problems]
The present invention has been made in consideration of the above-described problems, and is an analysis unit such as an analytical instrument, an amplifier as a control unit that collects data from the analysis unit, performs control and management, and A signal collecting system from an analytical instrument comprising a connector substrate for connecting an analysis means and an amplifier via a connector cable,
(A) The m connecting portions A on the analyzing means side provided on the connector board have the same shape, and the connector cables connecting the analyzing means are independent and the same cables ,
(B) Each of the connection parts A has n channels, and the connection part B provided on the amplifier 5 side has m × n channels,
The m × n channel signals input from the connection unit A are transmitted by the electrical signal conversion unit provided on the connector board so as to correspond to the m × n channels of the connection unit B,
(C) The n channels of any one of the connection portions A are changed to the channels (1) to (n), (n + 1) to (2n) of the connection portion B, ((m−1) × n) to (m × n), and the other n channels of the connection portion A are connected to (n + 1) to (2n), (, (m− 1) correspond to any of xn) to (mxn),
(D) It has a structure capable of inputting a signal of one channel of the connection portion A to a channel of the connection portion B corresponding to it and inputting a signal of another channel to the channel of the connection portion B corresponding thereto. The crotch cable obtained by dividing the channel cable of the connection part B for each of the n channels of the connection part A is incorporated in the connector board as the electrical signal conversion part, and the connection part B and the connection part A And a signal collecting system from an analytical instrument, characterized in that it has a structure capable of connecting to each other.
[0008]
The lengths of the connector cables can be selected, and cables having different lengths are selectively used depending on the position of the analyzing means to be arranged.
DETAILED DESCRIPTION OF THE INVENTION
[0009]
FIG. 1 is a diagram showing a configuration of a relay connector board 14 that can input two signals by connecting two 8-channel connector cables 12 and 13 to a 16-channel amplifier 5 as an example of the present invention. is there. In FIG. 1, the same reference numerals are given to the portions representing the same configuration as in FIG. 4 or 5. In FIG. 1, reference numerals 12 and 13 denote independent connector cables for connecting the relay connector board 14 and the analyzing means 3 and 3 ', and connection portions 30 and 31 of the relay connector board 14 (corresponding to the connection portion A). Are connected by connecting portions 34 and 35, respectively. Further, the analyzing means 3 and 3 ′ are connected by connecting portions 34 and 35. The connector cables 12 and 13 are cables for transmitting ordinary 8-channel signals and have substantially the same configuration. Therefore, the connection portions 32 to 34 of the connector cables 12 and 13 each have an 8-channel (8-pin) structure having substantially the same shape. Therefore, the shape of the connection parts 30 and 31 on the relay connector board 14 side corresponding to the connection parts 32 and 33 is also the shape corresponding to the connection parts 32 and 33, and has an 8-channel (8-pin) structure. . FIG. 2 is a perspective view of the connector cables 12 and 13 connected to the relay connector board 14. This perspective view shows a case where the lengths of the connector cables 12 and 13 are different.
[0010]
The 8-channel signals obtained from the analyzing means 3 and 3 ′ are respectively taken into the relay connector board 14 as 8 channel × 2 signals, and the electrical signal converter 40 in the relay connector board 14 (not shown) It is transmitted to the amplifier 5 side as a 16-channel signal. FIG. 3 will be described with reference to details of the electrical signal converter 40 in the relay connector board 14.
[0011]
Reference numeral 23 denotes a connection portion B provided on the amplifier connector 5 side of the relay connector board 14 and has a 16-pin structure (channels (1) to (16)). Reference numerals 30 and 31 denote connection parts to which the connection parts 32 and 33 of the connector cables 12 and 13 are connected, and each has an 8-channel (8-pin) structure. The 8 channels × 2 signals input from the connection units 32 and 33 are associated with the 16 channels of the signals (1) to (8) by either one of the 8 channels by the electrical signal conversion unit 40 in the relay connector board 14. The other 8 channel signals are transmitted so as to correspond to the 16 channel signals (9) to (16). In FIG. 3, 8-channel signals input from the connection unit 30 are input to the signals (1) to (8), and 8-channel signals input from the connection unit 31 are input to the signals (9) to (16). An example is shown.
[0012]
The electrical signal converter 40 in FIG. 3 does not require a particularly complicated structure, and the 16-channel signal is divided into 8 channels from signals (1) to (8) and 8 from (9) to (16). What is necessary is just to have a structure which divides | segments into a channel. Further, the electrical signal conversion unit 40 of the relay connector cable board 14 constituting the present invention is not limited to such a structure. The structure may be such that it is incorporated in the relay connector board 14 and the connection part 23 on the amplifier side and the connection parts 30 and 31 on the analysis means side are connected.
[0013]
In the above example, the connector cables 12 and 13 may have different lengths as described above. In that case, the amplifier 5 can be arranged regardless of the positions of the analyzing means 3 and 3 ′ by properly using cables having different lengths depending on the position of the analyzing means to be arranged.
[0014]
In the present embodiment, an example in which signals are transmitted to a 16-channel amplifier using two 8-channel connector cables has been described. The present invention is also effective in an embodiment in which the means 3 is transmitted to a 16-channel amplifier by using four 4-channel connector cables. In this case, since the labor of processing one connector cable (16 channels) and creating four crotch cables can be saved, a greater man-hour reduction can be expected. At the same time, by selecting the length of these cables, there are fewer restrictions on the location of the analysis means connected to each cable, so it is more effective for analysis in places where space is limited. It is.
【The invention's effect】
[0015]
According to the present invention described above, the signal from the analysis means can be guided to the relay connector board using the same cable, so there is no need to prepare a plurality of types of connector cables, and each analysis Since an independent connector cable is connected to the means, there is an effect that restrictions such as a position where the analyzing means is arranged are reduced.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing the overall configuration of an analysis system used in an embodiment of the present invention.
FIG. 2 is an explanatory diagram showing a configuration of an analysis system used in one embodiment of the present invention. FIG. 3 is a diagram for showing the inside of a relay connector board used in one embodiment of the present invention.
FIG. 4 is an explanatory diagram showing an overall configuration of a conventional analysis system.
FIG. 5 is a diagram showing a configuration of an example of a conventional analysis system.
DESCRIPTION OF SYMBOLS 1 ... Vehicle, 2 ... Engine, 3 ... Analysis means, 4 ... Relay connector board, 5 ... Amplifier 10, 11, 12, 13 ... Connector cable

Claims (2)

Analysis comprising analysis means such as an analytical instrument, an amplifier as a control unit for collecting, controlling and managing data from the analysis means, and a connector substrate for connecting the analysis means and the amplifier via a connector cable A signal collection system from equipment,
(A) The m connecting portions A on the analyzing means side provided on the connector board have the same shape, and the connector cables connecting the analyzing means are independent and the same cables ,
(B) Each of the connection portions A has n channels, and the connection portion B provided on the amplifier side has m × n channels,
The m × n channel signals input from the connection unit A are transmitted by the electrical signal conversion unit provided on the connector board so as to correspond to the m × n channels of the connection unit B,
(C) The n channels of any one of the connection portions A are changed to the channels (1) to (n), (n + 1) to (2n) of the connection portion B, ((m−1) × n) to (m × n), and the other n channels of the connection portion A are connected to (n + 1) to (2n), (, (m− 1) correspond to any of xn) to (mxn),
(D) It has a structure capable of inputting a signal of one channel of the connection portion A to a channel of the connection portion B corresponding to it and inputting a signal of another channel to the channel of the connection portion B corresponding thereto. The crotch cable obtained by dividing the channel cable of the connection part B for each of the n channels of the connection part A is incorporated in the connector board as the electrical signal conversion part, and the connection part B and the connection part A A system for collecting signals from an analytical instrument, characterized by having a structure capable of connecting The system for collecting signals from an analytical instrument according to claim 1, wherein the length of each of the connector cables can be selected, and cables having different lengths are selectively used depending on the position of the analyzing means to be arranged .

Images