JPS63250080A - Method of signal transmission - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a signal transmission method, and more particularly, to a signal transmission method for transmitting and receiving information signals along a wiring rail that supplies power in a sliding manner. It is something.

[Prior Art] In general, electric power is supplied in a sliding manner to electrical equipment that moves along fixedly arranged wiring rails, and
Is it a signal transmission method in which signals are transmitted to or received from the electrical equipment by electrically coupling in a non-contact state to the open transmission line disposed along the wiring rail? I'm getting fucked. An example of this will be explained using FIGS. 5 and 6. In the open transmission line, as shown in FIG. 5, a transmission line 1 formed of a leaky coaxial cable or the like is buried in the large diameter part of a gourd-shaped sheath 2, and a hanging wire 3 is embedded in the small diameter part of the sheath 2. It is constructed by being buried. Such an open transmission line is installed as shown in FIG.

That is, a bunker 11 formed with parallel grooves 12, 12, etc. is fixed to the wiring rail body 10 formed in an elongated shape, and the hanging wire shown in (e) above is located near the hanger 11. A metal fitting 15 for fixing 3 is fixed.

In addition, in the groove 12, a trolley conductor 13 or an insulator 1 is provided for supplying minoJ to mobile electric equipment (not shown).
Fixed via 4. Such a trolley conductor 1
3. Another set of insulators 14 is provided.

Then, power is supplied to the mobile electrical equipment through the 1~Lori conductor 13.13 (in this case, single-phase 2-wire type)
, the information signal supplied to the signal leakage line 1 is transmitted to a mobile electrical device via an antenna (not shown). Further, the reception operation is performed by supplying information signals from the mobile electrical equipment to the signal leakage line 1 via an anti-J- (not shown).

Note that the reason why the above-mentioned grooves 12 or three are provided is to enable adaptation to a three-phase power supply mode.

On the other hand, as shown in FIG. 7, a sheath 2' having a circular cross section is formed around the outer periphery of a signal leakage line 1 and is stretched around the bunker 11 to transmit and receive information.

[Problems to be Solved by the Invention] However, in such conventional signal transmission methods, the power supply line and the signal leakage line for transmitting and receiving information signals are formed independently, so that both It is necessary to accurately maintain and cover the positional accuracy of the information signal, and there is also the problem that a large amount of space is required for the signal leakage line for transmitting and receiving information signals.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a signal transmission method that can accommodate a power supply line and a signal leakage line for transmitting and receiving information signals in a small space, and can simplify the installation thereof. .

[Means and effects for solving the problem] The signal transmission method according to the present invention supplies electric power in a sliding manner to an electric device moving along a fixedly arranged wiring rail, and A signal transmission method that transmits information signals to or receives information signals from the electrical equipment by electrically coupling in a non-contact state to open transmission lines arranged along the wiring rails. , the power supply line and the open transmission line are each gripped by a plurality of grooves of approximately the same shape formed integrally in parallel with each other in the wiring rail, thereby supplying power and transmitting signals. The power supply lines and open transmission lines are arranged very compactly, resulting in good space efficiency.

[Embodiments] Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 4.

The wiring rail main body 20 fixedly arranged in a long shape includes:
A bunker 21 having grooves 22, 22, 22 parallel to each other is fixed therein, and within the groove 22 of the hanger 21, a trolley conductor 23 for supplying power to the main body 27 of the mobile electric device is mounted with an insulator. It is fixed via 24. Such a 1-lower conductor 23. Another set of insulators 24 is provided.

Further, in the other groove 22, as shown in FIG. 2, a signal leakage line 41 formed by a leaky coaxial cable or the like is buried in the large diameter part of the gourd-shaped sheath 42, and is buried in the small diameter part of the sheath 42. An open transmission line configured by burying the hanging wire 43 is held.

Further, the trolley conductor 23 is electrically contacted with a brush 25 which is given a biasing force to protrude outward by a spring 26 provided on the main body 27 of the electrical equipment, and the signal leakage line 4
An antenna 30 is installed at a position facing the antenna 1 with a support member 31 in between while maintaining a predetermined distance therebetween.

Therefore, with this configuration, power is supplied to the mobile electrical equipment by means of the trolley conductor 23. The information signal transmitted is transmitted via the antenna 30. Further, a reception operation is performed by supplying an information signal from a mobile electric device to a signal leakage line 41 via an antenna 30.

Therefore, while supplying power in a sliding manner to the main body 27 of the electrical device moving along the wiring rail main body 20,
It is electrically coupled to the signal leakage line 41 disposed in the groove 22 of the wiring rail body 20 in a non-contact state to transmit information signals to or receive information signals from the body 27 of the electrical equipment. It is possible to receive it.

Moreover, 1 to loli conductor 23.23. The parallel positional relationship of the signal leakage lines 41 is made uniform by the groove portion 22 of the bunker 21, and the brush 25+2'D*
Since the parallel positional relationship of the antenna 30 is also made uniform by the main body 27 of the electric device, the positional relationship between the two does not change with the movement of the mobile electric device, and stable power supply and signal transmission/reception can be achieved. Can be done.

Note that the signal transmission method according to the present invention is not limited to the above-mentioned example, and of course can be implemented in various modifications without departing from the gist thereof.

For example, the sheath 42 formed around the outer periphery of the signal leakage line 41 forming the open transmission line is shaped like a gourd. By arbitrarily setting the shape of the extrusion mandrel, it is possible to make it into any shape, so even shapes that are not generally required can be freely manufactured.

In addition, the open transmission line has the same shape as the conventional one (see Figure 5).
In order to directly grip this open transmission line by the above-mentioned groove, the groove may be formed as shown in FIG. 3 with grooves = 7-60.

Furthermore, the open transmission line is shaped like the conventional one (see FIG. 5), and in order to be indirectly gripped by the above-mentioned groove, the open transmission line fits into the above-mentioned groove 22 as shown in FIG. The open transmission line may be formed so as to be held by at least one of the plurality of grooves 22, 22, .

In addition, the open transmission line may be not only a leaky coaxial cable, but also a pair type, a single line type, etc., and may be any open transmission line that leaks electromagnetic fields, without being electromagnetically coupled. Of course, it can be applied to any electrical coupling such as electrostatic coupling.

Furthermore, when an open transmission line as shown in FIG. 7 is used, an auxiliary member similar to the auxiliary member 70 shown in FIG. Good too.

Furthermore, although there is an insulator 24 outside the trolley conductor 23 for power supply, the present invention can also be applied to a type that does not have this insulator 24.

Furthermore, the number of trolley conductors 23 for power supply is
This means that it can be used not only for 2-wire systems but also for 3-wire systems, etc.

Further, in the above-described embodiment, the antenna 30 is coil-shaped, but the present invention is not influenced by this and can be replaced with another antenna system.

Examples include electrostatically coupled probe shapes, radial dipole systems, loop systems, and the like.

[Effects of the Invention] As described above, according to the present invention, since the open transmission line is attached to the groove portion where the trolley conductor is attached, the installation space is small, and the cost and work costs are reduced.

Further, if there is a vacant space in the groove already installed for power supply, additional installation of an open transmission line can be made extremely easy.

Furthermore, since the positional relationship of the antino with respect to the open transmission line is maintained constant, stable information signal transmission and reception can be achieved.

[Brief explanation of drawings]

FIG. 1 is a partially cutaway sectional view showing an embodiment to which the signal transmission method according to the present invention is applied, FIG. 2 is an enlarged sectional view of the open transmission line shown in FIG. 1, and FIG. FIG. 4 is a cross-sectional view showing another example, FIG. 5 is a cross-sectional view showing an example of an open transmission line, and FIG. 6 is a cross-sectional view showing an example of a conventional signal transmission method. FIG. 7 is a cross-sectional view showing another example of an open single transmission line. 1.41.1' ......Signal leakage line 2.4
2...Sheath 20...Wiring rail body 21...
...Hanger 22...Groove 23...1~Lori conductor 25...
... Brush 27 ... Main body (electrical equipment) Patent applicant
Hitachi Cable Co., Ltd. Agent Koyama 1) Ex-husband Figure 1 Figure 2 N F〉Is he bald? 742 34I Figure 3 Figure 4 Figure 5

Claims (4)

[Claims] (1) Supply power in a sliding manner to electrical equipment that moves along fixedly arranged wiring rails, and also in a non-contact manner to open transmission lines arranged along the wiring rails. In the signal transmission method of transmitting information signals to or receiving information signals from the electrical equipment by electrically coupling them in a state, substantially the same shape is formed integrally with the wiring rail in parallel to each other. A signal transmission method characterized by supplying power and transmitting signals by gripping each of a power supply line and an open transmission line in a plurality of grooves. (2) The signal transmission method according to claim 1, characterized in that the outer peripheral shape of the open transmission line is formed so as to be gripped by at least one of the plurality of grooves. (3) The signal transmission method according to claim 1, characterized in that at least one groove shape of the plurality of groove portions is formed so as to be gripped by the outer periphery of the open transmission line. (4) A signal transmission method according to claim 1, characterized in that an auxiliary member is interposed on the outer periphery of the open transmission line so as to be gripped by at least one of the plurality of grooves. .