JPH047659Y2 - - Google Patents

Description

[Detailed description of the invention] [Industrial application field] This invention relates to a pole change motor in which the main circuit is switched by directly connecting the power cable, omitting the main circuit switching panel. .

[Conventional technology]

Figure 4 is a circuit diagram showing the circuit configuration of a conventional pole number changing motor.This is a so-called circuit diagram in which one winding has six leads, and the number of poles is changed by externally switching the wire connections. Single winding pole change motors (e.g. Consequent Pole, PAM (Pole
This is an example of a typical control circuit for Amplitude Modulation.

In the figure, 1 is a motor winding, 2 is a terminal box attached to the motor, 3 is a low-speed side terminal provided in the terminal box, 4 is a high-speed side terminal, 5 is a low-speed side main circuit closing contactor (breaker) 6, A switching board 9 houses a high-speed side main circuit closing contactor (breaker) 7 and a high-speed side short-circuit contactor (breaker) 8, and 9 is an overcurrent relay.

Next, the operation will be explained. Figure 4 shows an example of constant torque control (double Y connection on the high speed side, Δ connection on the low speed side). During low speed operation, the high speed side main circuit closing contactor (or circuit breaker) 7 and the high speed side short circuit contact If the switch 8 is turned OFF, the connection will be Δ, and if the low-speed side main circuit closing contactor (or circuit breaker) 6 is closed, the motor will start and operate with the number of poles on the low-speed side.

When operating on the high speed side, connect the low speed side main circuit closing contactor 6.
If you turn it off and turn on the high-speed side short circuit contactor 8,
Since a double Y connection is configured, when the high speed side main circuit closing contactor 7 is turned on, the motor is started and operated with the high speed side pole number.

[Problem that the invention attempts to solve]

Conventional equipment is configured as described above, so it is necessary to install a switching board in the central electrical room, but this switching board must be configured with a circuit breaker for high voltage and large capacity, which takes up a large space. It also has disadvantages such as being expensive due to the amount of space it occupies, and it also requires additional power cables compared to single-speed motors, which increases construction costs. Was.

Therefore, if a pole change motor is used for the purpose of energy saving and the load that is constantly used is low, and there is a certain amount of time available for switching, it is recommended that a worker manually switch the wire connections at the motor terminals. Therefore, it is possible to consider ways to minimize these investment amounts.

However, when a worker performs the switching manually as described above, (1) the replacement time is short and the switching is easy, and (2) wiring errors can be prevented (Fool Proof). These two conditions are necessary, but there is a problem in that conventional pole change motors cannot satisfy these conditions.

This invention was made in order to solve the above-mentioned problems, and the purpose is to obtain a pole number changing motor that is easy to connect and that prevents workers from wiring incorrectly on site.

[Means for solving problems]

The pole number changing electric motor according to this invention has first and second fixed terminal groups composed of a plurality of fixed terminals, and is provided on either one of these fixed terminal groups, and the respective fixed terminal groups are connected to each other. and dummy terminals that enable symmetrical arrangement. The dummy terminals are also used as interlock signal generating means for mutually interlocking these fixed terminals.

[Effect]

The dummy terminals in this invention are the first and second terminals.
The fixed terminal groups of the fixed terminal group can be arranged symmetrically with respect to each other, and when the worker transfers the power cable connection from one fixed terminal group to the other fixed terminal group, the worker can make the correct connection. is facilitated. Even if an incorrect connection is made, a signal is generated from the dummy terminal, and malfunctions are prevented.

〔Example〕

An embodiment of this invention will be described below with reference to the drawings. FIG. 1 is a front layout view of the fixed terminal portion of the electric motor, where 2 is a terminal mounting box and 10 is a connector. 1
1 is a fixed terminal on the low speed side, 12 is a fixed terminal on the high speed side, 1
3 is a dummy terminal, 14 is a fixed terminal for short circuit during high speed operation, low speed side fixed terminal 11 and dummy terminal 13
A first fixed terminal group 26 is formed, and a second fixed terminal group 26 is formed by the high-speed side fixed terminal 12 and the short-circuit fixed terminal 14.
A fixed terminal group 27 is configured.

In order to short-circuit the dummy terminal 13 or the fixed terminal 14 for short-circuiting, 15 is a short-circuit element attached to the three connectors 10 connected to these, and the short-circuited portion is coated with insulation. 16 is the power cable, 17
is the cable mounting plate (support plate), and the power cable 1
Hold the 6th reed or outer tube. Numeral 18 is a projection provided on the mounting plate 17, and numeral 19 is a limit switch which is activated when it comes into contact with the projection 18, and serves as a detection means for detecting the connection of the power cable 16.

FIG. 2 shows an example of circuit connection of this embodiment, and corresponds to FIG. 1, in which the lead wires of the motor winding 1 are connected to the low-speed side fixed terminal 11, the high-speed side fixed terminal 12, and the short-circuit fixed terminal in the terminal mounting box 2. 14 and is not connected to the dummy terminal 13. 20, 21
are the interlock signal and 22 generated by the dummy terminal 13 and the limit switch 19, respectively.
23 is a main switch, 23 is a circuit breaker, and 24 is an overcurrent relay.

FIG. 3 shows an example of a relay sequence used in the circuit configuration of FIG.
An example is shown in which interlock is established by LS1 and LS2. In the figure, reference numeral 25 denotes a changeover switch consisting of interlocking switches SW1 and SW2, which are not shown in FIG. and,
When switches SW1 and SW2 are on the terminals a ₁ and a ₂ , the green lamp indicating the high speed side lights up, and the terminals b ₁ and
When it is on the _b2 side, the red light indicating the low speed side lights up. Further, limit switches LS1 and LS2 are connected in series to the coils of relays RY1 and RY2, respectively, and when these coils are excited, yellow lamps YL1 and YL2 are turned on. Note that PBS1 and PBS2 are a start push button switch and a stop push button switch, respectively.

Next, the operation will be explained. Figures 1 and 2 show low speed operation, and the power cable 16
Since the limit switch 19 is activated by the connection to the low-speed side fixed terminal 11 and the dummy terminal 13 is short-circuited by the short circuit 15, interlock signals 21 and 20 are generated.
Limit switches LS1 and LS2 are turned on. Therefore, if the relays RY1 and RY2 are activated and the yellow lamps YL1 and YL2 are turned on, and the selector switch 25 is on the b ₁ and b ₂ sides, low-speed operation will be performed.

At this time, the changeover switch 25 is mistakenly set to a ₁ , a ₂
If it is switched to the terminal _A2 side relay
The contacts of RY1 and RY2 are open to prevent malfunction. Furthermore, even if the changeover switch 25 is correctly switched to the b ₁ or b ₂ side, if either the power cable 16 or the short circuit 15 is mistakenly connected to the high speed side, the motor will not operate. do not have. Which connection is incorrect can be easily determined by the presence or absence of blinking of the yellow lamps YL1 and YL2.

Next, when switching to high-speed operation, press the stop push button switch PBS2 to temporarily stop the operation of the electric motor. A power cable 16, a connector 10 attached to the power cable 16, and a short circuit 15
The connector 10 attached thereto is then transferred to the high-speed side fixed terminal 12 and the short-circuit fixed terminal 14, respectively, for connection.

At this time, as described above, the first fixed terminal group 26 and the second fixed terminal group 27 are arranged symmetrically, so that the operator can easily remember the connection order. In addition, since the low-speed side fixed terminal 11 and the high-speed side fixed terminal 12 are arranged adjacent to each other near the center of the terminal installation box 2, the power cable 1
The moving distance of 6 is the shortest distance. Therefore, it is possible to prevent excessive force from being applied to the power cable 16, and it is possible to further facilitate the connection work of the operator.

In this way, when the power cable 16 and the short circuit 15 are connected to the high speed side, the limit switches LS1,
LS2 is turned OFF, and the changeover switch 25 is set to a ₁ , a ₂
Push button switch for starting when switched to side
Press PBS1 to perform high-speed operation. At this time, if there is an error in the connection of the power cable 16, the short circuit 15, or the changeover of the changeover switch 25, the motor will not operate, as in the case of the low speed side.

As described above, in this embodiment, the plurality of fixed terminals in the terminal mounting box 2 are separated into the first fixed terminal group 26 and the second fixed terminal group 27, arranged symmetrically, and the connection concept is Since we decided to standardize the connections, workers can reliably perform the connection work without checking the circuit diagram. Furthermore, since the dummy terminal 13 is used as an interlock signal generating means, it is possible to prevent forgetting to attach the short circuit 15, etc. Furthermore, if necessary, an appropriate limit switch can also be installed at the lead-in part of the power cable 16. It can also be installed to prevent connection errors in the power circuit.

In the above embodiment, an example of constant torque connection switching (double Y connection/Δ connection) was shown, but the same applies to connection switching of square torque control (double Y connection/Y connection). It is possible to do so. Of course, constant output connection switching (Δ connection/double Y connection)
In the case of , the only difference is the display on the low speed side and the high speed side from the above embodiment, so it can be similarly applied. Furthermore, in the above embodiment, the connector 10 is used assuming the case of a high-voltage motor, but in the case of a low-voltage motor, the motor lead is attached to a normal molded terminal block and the power supply lead connection is changed. It may also be a thing.

[Effect of idea]

As described above, according to this invention, first and second fixed terminal groups are provided, a dummy terminal is provided on either one, and these terminal groups are arranged symmetrically with respect to each other. Since this is used as an interlock signal generation means, it is possible to connect a single stator winding to the power supply side in a short time, and it is possible to effectively prevent wiring errors at that time. can.

Therefore, in the case of a pole change motor used for applications that do not require frequent switching and can allow sufficient time for switching,
This eliminates the need for an expensive switching panel or additional cables for switching, resulting in a further economical advantage.

[Brief explanation of the drawing]

Fig. 1 is a front view showing the structure near the fixed terminal part of the pole changing motor shown in Fig. 2, Fig. 2 is a circuit diagram showing the circuit configuration of the pole changing motor according to an embodiment of this invention, and Fig. 3 1 is a circuit showing an example of a relay sequence used in the circuit structure of FIG. 1, and FIG. 4 is a circuit diagram showing a circuit structure of a conventional pole-changing motor. 1 is the motor winding, 11 is the low speed side fixed terminal, 12
is a high-speed side fixed terminal, 13 is a dummy terminal, 14 is a short-circuit fixed terminal, 15 is a short circuit, 16 is a power cable, 19 is a limit switch (detection means), 20
is an interlock signal, 26 is a first fixed terminal group, and 27 is a second fixed terminal group. In addition, in the figures, the same reference numerals indicate the same or equivalent parts.

Claims (1)

[Claims for Utility Model Registration] (1) In a pole conversion motor that changes the number of poles of a stator by changing the connection state of the single stator winding to the power supply side, A first and second fixed terminal group consisting of a plurality of fixed terminals are provided between the power source and a dummy terminal is provided in one of the first and second fixed terminal groups, respectively. fixed terminal groups are arranged symmetrically to each other, and the dummy terminals are connected to the first
and a second fixed terminal group as interlock signal generating means for interlocking each other. (2) When the power cable is connected to the fixed terminal group on the side where the dummy terminal is provided, the dummy terminal generates the interlock signal in cooperation with a detection means that detects the connection. A pole number changing electric motor according to claim 1 of the utility model registration claim, characterized in that: