SU1690187A1 - Multichannel power circular distributor - Google Patents

Abstract

The invention relates to power switchgear for program-distributing a number of channels and can be used in testing a number of power sources for electric welding equipment. The purpose of the invention — extending the functionality — is achieved by providing a programmatic connection of a number of sources alternately to a single load and simplifying the device. The device contains a power trigger 1, channels 2-5, sources 10-13, load 9. Each channel contains elements OR 7 and And 8, contactor 6. Trigger 1 operates in counting mode, with each switching of which to load 9 is connected in series through the contacts 14 of the contactor 6 of the corresponding channel one of the sources 10-13. 1 il.

Description

The invention relates to power switching equipment for program distribution and operational switching of a number of channels and can be used, for example, when testing a group of power sources for electric welding equipment.

The aim of the invention is the expansion of functionality by providing a software connection of a number of sources in turn to one load and simplification by improving overall dimensions.

The drawing shows an electrical diagram of a four-channel distributor connected to external sources and load. ''

The multi-channel power ring distributor contains a trigger 1 and channels 2-5, each of which contains a contactor 6, elements OR 7 and AND 8. The first output of trigger 1 is connected to the first inputs of odd 2 and 4, and the second output is even 3 and 5 channels. The first output of each channel is connected to the second input of the subsequent channel, the output of channel 5 is connected to the second input of channel 2. The second input of each channel is connected to the first input of the OR element. In addition, the power multi-channel ring distributor contains a load 9 and power sources 10-13, the first terminals of which are connected via a load 9 to the input of trigger 1, the second output of each source is connected to the second output of the same name, the third input of the subsequent and fourth input of the previous channels, and the second the output of channel 5 is connected to the third input of the channel

2. In each channel, the third and fourth inputs are connected respectively to the first and second inputs of the And 8 element, the third input of which is connected to the output of the OR element 7 and the control input of the contactor 6, the first input of each channel is connected through contacts 14 of the contactor 6 to the second channel input.

Trigger 1 can be performed on the basis of any power semiconductor switches: thyristors, triacs, transistors, etc. depending on the type of switched electricity and power sources. Elements OR 7 and AND 8 can be performed on a relay, semiconductor or microcircuit basis.

Sources 10-13 have steeply falling external characteristics and may represent electric welding power sources. The resistance of each of the sources 10-13 loaded on the load 9 exceeds the resistance of the latter. In particular, the load 9 may be a short-circuited bus.

Switching sources 10-13 is carried out by trigger 1, which can be controlled either autonomously or by external circuits. The control and initial switching circuits can be varied (not shown in the diagram).

In the initial state, the arm 15 of trigger 1 is turned on, and in the channels 2 and 3 the switched-on state of the contactors 6 is maintained by the switched-on elements OR 7. In channel 2, the signals supplied to all three inputs enable the element And 8, and in the channel 3 the element And 8 is turned off due to the shunting of one of the inputs by the load 9 through the closed contact 14 of the contactor 6 of the channel 2 and the open arm 15 of the trigger 1. The remaining elements of the distributor are also turned off, as a result, only the source 10 is connected to the load 9 (the elements originally included in the diagram ashtrihovany).

Each switch trigger 1 is the next switchover of the distributor. When switching for the first time, arm 16 of trigger 1 is turned on and arm 15 is turned off. As a result, load 9 switches from source 10 to source 11, and before and after this switch, contacts 14 of channels 2 and 3 remain closed, i.e. do not take an active part in power switching processes. After switching on the shunted load 9 output of the source 11, the voltage is reduced, at the outputs of the sources 10, 12 and 13 full.

* In channel 2, the removal of the signal from the second input of the And 8 element leads to the shutdown of the latter, which, in turn, leads to further shutdowns of the OR element 7 and the contactor 6, contact 14 of which disconnects the source 10 from the switched off arm 15 of trigger 1 in de-energized state.

In channel 3, a signal is applied to all outputs of the And 8 element, as a result of which it turns on. This, in turn, leads to the inclusion in the channel 4 of the element OR 7 and the contactor 6, connecting in a de-energized state, the source 12 to the off shoulder 15 of the trigger 1.

With further switching of trigger 1, similar switching occurs, leading to a sequential connection of load 9 to sources 12, 13 and 10, and so on, in a ring.

Claims (1)

Claim A multi-channel power ring distributor containing a trigger, N channels, a power source, the first output of the trigger is connected to the first inputs of the odd channels, and the second output is to the first inputs of the even channels, the first output of each channel is connected to the second input of the subsequent channel, N-ro output the channel is connected to the second input of the first channel, each channel contains a contactor, an OR element, the first input of which is connected to the second input of the channel, characterized in that, in order to expand functionality and simplify, N-1 sources are introduced power source and, in each channel, the And element, the output of which is connected to the second input of the OR element and the first output of the channel, the first outputs of the power sources are connected through the load to the trigger input, the second output of each source is connected to the second output of the same name, 5 by the third input of the subsequent and fourth the input of the previous channel, and the second output of the N-ro channel is connected to the third input of the first channel, in each channel the third and fourth inputs are connected respectively to the first and second inputs of the element And, the third input of which is connected with the output of the OR element, and the control input of the contactor, the first input of each channel is connected through the contacts of the contactor to the second output of the channel.