CS238655B1 - Connection for automatic loading of electrostorage consumers containing multistepped contact thermometer - Google Patents

Abstract

The solution concerns automatic control charging of electro-accumulation appliances for heating. The multistage contact engagement is being addressed thermometer as an outdoor temperature sensor with relay charging relays whose contacts they form the action outputs via the charging selector connection characteristics additional inputs and outputs. The essence of the solution is multi-stage engagement contact thermometer with relays contacts form action outputs via charging characteristics selector. Charging it is possible to control in stages or via timers by moving the charging time in three degrees. There is a possibility of being connected additional sensors and devices, in particular for manual charging control, charge correction according to residual heat, charging control in connection with 8 daily recharges, sensing the outdoor temperature for daily de-blocking recharging and signaling of outer limits temperatures. Wiring can be extended o heater reversing switch.

Description

BACKGROUND OF THE INVENTION The invention relates to a circuit for automatic charging of electrical accumulation appliances, comprising a multi-stage contact thermometer as an outside temperature sensor for controlling heat accumulation according to meteorological conditions, with the possibility of adaptation for a given climatic region.

For economical operation of electro-accumulation appliances - water heat accumulators or storage stoves, it is necessary to have automatic charging control in at least three or more stages. The automatic charging systems known to date are electronic. It senses the outdoor temperature, converts it into an electrical analog signal, which is further amplified, evaluated and processed into the outputs for the charging stages. Electronic charging automatics are characterized by a large number of elements and complicated wiring, ie corresponding failure rate, cannot guarantee accuracy and stability over the long lifetime of the heating device. Measuring instruments, temperature standards and qualified personnel are required for adjustments and repairs. Failure that means charging failure / requires immediate repair.

The above drawbacks are overcome by a wiring circuit for automatic charging of electrical accumulation appliances comprising a multi-stage contact thermometer or a set of contact thermometers as an outside temperature sensor. otherwise it controls charging. The relays, in particular the highest and lowest charging stages, can be interchanged - reversed - by switching over each other in order to achieve a more even wear of the heating elements of the storage appliance. This swap can also be switched in the relay output contact circuit. Advantageously, the connection can be made to the relay relay, which in the event of a contact failure in the circuits - power supply - contact thermometer - characteristic selector - relay coil - prevents charging failure. Other inputs - residual heat sensors, manual charging stage control, daily charge control, as well as outputs for daily charge control, outdoor temperature signaling and operating states can be connected to the contact thermometer circuit, relay and especially the charging characteristic selector.

Advantages and new effect of this connection is reduction of the number of parts, eliminating the need for adjustment during production and assembly, which saves working time and equipment. The service life and stability is fully comparable to the service life of a regulated heating device. The wiring is completely resistant to interference. Failure of the contacts as potentially delicate parts can be detected visually or by a simple tester without any higher demands on the qualification of the repairer. The wiring can be arranged such that charging failure does not occur when the contact fails.

In the accompanying drawing, a block diagram shows an example of a circuit for automatic charging of electrical accumulation appliances, comprising a multi-stage contact thermometer, where three action outputs, additional control inputs and signaling and control outputs are indicated. The outside temperature sensor, which is a multistage contact thermometer 1 or a set of contact thermometers, whose contacts are set at specified temperatures, is connected via the charging characteristic selector 2 to the coils or relays inputs of the charging stages whose contacts are the action outputs of the charging stages. Supplementary sensors and devices are connected to the indicated inputs 6 and other outputs 2 of the charging characteristic selector 2, in particular for manual charging control, residual heat charge correction, charging charge control in connection with daily charging, outdoor temperature sensing for unlocking daily charging and limit outdoor signaling temp. In order to control the electrical accumulation appliances after the power stages to the thermal quality of the storage medium, a reversing switch J can be provided in the circuit of the inputs of the relays or of the output contacts, interchanging the function of the most frequently and least used storage medium heaters.

The multistage contact thermometer gradually opens its contacts even when the outside temperature is decreased. When the required charging characteristic is engaged, the charging temperature selector 2 determines the outside temperature interval at which the required charging stage must be charged. The relays 6 are assigned to the contacts of the contact thermometer 1, and when they open the relays A, they fall off ε with their break contacts 6, which can then switch the contactors of the storage medium heater or shift timing delay and start and stop charging. The charging characteristic selector 2 can be used to adapt the charging characteristics of the climate zone or to the hybrid-connected additional heating source. Residual heat sensors are connected to the other inputs 6 of the charging characteristic selector 2, which, by means of a signal, eventually adjusts the charging characteristic so that the charging power is reduced or the charging start is delayed. A manual charge selector for servicing is also connected to the inputs 6 and the operator can also correct the charging according to special needs. The inputs 6 also serve for the necessary change of the night charge characteristic when the daily charge is engaged. The outputs 1 are connected to the unlocking of the daily charging, there is also connected the limit temperature signaling, which warns of the necessity to use the daily charging or hybrid or additional and spare heating sources. Outputs 1 can be connected to a device that automatically starts a hybrid heating source. The hybrid heating source control device, if designated as the master, can change and adapt the charging characteristics of the electroaccumulation source via the charger selector inputs 6. The reversing switch J. serves not only to compensate for wear of the heaters, but also to reduce the impact of one of each other reversing charging stages, so that an intact stage can be inserted instead of it until the time of repair.

Claims (4)

SUBJECT OF THE INVENTION Wiring for automatic charging of electrical accumulation appliances, comprising a multistage contact thermometer, characterized in that the contacts of at least one multistage thermometer (1) are connected via the charging characteristic selector (2) to coils or control input py relays (4) whose contacts (5) ), forming the action outputs, are connected to the control circuits of the battery heater contactors. Connection according to claim 1, characterized in that a reversing switch (3) is connected in series between the charging characteristic selector (2) and the relay (4). Connection according to claim 1, characterized in that the charging characteristic selector (2) comprises further inputs (6) of the residual heat sensor, the manual charge control selector and the daily temperature sensing temperature switch with a change in the night charging characteristic. 4. Connection according to claims 1 and 3, characterized in that the charging characteristic selector (2) comprises further outputs (7) for deblocking of the daily charging, signaling of the limiting temperatures in the connected charging characteristic and for secondary switching of the charging characteristics. heating source.