CS249858B1 - Heat accumulator - Google Patents

Abstract

The heat accumulator solves the problem of reducing heat consumption in the case of an appliance that operates between two temperature levels. The essence of the invention lies in the fact that a vertically oriented pressure vessel is provided on opposite sides, at the levels of temperature sensors, with inlet ports connected to a common inlet pipe with an inlet temperature sensor and outlet ports with outlet control valves connected to a common outlet pipe, while the temperature sensors, inlet temperature sensor and inlet control valves are connected to a temperature controller and the outlet control valves are connected to a time controller. The vertical arrangement of the inlet and outlet ports with control valves creates the possibility, based on the identification of temperatures at the inlet and inside the pressure vessel, of supplying water to individual levels depending on its temperature using a temperature controller and at the same time of withdrawing it using a time controller according to the desired time course of its temperature.

Description

249858

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a heat accumulator formed in the form of a vertically oriented container, within which temperature sensors are disposed in a vertical direction to minimize heat consumption during periodic heating and cooling of the appliance.

A known solution of the heat accumulator is that storage and removal of hotter or colder water is accomplished by double outlets located at the highest lowest point of the storage space and by a single inlet situated between the abandonment pipes.

A disadvantage of such a solution is that, in the accumulation area, the water is freely mixed with the various temperatures, and thus the temperature potential is degraded, as a result of free convection. The increase in the en- ergy content of the heat accumulator results in an increase in the heat energy consumption necessary for the careful heating of the periodically cooled appliance.

It is also known to provide a heat accumulator, using temperature sensors located vertically in the storage space associated with control elements at the same levels. However, this solution aims to simplify the preparation of the hot water required temperature by curing the mixing of the water of the highest and lowest temperatures outside the accumulation space, therefore it does not meet the requirements of the heat accumulator designed for the appliance operating between two temperature levels.

The above mentioned drawbacks are remedied by the heat accumulator, the principle being that the vertically oriented pressure vessel is provided on the opposite sides, at the temperature sensor levels, with inlet ports with inlet control valves connected to a common inlet a duct with an inlet temperature sensor and outlet ports with outlet control valves connected to a common outlet duct, with temperature sensors, an inlet temperature sensor, and inlet control valves connected to the temperature controller and output regulating valves connected to time controller.

In the attached figure, the principle of the connection of the heat accumulator to the appliance is shown in principle.

By vertically positioning the inlet ducts with the inlet control valves controlled by the temperature controller by identifying the temperature both in the inlet duct and the temperatures at the individual levels in the accumulation space and the vertical displacement of the outlet ducts through the outlet control valves at the same levels, controlled by a time controller, the possibility of bringing water from the heat consumer to the individual level of storage space according to its temperature is created and at the same time discharging the same amount of water from the storage space to the heat appliances according to its desired temperature time.

The heat accumulator consists of a vertically oriented pressure vessel 1, the temperature sensors 2 being disposed vertically in the interior. The pressure vessel 1 is at opposite sides, at the temperature sensor levels 2 provided with inlet ports 3 with inlet control valves 4 and outlet ports 7 with outlet regulating valves 8.

The inlet orifices 3 are connected to a common inlet conduit 5 with an inlet temperature sensor B. The outlet orifices 7 are connected to a common outlet conduit 9 with a circulating pump 12. The temperature sensors 2, the inlet temperature sensor 6 and the inlet regulating valves 3 are connected to the heat pump. The regulator 10 is connected to a time controller 11.

The heat accumulator control system has the task of ensuring the water temperature distribution in the pressure vessel 1 from the highest value to the lowest value at the bottom. The water flow between the pressure vessel 1a by the consumer 13 provides a circulation pump 12. The circulating water returns to the pressure vessel after the flow through the consumer 13 After identifying its temperature by the inlet temperature element 6, the temperature regulator 10, which follows the temperature sensor data 2 at the individual horizontal levels, places its input into the pressure vessel 1 by opening the respective inlet control valve. 4. Simultaneously with the inlet of water into the pressure vessel 1, the same amount of water flows out of it from one of the outlet regulating valves 8. Which of these outlet valves 8 is to take the water from the pressure vessel 1, determines the time regulator 11 , which will open and close in the order corresponding a pre-selected time course of its heats.

Claims (1)

249858 OBJECTIVE A heat accumulator, formed in the form of a vertically oriented vessel, within which the temperature sensors are disposed in a vertical direction, characterized in that the pressure vessel (1) is on the opposite sides, at the temperature sensor levels (2) provided with inlet orifices (3) with inlet control valves (4) connected to a common inlet manifold of the invention (5) with an inlet temperature sensor (6j and outlet ports (7) with outlet control valves ( 8), which are connected to a common output potentiometer (9j, wherein the temperature sensors [2], the inlet temperature sensor (6) and the inlet control valves (4) are connected to the temperature controller CC1) and the output regulating valves (8) are connected to the time controller controller (pour 1 sheet of drawings