DE102004023347A1 - Multiple layer heat storage system for a heating system comprises a heating element and a storage module containing capsules, recesses or cells filled with storage material - Google Patents

Abstract

Multiple layer heat storage system comprises a heating element and a storage module containing capsules, recesses or cells filled with storage material. Preferred Features: The storage module comprises two storage layers coupled together with smooth surfaces. The storage layers consist of a polymer thin layer with spherical or toroidal hermetically sealed capsules (1). The storage module consists of two coupled plates made from a polymer or natural material.

Description

The Invention relates to the heat storage and may be present in devices that consume heat energy their uniform or uneven Receiving or distribution, especially in the radiators, and even after similar Scheme for the cold storage and climate control. The main source of the heat energy to be used are: electrical heating, which is carried out at night after special rate; electrical Warming, which is realized by means of the wind generators; the heat dissipation of the solar heat collectors.

There is known various variants of technical solutions of storage heaters. As a comparative and similar technical solution, the patent CZ 290483 B6 (Czechoslovakia, 2002) - Electric storage heaters of a mixed type are considered. In particular, in this patent, a characteristic disadvantage associated with the storage heater, which is associated with low efficiency of the use of heat generating means, is eliminated. According to the patent according to a memory tile block with the heating elements and air exchange paths and also an exhaust port with regulating valve in the housing of the heater is arranged. At the same time are located in the housing a hot plate or the heating elements and electric air with the forced operation. A major disadvantage of given device is not high efficiency of heat storage and associated with the high inertia of preheating a memory block and its relatively low heat capacity losses. The presence of a hot plate brings a variety of operating options, but does not contribute to effective heat storage.

Mentioned disadvantages be in the fundamentally new solution - multi-layered Heat radiators, the allows, optimal and effective heating the microcapsules of each layer by means of thin-layered electric heaters or by passing a heat-dissipating Agent to win through the layers eliminated. After that Schematic diagram, exploiting the modules of the semiconductor cooler, can a cold storage or mixed accumulation.

The Speucher layer is a polymeric thin film with the convex spherical or toroidal capsules that are changing from the substance Phase filled, hermetically covered and with the foil from the aluminum foil, which allows even heat department from thin-layered Electric heater, covered. The memory module consists of two coupled and arranged with smooth surfaces against each other storage layers, which between is thin layered Heater.

maximum Storage efficiency is achieved in that the modules with different and rising temperature of the surface become the sections grouped such that the gradient of thermal energy transfer is from the module with higher Temperature to the module with lower temperature according to their cooling directed.

With the goal of storing the heat energy from the solar heat collectors is the heat transfer through the distances between the section modules according to the change of its temperature, starting from the module with higher Temperature, consequently transmitted.

The Presence of multi-layered storage material with changing Phase of aggregate state allows more heat energy to accumulate, using high heating temperatures, and resulting necessary and stable Heat temperatures in the environment, what's the physical properties for given storage material conditionally. Effective regulation of the heat transfer coefficient of the module to the module one can either by means of changing air distance, or by means of filling the distance with the polymer with changing heat conduction, which increases Fall in temperature, reach.

In first variant are one or two layers, forming a heat module, in the metal profile, which has a ribbed area of heat dissipation, housed. One Module set forms a heat-storing radiator - convector. In another variant, the capsules with the storage material in the oval depressions of the plate, which is made of natural or plastic, for example, from the art granite, manufactured, arranged, and used for heating thin-layer Heater and the layer of a film used.

The Special feature of section multilayer accumulation with increasing Temperature is a possibility such accumulation in the heat exchanger / converter where high temperatures of electrical heating make a layered Accumulation and stratified heat transfer with next warming the hot water heating contour or water preheating executed.

As another embodiment, flexible to be installed in the construction of the floor and the walls storage disk used who the. Such construction adopts an arrangement of the thin-layer heaters and current collectors on the flexible polymeric tape which goes through the accommodating memory modules thereon. Indisputable advantage of the execution is that necessary length of the plate and necessary number of modules on this plate are determined with the required parameters, because the tape is easily cut in the required place.

Next variant is a module that is structurally current-carrying and warming up Polymer performed. Its structure provides extended vertical honeycomb (hexagonal) or spherical Cells that form coupled (triads and s.w.) filled with the storage material channels, the weakening with hollow channels, in front. Because of passing electric current becomes polymeric structure heated and gave a heat energy to the storage material with changing phase over, thereby going through hollow channels Air warmed up yourself. The preference of given construction is one possibility the rapid warming with simultaneous heat storage and high performance convective heat transfer (the heat storage mixed Types). The running and heating speed of the air flow is regulated as in the previous solution with the terminations.

multilayer Heat storage system can be also in the climate control exploit. The thin-layer electric heater Instead of storing between the heat and cold layers, the modules will on the bottom Peltier - semiconductor cooler with the people looking at each other and warming up Surfaces, which form alternating "cooling channels" and corresponding "heat channels", in which the air flow by means of the degrees regulated, arranged. The merit of such a solution is multiple readiness and effective savings on the energy reserves when exploiting of the exception night tariff for the electricity.

For effective Regulation of convection heating be three main variant of the degrees, which are at the top of the heater situated, offers. Mechanical completion is a blind that will with the help of the turning disc, which is with bimetallic regulator coupled, pushed apart.

magnetic Close up is a set of plates with built-in she flat Magnet, which offset in the vertical direction due to change the position of the magnetic poles in the arranged perpendicular to the Plates rods in their rotation with the help of the bimetallic regulator. The main advantage is a simplicity and wisdom of construction. electromagnetic Graduation is a flat basket-shaped Plate with through holes, within which a metal plate is offset with the equiaxed openings and covers or conceals continuous openings in a flat basket-shaped plate, while the movement of the metal plate arises because of the change the directivity electromagnetic Field in the induction coil of the flat solenoid. The privilege given solution is effective steerability with the exploitation of microprocessor automatic.

The Invention is illustrated with the drawings:

1 A construction of the layers of the heat accumulator;

2 A heat storage module;

3 A memory section;

4 A section construction with the intermediate air layer;

5 A section construction with the polymer interlayer;

6 - a temperature distribution in the sections;

7 - a construction of the radiator / convector;

7a A cell of the module;

8th - radiating plate;

9 A heat exchanger / converter;

9a A section of the heat exchanger;

10 - flexible storage plate;

10a A section of flexible plate;

11 A module of structured current-carrying polymer;

11a A section of structured polymer;

12 - an air conditioner;

12a A memory module;

13 - mechanical termination, concealed condition;

13a - Mechanical completion, discovered condition;

14 - magnetic termination;

14a A section of the plate;

14b A rod with heteropolar magnets;

15 - electromagnetic termination;

15a - A construction of the opening in a plate.

The embodiments

The heat storage module the 1 . 2 consists of two coupled and arranged with smooth surfaces to each other storage layers, which are made of the polymeric thin film ( 7 ) with the convex spherical or toroidal capsules ( 1 ), which are of the substance with changing phase ( 6 ), with insulating polymeric thin film ( 2 hermetically sealed and with the layer of aluminum foil ( 4 ) covered, executed. Between the storage layers is thin-layered electric heater ( 3 ), which consists of the metallised covering ( 8th ) and the current-decreasing elements ( 5 ).

The memory section the 3 according to consists of two and more modules, which have above-mentioned features. The modules are arranged so that convex parts are arranged in the symmetrical spaces between them and form the 4 . 5 according to either regulated air distance ( 9 ), or the distance ( 10 ), which is filled by the polymer with changing heat conduction. The modules in the section the 6 according to have different and rising from the center to the edges temperature, while t ₃ > t ₂ > t ₁ and t ₃ > t ₄ > t ₅ , or t ₅ > t ₄ > t ₃ > t ₂ > t ₁ .

The storage body / convector the 7 according to consists of the elements of the structure ( 13 ), two-layer memory module ( 9 ) and two single-layered modules ( 12 ), which are filled with the storage material ( 12a ) 7a Metal profile ( 12b ) housed. The heating temperature is controlled by the electric, bimetallic or electronic regulator ( 15 ) electrical voltage of the external network ( 14 ).

The storage body the 8th consists of manufactured from the polymer or natural substance plate ( 12c ) filled with storage material depressions ( 1 ) and the above-arranged thin-layer electric heater ( 3 ).

A heat exchanger / converter 9 in accordance with cylindrical outer thermal insulation ( 21 ) Casing ( 16 ), within which is the memory section ( 6 ) is arranged with some rows of the storage modules, while a space between the modules is of the polymer with changing heat conduction ( 20 ) and in the last outer module is heated circuit of the hot water heater ( 19 ) 9a arranged.

Built-in storage disk 10 consists of the set of two-layer memory modules, which are by means of a passing through them flexible polymer tape ( 3a ) with thin-layer heaters ( 3 ) and electrically conductive rails ( 5a ) 10a connected.

The memory module the 11 according to consists of the housing ( 22 ), in which is structured electroconductive and heating polymer ( 26 ) are arranged with expanded vertical cells, while the cells are filled with the storage material such that form coupled (Triaden and sw) filled channels ( 25 ) and alternating with them hollow channels ( 24 ) through which air to be heated ( 23 ) 11a ,

An air conditioning unit that 12 according to the invention consists of the outer heat-insulating plates ( 30 ) and the set of two - sided modules at the bottom of the Peltier cooler ( 27 ), which are cooling ( 28 ) and warming ( 29 ) 12a Storage layers. The modules form according to a, c - channels "of cold" and b - channel of "heat". Above are regulatory deals that are located accordingly in the discovered ( 32 ) or hidden ( 31 ) Condition, arranged.

Adjustable mechanical termination consists of the housing ( 33 ), the collapsible blind ( 34 ) and the pivotable half disc with the thermoregulator ( 35 ). 13 shows discovered state of the degree and 13a - concealed condition.

Adjustable magnetic termination 14 according to consists of the basis ( 39 ), the set of vertically displacing plates ( 36 ) with built-in flat magnets ( 40 ) and the bars ( 37 ), which are arranged perpendicular to the plates. These bars that 14a according to the built-in full length magnets ( 40 ) with the opposite poles ( 41 ) 42 ) 14b ,

Adjustable electromagnetic termination 15 consists of a flat basket-shaped plate ( 43 ) with through openings ( 46 ), within which a metal plate ( 45 ) with the equiaxed openings ( 47 ). When moving the metal plate ( 45 ), which arises due to the change in the directivity electromagnetic Field in the induction coil of the flat solenoid ( 44 ), through holes ( 46 ) 15a in the plate ( 43 ) cover or cover.

Claims (20)

Multilayered heat storage system which consists of a storage module and a heating element, characterized in that the storage module contains filled storage material with changing phase ( 6 ) Capsule ( 1 ), Wells or cells ( 25 ). Multilayer heat storage system according to claim 1, characterized in that the storage module consists of two coupled and arranged with smooth surfaces to each other storage layers, which are made of the polymeric thin film ( 7 ) with the convexities in the form of the spherical or toroidal and hermetically concealed capsules ( 1 ). Multilayered heat storage system according to claim 1, characterized in that the storage module consists of two exported plates (polymer or natural substance coupled) ( 12c ). A multilayer heat storage system according to claims 2, 3, characterized in that between the storage layers or the plates is an electrical thin-layer heater ( 3 ), which has metallized heating covering ( 8th ) and current-decreasing elements ( 5 ). Multilayer heat storage system after claims 1 ÷ 3 by characterized in that between the memory layers or the plates is an electrically conductive Polymer arranged. Multilayered heat storage system according to claims 1 to 5, characterized in that between the electric thin-layered heater ( 3 ) and the storage layers are two layers of aluminum foil ( 4 ) arranged. Multilayered heat storage system according to claims 1 to 6, characterized in that two and more storage modules are provided by means of a flexible polymeric band (FIG. 3a ), on which are the heaters ( 3 ), the layers of aluminum foil ( 4 ) and electrically conductive rails ( 5a ), connected with each other. Multilayer heat storage system after claims 1 ÷ 6 by characterized in that two and more memory modules are collected in one section, thereby having the modules same or rising from the middle to the edges temperature below the condition fulfillment, that t3> t2> t1 and t3> t4> t5, or t5> t4> t3> t2> t1. Multilayer heat storage system according to claim 8, characterized in that in a section of the storage modules, the capsule ( 1 ) arranged in symmetrical intervals for them. Multilayer heat storage system according to claims 8, 9, characterized in that between the capsules ( 1 ) is an adjustable air gap ( 9 ) educated. Multilayer heat storage system according to claim 10, characterized in that the air gap ( 9 ) is of the polymer ( 10 ) filled with the variable heat conduction. Multilayer heat storage system according to claim 10, characterized in that the air gap ( 9 ) is filled with a heat transfer medium. Multilayered heat storage system according to claims 8 to 12, characterized in that a storage section containing a number of storage modules with filled-in heat transfer polymer (s) ( 20 ) and a heat transfer medium ( 19 ) Spaces, is in cylindrical housing ( 16 ), that has outer thermal insulation contour ( 21 ), housed. Multilayer heat storage system according to claim 1, characterized in that the storage module consists of structured electrically conductive and warming polymer ( 26 ) with extended vertical cells. A multilayer heat storage system according to claim 14, characterized in that a part of the expanded vertical cells is connected to the storage material ( 25 ) and remaining hollow cells ( 24 ) form in its row the channels for the passage of heated air ( 23 ). Multilayered heat storage system according to claim 1, characterized in that the Peltier semiconductor modules are used as heating elements in the memory module ( 27 ), which have correspondingly cooling ( 28 ) and warming ( 29 ) Storage layers, applied. Multilayered heat storage system according to claim 16, characterized in that the storage modules are collected in the sections constituting the channels of "cold" and "heat", respectively, and with the heat-insulating plates ( 30 ), whereby the air flow is controlled by means of the 31 ) 32 ). Multilayered heat storage system according to claims 8, 17, characterized in that for the regulation of the air flow is provided with the above-arranged controllable mechanical termination, which consists of the housing ( 33 ), the collapsible blind ( 34 ) and the pivotable half disc with the thermoregulator ( 35 ) equipped. Multilayered heat storage system according to claim 18, characterized in that it comprises a controllable mechanical seal arranged at the top, consisting of a base ( 39 ), a set of vertically displacing plates ( 36 ) with built-in flat magnets ( 40 ) and from the perpendicular to the plates ( 36 ) arranged rods ( 37 ) with built-in to all its length magnets ( 41 ) and ( 42 ) equipped with mutually hostile poles. Multilayered heat storage system according to claim 18, characterized in that it is provided with the above-arranged controllable mechanical seal, consisting of the provided with through openings ( 46 ) flat basket-shaped plate ( 43 ) whose inside metallic plate ( 45 ) with the equiaxed openings ( 47 ), which detect through openings ( 46 ) of the plate ( 43 ) in the resulting due to the change in the directivity electromagnetic field in the induction coil of the flat solenoid ( 44 ) Displacement of the plate ( 45 ), moves, equipped.