PL58948Y1 - Heat accumulator - Google Patents

Description

The subject of the utility model is a heat accumulator, which is an important element of heating systems of various types of rooms, such as apartments, small houses. From the Polish patent application No. 281 917 a device for the accumulation of thermal energy is known}, intended for indoor air supply installations. It has a container at the bottom of which there is a heater consisting of electrical resistance elements connected to the power supply, W the container is a bed consisting of unit packages placed on heating panels. This herb consists of unit packages, consisting of thin-walled closed glass tubes with a well-developed surface. The package against phase segregation is protected by a heat-releasing factor, which is a N ' 2SO4 x 10 rbO solution. The container is a water circulation system made of pipes connected to the inlet and water discharge port. The pipes connect the heating panels, which are inclined at an angle, which protects the system against air. The panels are typical central heating plate heaters. In the container there are flow channels forming the air circulation system, consisting of the external circulation in the inter-interior space and the internal circulation in the inter-interior space and the internal circulation in the inter-interior space. In the ducts there are fans to exhaust the air flow. The bed is heated with heaters consisting of resistance elements powered by electricity. Hot water from an external heat source can be used to heat the bed. The role and source of heat is the air which circulates internally in inter-pipe spaces. The heating panels heat the water in the pipes of the water circuit connected to the supply system. The air sucked in from the outside flows through the panel with the bed, as a result of which it heats up leaving the container and transfers the heat in the heating system of the air supply system of the room. The essence of the solution according to the utility model is that in In the tank filled with the accumulation medium, a tubular block is immersed in a meandering series of pipe sections connected with elbow fittings, placed on at least three levels, located at an angle of 0 to 14 ° in relation to the horizontal. The pipe sections are equipped with slack-free plate heat sinks. The tank has a removable cover with a vent mounted. The advantage of the device presented above is its simple and compact structure, which enables easy execution and requires no maintenance. The device is based on simple phase changes, which makes its operation practically failure-free. At the same time, the device makes it possible to achieve significant energy savings with the use of waste heat. The solution according to the utility model is shown more closely in the drawing, in which Fig. 1 is a top view after removing the cover, and Fig. 3 is a side view after removing the wall and without showing the heat sinks . The thermally insulated tank I is made of steel and stainless steel and has the shape of a rectangular vessel, closed at the top with a removable cover 2 provided with an air vent 3. Tank 1 is almost completely filled with a heat-accumulating medium, which is paraffin or wax. A completely continuous, meandering 5-tube block is immersed in the medium 4. It consists of horizontal 6-pipe sections, connected by elbow connectors 7. The ends of the 5-pipe block are connected by a horizontal, upper supply manifold 8, having 1 connection socket 9 led out to the outside of the tank, and with a horizontal, lower return manifold 10, which has to be led out of the tank connector JJ. Heat sinks \ 2 in the form of corrugated stainless steel plates are slipped onto the pipe sections. The device operates by introducing heat, waste water from the industrial technological process into the pipe block. Flowing waterOTZeZ caiv 0; 0k S rii; 0 \ W R3! 7TZe \ ya * 70 LvCZiViO 2 rJiC.sULtOTiilZSIi i-i. PodWyZi ^ .Ze7 ^ '^ ^^ r ^ roj-ijn; causes a gradual but complete melting of the accumulator n \ & d \ uxn 4. which is? iij-i; -l j'Anrrfir-5r; »n; -1 ^ rv- iTnrAT.M / J-7.1 co Freezing Temperature, heat inflow] wouy, enter ao & 'ok: j ~ tubular water from ^ nin0 which ^ rrb ^' Heats s ^ e 100% coleir: given by the medium 4 a Cumulative. Heat exchange '. is facilitated by the circulation of racuarors', \ ~ v njiiiiii' ^ ¦ "DsywaitcC ^ 1" 'wodv iii? ^ *' * lum -? aiciiijiUiur ^ cf ^ loses cir-oio., L, ..Lif ^ ecno-Czi gradually to its old state.T_: rz ^ dzei * 'le working cvkiiczi ^ ea zii: - ^ d / ^' "^ o part * ' aiv * a 'ooierra H3 T ^ / Przejanai c * eT / *' aUf, JOL 0 4S ~ 6hi 58W% PL

Claims (3)

Protective Claims 1. A heat accumulator, which is a tank with a piping system placed in it with a liquid inlet port and a liquid outlet port led to the outside, as well as a heat-accumulating medium with a high heat capacity and characterized by the ability to phase change in the range from 10 to 90 ° C, characterized in that in the storage medium (4) filling the tank (1) a tubular block (5) is immersed, formed of elbow couplings (7) connected in a meandering sequence of tubular sections (6), located on at least three levels, located in relation to the horizontal at an angle of 0 to 14 °, while the pipe sections (6) are equipped with plate heat sinks (2). 2. The battery according to claim Characterized in that the tank (1) has a removable cover (2) with a vent (3) fitted. 3. The battery according to claim The method of claim 1, characterized in that the heat sinks (12) are mounted on the tubular sections (6) without play. spokesman for pMsftióWy1060.1 Fig. 2 ¦Sr S] 00000000 00000000 0 0 0 0 0 0 0 0 10. Fig. 3 P ^ 3v PL