JP2008539393A - Rolling equipment - Google Patents

Abstract

The present invention relates to a rotating device that is to be operated from the outside for all the upper extraction lines existing in the latent heat accumulator, and to the inner melting line. In the present invention, an upper extraction pipe (1) mounted in a latent heat accumulator is coupled to a rack (3) mounted in a joint. This rack can be moved from the outside by means of a lever, so that the extraction tube 1 can be rotated by 180 °. This rotation allows the opening hole (2) to rotate downward during the conveyance, so that PCM (Phase Changing Material) existing in the tank reaches or stays in the suction pipe line, Prevents being pumped into the heat exchanger. Furthermore, the present invention is characterized in that the branching section (6) is attached to the supply pipe line (5) as a melting pipe line so as to face the flow direction. This melting line is connected directly to the extraction line (4) down through the PCM and then up. Thus, the melting process can now be carried out in the case of fully crystallized PCM without the need for an external melting device.

Description

Current technology

PCT / DE99 / 0386 keeps the latent heat storage performance normal.

According to PCT / EP01 / 09801, a transfer closed device is required.

The performance of the latent heat storage relies on the suspension PCT / DE99 / 03861 to prevent the change energy storage material (PCM) inside the container from entering the bleed system, especially when removed from near the carrying tool. Once entered, the external heat exchanger is blocked by (PCM) and the system stops.

In general movement, the transfer closed device itself described in PCT / EP01 / 09801 mentioned above is defective:
Using a transfer closed device when salt crystals enter gaps between tubes or tube systems can damage device performance and can lead to device disposal in severe cases.

Since 1 MW of heat is generated near the latent heat storage, many air ducts must be installed above the device.
Mission setting

The invention concerns a technique. That is, it maintains its stability by preventing the PCM from entering the industrial conduit system made up of many ducts. Or, as shown in FIG.

As shown in FIG. 2, the mechanism arrangement procedure generates a reed action by connecting from the outside by one or a plurality of pipes. Therefore, the rotation operation is fixed.
Example of mechanism.

On the other hand, when one air escape pipe is set, it is guided to the optimum position from the outside by the action of the hook as shown in FIG. On the other hand, by the rack system and the gear system (3), the turning direction is transferred to the other pipe (1) as shown in FIG. Since all pipes are connected to the turning system, it is possible to move to the optimum position at the same time.

The pluggable unit allows the air vent pipe to lower the latent heat storage port when transporting, and then back up after transport is complete.
2. Liquefaction device

If the latent heat storage is not used as it is for a long time, the PCM cannot be dissolved, so the PCM crystallizes into a crystal.

In general, there is no possibility of placing latent heat storage near the loading place by applying an external force and applying a heat source. For example, as the vapor continues to liquefy, a cooling latent heat storage must be placed if the liquefaction process is complete.

The main subject of this invention is to design a facility that can automatically generate a heat source and heat conduction oil during the liquefaction process.

The problem is solved by the mechanism shown in FIG.

A branch pipe (6) is attached to the guidance system (5). The branch pipe is led in the direction of the flow line to an environment of at least 120 °.

The pipe is at the beginning of the liquefied pipe, and the liquefied pipe (6) is arranged as shown in FIG. This ensures the most ideal meltdown of PCM and normal start of the system.

The PCM begins to crystallize, and the heat transfer oil itself is guided and pressed into the system, rather than being inhaled by the conduit system and the case system. With this pressure, heat conduction oil is pressed into the branch pipe (6) liquefier (6). As shown in FIG. 2, open pressure circulation occurs.

Circulation begins, oil circulation is pulled by the liquefaction device (6), the liquefaction device (6) melts the PCM in a sealed environment, and a large amount of oil passages are opened.

Since the liquefaction passage is quite large, when oil and the generated pressure in the guidance system (5) flow, a huge oil circulation occurs and the liquefaction circulation is automatically stopped and closed by the pressure.

Claims (3)

As shown in FIG. 1, the element for latent heat storage causes the air escape pipe (1) to flow outside, and the actuator (3) is made outside. As shown in FIG. 2, the element of the latent heat storage is connected to the rack system and the gear system (3) by a large number of air escape pipes therebetween, so that they can be rotated simultaneously. The latent heat storage element has a branch pipe (6) with a minimum angle of 120 ° as shown in FIG. Make and drive.

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