RU190265U1 - Tubular device for creating an ice coating of galvanized profiled sheet on a supporting frame honeycomb base from asbestos-cement slabs filled with insulation - Google Patents

Abstract

The proposed utility model for the installation of ice coverings of stationary and seasonal structures uses the supply of refrigerant through the channels formed as a result of joining the profiled sheets on the plane to the panel. gasket and pad using silicone mastic and is detachable. The panels are laid on the top sheet of honeycombs ovogo frame base filled with insulation. The use of widespread profiled sheet instead of expensive pipes made of material ERDM, provides simplicity and cost of manufacture, assembly and disassembly of the cold-forming system.

Description

The pipeless device for creating an ice cover consists of channels formed by galvanized profiled sheets hermetically interconnected, which are mounted on a supporting frame honeycomb base filled with insulation.

Formed channels are interconnected by nozzles, as well as with collectors through the inlet and outlet nozzles.

The task of the technical result when using:

1. Significantly less laboriousness and cost of manufacturing and assembling a cold-forming system for forming an ice field.

2. The use of an economical, less labor-intensive framework of asbestos-cement slabs as compared with a carrier system for laying pipelines.

Characteristics of the utility model.

The proposed utility model is based on the use of the formed channels with the hermetic connection of two profiled sheets along the plane and their docking in length through the gasket and lining.

Docking along the plane is made by a combination of rivets through a 10-mm-wide tape made of fiberglass fabric impregnated with epoxy resin, providing a tight one-piece connection. Docking along the length is performed using linings and linings of the material of the main profiled sheet using silicone mastic and the possibility of dismantling the individual formed panels from the two joined along the plane of the profiled sheets.

Laying of panels is carried out on the top sheet of the cellular frame base filled with insulation.

The assembled panels are connected by nozzles at the end to provide a closed movement of the chlodagent through the formed channels and through the inlet and outlet nozzles are connected to the collectors.

Implementation of the utility model

Use of the utility model can be carried out both for stationary ice coverings and for seasonal objects, using the minimum dimensions of the panels and the supporting cell frame for storage and ease of assembly and disassembly of the cold-forming system.

Blueprints:

The figure 1 shows the docking of the top sheet of pos. 1 with lower pos. 2, through the glass fiber tape pos. 3, forming a single panel, pos. four.

Docking panels along the length is carried out through the bottom lining of pos. 5 and the top cover pos. 6 with silicone mastic sealing.

The figure 2 shows in the end of the channel connection between the nozzles POS. 7 and at the other end of the inlet pipe pos. 8 and the outlet no. 9.

The figure 3 shows a frame honeycomb supporting structure consisting of the bottom sheet of pos. 10, the edges of pos. 11, the top sheet of pos. 12 and insulation pos. 13.

Claims (1)

Tubular device for creating an ice cover, characterized in that it contains galvanized profiled sheets hermetically interconnected with the formation of channels, mounted on a supporting frame honeycomb base filled with insulation, while the channels formed are interconnected by pipes and collectors through supply and discharge pipes .

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