RU199396U1 - Refrigerator sandwich panel with refrigerant piping - Google Patents

Abstract

The utility model refers to laminated products and is intended for use in refrigeration technology. The sandwich panel of the refrigerating chamber with pipelines for the refrigerant contains a middle insulating layer and a metal casing, and the middle layer is made on both sides with serpentine grooves with the possibility of placing pipelines in them for evaporation and condensation of refrigerant close to the casing. The use of the utility model makes it possible to reduce the equipment of the refrigerating chamber while ensuring comparable refrigerating capacity. 2 ill.

Description

The utility model refers to laminated products and is intended for use in refrigeration technology.

Currently, in the manufacture of the body of refrigerating chambers used in trade and industry, as well as in refrigerated vans, sandwich panels are used, which only have a heat-insulating function. To cool the space of the refrigerating chamber and the products located there, an air cooler connected to the refrigerating unit is used - an evaporator that occupies a certain useful volume, requires the organization of a refrigerant supply from the condenser from the outside of the chamber, consumes electricity, and also requires maintenance. In order to solve these problems, it is proposed to change the design of the chambers by supplying the sandwich panels with pipelines for the flow of the refrigerant.

Known is a sandwich panel with a coolant pipe (EP 1630479 A2, 03/01/2006), containing a middle insulating layer and outer reinforcing layers, while grooves are made on both sides in the insulating layer through the outer layer to accommodate the coolant pipe. Additionally, the sandwich panel is covered with finishing materials. This panel is not intended for the construction of cold stores and has a number of associated disadvantages.

A sandwich panel of a refrigerating chamber with refrigerant pipes (DE 10121012 A1, 14.11.2002) is known from the prior art, comprising a middle insulating layer and a metal casing, one side of the middle layer being provided with a trapezoidal recess, the contour of which follows the casing layer, to accommodate a holder with refrigerant condenser and evaporator piping. The described sandwich panel is not designed to perform the function of cooling the chamber or removing heat, therefore, it does not allow to exclude a separate air cooler and an external condenser. Thus, a significant disadvantage of such a sandwich panel is its low functionality. The disadvantages can also be attributed to the complexity of manufacturing and material consumption, since a holder of a special shape with cutouts for pipelines is required. The solution was chosen as a prototype.

The task of the proposed utility model is to expand the functionality of the sandwich panel without complicating the design and increasing material consumption.

The technical result is to reduce the equipment of the refrigerating chamber while ensuring comparable refrigerating capacity by making grooves for the location of the evaporator and condenser pipelines from opposite sides in the sandwich panel.

This result is achieved in a sandwich panel of a refrigerating chamber with pipelines for refrigerant, containing a middle insulating layer and a metal casing, due to the fact that the middle layer is made on both sides with serpentine grooves with the possibility of placing pipelines in them for evaporation and condensation of refrigerant close to the casing ...

The execution of serpentine grooves in the insulating layer and the location in them of pipelines for evaporation and condensation of refrigerant close to the metal casing allows to reduce the equipment used in the refrigerating chamber without complicating the design and increasing the material consumption of the sandwich panel.

The utility model is illustrated using Figs. 1-2.

Figure 1 schematically shows the construction of a sandwich panel with pipelines.

Figure 2 shows an example of the implementation of the proposed solution.

Refrigerator sandwich panel with refrigerant piping contains a metal layer, a middle insulation layer 1, and another metal layer. That is, metal layers, made, for example, of steel or aluminum, form a double-sided skin 2 of the middle layer 1, which, in turn, can be made of one or more layers of insulating material such as expanded polystyrene, polyisocyanurate foam, polyurethane foam or other similar material.

The insulating layer 1 is made on both sides with serpentine grooves so that the distance between them is no more than 50 mm with the possibility of placing in them a pipeline for evaporating refrigerant 3 on one side of the panel and a pipeline for condensing it 4 on the other side of the panel close to the casing 2. In other words, an evaporator is made on one side of the panel, and a condenser on the other. The term "close to" means such an arrangement of pipelines in which there are no gaps, gaps or openings between the pipeline and the casing as much as possible. It is advisable to use one piece piping without connections to eliminate the possibility of refrigerant leakage. After laying the pipelines, the layers of the panel are glued together.

Use the utility model as follows.

The pipelines of the sandwich panel produced are connected to a refrigeration unit, wherein a throttling device such as a capillary tube or a thermostatic expansion valve is first connected to the evaporation pipe. Then, the sandwich panel connected to the refrigeration unit is connected to the panels of the refrigerating chamber body so that the pipeline for evaporating the refrigerant faces the inside of the chamber, and for condensation - outside. Moreover, the sandwich panel can be fully or partially the ceiling and / or the wall of the chamber. The resulting chamber is used for its intended purpose for cooling, for example, food.

The compressor of the refrigeration unit pumps refrigerant vapor into the condenser. There, the transition of the refrigerant from a gaseous state to a liquid occurs and it cools. This will heat up the outside of the panel. Then the liquid refrigerant enters the evaporator through the throttling device. In it, the refrigerant boils and passes from a liquid to a gaseous state. Due to this, the inside of the panel is cooled. The gaseous refrigerant then enters the compressor. The cycle repeats itself.

The chamber does not require additional equipment, such as an air cooler, which makes it possible to significantly reduce the force of air currents inside the chamber, reduce the shrinkage of products and maintain a constant temperature without sudden changes. Also, the use of an external condenser is not required, which together simplifies assembly, reduces time and labor resources not only for manufacturing, but also for servicing the refrigerating chamber. In addition, the sandwich panel itself has an easy-to-manufacture construction.

The assembled sample of the proposed sandwich panel is used in the refrigerator compartment and has been successfully tested.

Thus, the utility model achieves the claimed technical result, which consists in ensuring the reduction of the refrigerating chamber equipment by making grooves for the location of the evaporator and condenser pipelines from opposite sides in the sandwich panel close to the metal sheathing.

Claims (1)

A sandwich panel of a refrigerating chamber with refrigerant pipelines, containing a middle insulating layer and a metal casing, characterized in that the middle layer is made on both sides with serpentine grooves with the possibility of placing pipelines in them for evaporation and condensation of refrigerant close to the casing.

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