DISTRIBUTOR MODULE FOR A REFRIGERANT CIRCUIT

Organization Name

Robert Bosch GmbH

Inventor(s)

Denis Neher of Remchingen (DE)

Dana Nicgorski of Burlington MA (US)

Thomas Holzer of Karlsbad (DE)

DISTRIBUTOR MODULE FOR A REFRIGERANT CIRCUIT - A simplified explanation of the abstract

This abstract first appeared for US patent application 18506344 titled 'DISTRIBUTOR MODULE FOR A REFRIGERANT CIRCUIT

Simplified Explanation

The distributor module described in the patent application includes a housing with refrigerant inlets and outlets, a heat exchanger, a shutoff valve, and refrigerant connectors to form subcircuits within the housing.

• The housing of the distributor module contains components such as a heat exchanger and a shutoff valve.
• The heat exchanger is connected to the refrigerant inlets and outlets to exchange heat between the refrigerant flows.
• The shutoff valve is connected to the heat exchanger and allows for control of the refrigerant flow.
• Refrigerant connectors are attached to the shutoff valve and heat exchanger to form refrigerant subcircuits within the housing.

Potential Applications

The technology described in this patent application could be applied in various refrigeration and air conditioning systems to efficiently distribute and control the flow of refrigerant.

Problems Solved

This technology solves the problem of effectively managing the flow of refrigerant within a system, ensuring optimal heat exchange and overall system performance.

Benefits

The benefits of this technology include improved energy efficiency, better temperature control, and increased reliability of refrigeration and air conditioning systems.

Potential Commercial Applications

This technology could be used in commercial refrigeration units, air conditioning systems for buildings, and industrial cooling applications.

Possible Prior Art

One potential prior art for this technology could be similar distributor modules used in refrigeration systems, but with different configurations or components.

Unanswered Questions

How does this technology compare to traditional distributor modules in terms of efficiency and performance?

This article does not provide a direct comparison between this technology and traditional distributor modules in terms of efficiency and performance. Further research or testing would be needed to determine the specific advantages of this innovation.

What are the potential maintenance requirements for this distributor module in comparison to existing systems?

The article does not address the potential maintenance requirements for this distributor module in comparison to existing systems. Understanding the maintenance needs of this technology could be crucial for its implementation in real-world applications.

Original Abstract Submitted

A distributor module includes a housing having first and second refrigerant inlets and first and second refrigerant outlets for connection to a compressor and a condenser-evaporator device. A heat exchanger and a shutoff valve are arranged within the housing. The heat exchanger is connected to the refrigerant inlets and refrigerant outlets such that heat from a refrigerant flowing between the first refrigerant inlet and the first refrigerant outlet and between the second refrigerant inlet and the second refrigerant outlet can be exchanged. The shutoff valve is connected to the second refrigerant inlet and the heat exchanger. A refrigerant connector is connected to the second refrigerant inlet on a shutoff valve inlet side. A further refrigerant connector is connected to the heat exchanger on a shutoff valve outlet side. At least one refrigerant subcircuit is formed between the refrigerant connectors, and sections of the subcircuit are arranged within the housing.