DE20301232U1 - Mini cooling apparatus with Peltier technology for cooling switch cupboard and housing has two aluminum heat sinks between which Peltier elements are provided and fan - Google Patents

Abstract

The apparatus consists of two aluminum heat sinks (2,4) between which Peltier elements (3) are provided and a fan (1,5). One of the heat sinks (4) is provided within the housing to be cooled the other heat sink (2) is provided outside the housing and dissipates heat. A fan is mounted on each heat sink. The fan (5) inside the housing blows the air in the housing onto the cool heat sink. The cooled air emerges from both end faces of the heat sink and circulates in the housing. The fan on the outside blows air from the surrounding onto the warm heat sink and dissipates the heat.

Description

Application for registration of a utility model

Mini cooling unit with Peltier technology for control cabinet and housing cooling

Description State of the art

Heat is generated in control cabinets and housings by the devices and components installed. Excessive heating leads to malfunctions and component failures. The service life of electronic components is significantly reduced at high temperatures. The waste heat must be dissipated to the outside. Fans, heat exchangers or cooling devices are used for this purpose.

problem

The housing should remain as tight and closed as possible to prevent dust and moisture from entering and to protect the built-in components. If fans are used in dusty environments, contamination can occur as air is blown into the housing from outside. Heat exchangers only work efficiently if the ambient temperature is significantly lower than the internal temperature. Conventional cooling devices with compressor technology are too large for small housings. They can only be used to a limited extent for mobile applications. They are difficult to maintain and the liquid coolants are sometimes harmful to the environment.

Solution

Cooling devices with Peltier technology have been developed to cool small control cabinets and housings. The waste heat is dissipated to the outside without air exchange with the environment. The devices are very compact and can be installed in any position.

The Peltier effect is a thermoelectric process named after the French physicist Peltier. A semiconductor material is used which, when appropriately doped, causes the energy state of charge carriers to change by conducting current and can therefore be used to transport heat.

Several Peltier elements are installed between two heat sinks that are thermally insulated from each other. To improve heat dissipation on the outside and air circulation on the inside, fans are installed on each heat sink. The device is installed in the housing wall so that the inner cold heat sink protrudes into the housing.

The structure of the device is described in the example.

Advantages

Compared to conventional compressor cooling devices, Peltier cooling devices have various advantages. The devices can be built much smaller and are therefore particularly suitable for small housings. The devices work in any position and can also be used to cool moving and rotating housings. The devices work without liquid or gaseous coolants. The high level of efficiency also contributes to environmental friendliness.

Example

An embodiment is explained using Figures 1-5. The cooling device is shown from different views.

The Peltier elements (3) are installed between 2 heat sinks (2 + 4). The cold side heat sink (4) is located inside the housing to be cooled. The warm side heat sink (2) is located outside the housing and dissipates the heat to the outside. A fan is mounted on each heat sink. The inner fan (5) blows the air in the housing onto the cold heat sink (4). The cooled air exits the two front sides of the heat sink and circulates in the housing. The outer fan (1) blows the ambient air onto the warm outer heat sink (2) and dissipates the heat.

The device is mounted through a cutout in the door, side wall, rear wall or roof of the housing, see Figure 5. The seal (7) seals the housing against the ingress of dust and water and prevents heat coupling. The device is secured in the mounting cutout by screwing hexagon nuts onto the threaded bolts (8).

The electrical connection is made to a 4-pin terminal (9). A direct voltage of 24V is required. The supply voltage for the external fan and for the Peltier elements is connected to terminals 1 and 2. The internal fan (5) is connected to terminals 3 + 4.

Claims (1)

Mini cooling unit with Peltier technology for control cabinet and housing cooling
consisting of two aluminum heat sinks (2 + 4) with Peltier elements ( 3 ) in between and fans (1 + 5) for forced ventilation.
The heat sinks (2 + 4) consist of a flat milled base plate and vertical cooling fins. The cooling fins are milled in the middle so that the fans (1 + 5) can be mounted at a short distance.
There is also a protective cover ( 6 ) made of stainless steel on the outer warm side of the cooling device. The cover ( 1 ) serves as contact protection for the fan and to guide the air flow through the heat sink ( 2 ). The fan ( 5 ) on the inner cold side is provided with a contact protection grille. The fan ( 5 ) is connected to terminals 3 + 4 of the terminal block ( 9 ).
The cooling devices are equipped with 4 or 8 Peltier elements ( 3 ). Additional aluminum plates are inserted between the cold-side heat sink ( 4 ) and the Peltier elements so that there is sufficient distance between the heat sinks (2 + 4) to avoid heat feedback.
The Peltier elements ( 3 ) are placed in a sealing mat ( 7 ) made of polyethylene. The seal serves for thermal insulation between the heat sinks ( 2 + 4 ) and for sealing the mounting cutout ( Fig. 5 + 6).
The cooling device is connected to a direct voltage of 24 V DC. This voltage is required for the Peltier elements and for the fans. The device works after the supply voltage is connected to the connection terminal ( 9 ).
The Peltier elements ( 3 ) extract the heat from the inner heat sink ( 4 ) and transfer it to the outer heat sink ( 2 ). The inner fan ( 5 ) blows the warm air in the housing to be cooled onto the cold heat sink ( 4 ). The cooled air exits again at the front sides of the heat sink ( 4 ). The outer fan ( 1 ) blows the ambient air onto the warm outer heat sink ( 1 ) and dissipates the heat.
Depending on the power, the units are equipped with 1 or 2 fans on each side ( Fig. 1 + 7).
The mini refrigerators are characterized by - that by using the Peltier effect, waste heat is led out of a closed housing and the temperature inside is reduced - that cooling is achieved by separate air circuits without air exchange with the environment - that the cooling device works without liquid or gaseous refrigerant, only by connecting a direct electrical voltage - that the cooling device can be operated in any position and also on moving or rotating housings - that the device can also be used for heating by reversing the voltage on the Peltier elements - that the device operates without a filter for the external circuit.