DE10196995B4 - Thermoelectric air cooling unit - Google Patents

Abstract

Thermoelectric air cooling unit,
With a fan-loaded heat absorption plate (5) and a fan-applied heat output plate (8),
- With a plurality of Peltier elements (3) between these two plates (5, 8) which abut with their cold sides on raised heat transfer contact surfaces (6) of the heat receiving plate (5) and with their hot sides on raised heat transfer contact surfaces (9) of the heat discharge plate (8)
- And surrounded by insulating plates (17, 18) and by means of screw connections (19, 20) between the two plates (5, 8) are clamped,
characterized,
- That the Peltier elements (3) are fixed on a mounting facilitating, the Peltier elements (3) in recesses receiving fixing plate (14) made of hard paper, which also carries the electrical supply lines for the Peltier elements (3),
- And that each screw (19, 20) to compensate for thermal stresses a plate spring (21).

Description

Technical area

The The present invention relates to thermoelectric cooling devices, in particular thermoelectric air cooling units constructed in such a way that she raised one Ensure operational safety and lower power consumption as well as easy to repair and convenient in assembly and disassembly as well as inexpensive can be produced.

previous State of the art

It are cooling systems widely known to use thermoelectric devices, which are commonly used on the Basis of the Peltier effect. The Peltier elements are used in such variants of use in the form of flat elements DC voltage used between two opposite active surfaces of the element is created. The direct current causes the heat transfer from an active surface of the element to the other. It becomes one side of the element chilled and the other warms up. The. active surfaces become ordinary as heat-conducting Plates, e.g. made of ceramic, and the actual arranged between them Thermocouples formed as a composite of electrically connected p and n thermopiles, made of materials with desired thermoelectric properties, e.g. from bismuth telluride. In general, this construction becomes a thermoelectric module (Thermo module).

at the production of the heat connection of cold active surface the thermo module with the inner part of a chamber, the cooling of the chamber takes place.

Around to ensure a continuous process of cooling should be discharged from the chamber Heat from the other (hot) active surface of the thermo module various means, e.g. by forced air cooling, to be removed. to effective cooling performance and for the safe operation of the thermo modules in thermoelectric cooling units should be a dense system of active surfaces of the thermal modules to the surfaces of heat transferring Constructions, in other words a secure fixation of the thermo modules across from the heat transferring Guaranteed constructions become a sufficiently dense and constant thermal contact the active surfaces Thermo module with surfaces the heat transferring To reach components. It should be noted that during the Work of thermo modules thermal strains and compressions under Influence of the temperature difference between the cold and hot side the thermomodules arise. This fact speaks of that at the same time with the above also the technical task of compensation the thermal change the height the thermo module and the components of the unit is to be solved.

Furthermore is taken into account, that it is inadmissible is, big personnel when contraction of the thermocouples with the heat-transferring elements, since the applied voltage, e.g. the longitudinal pressure, to destroy the thermal modules leads, which in turn reduces the reliability of the thermoelectric cooling device generally leads.

Around to ensure safe operation Insulation sufficient at the same time with the conditions mentioned be effective and heat losses in the environment of cold heat transfer the Thermal modules and the adjacent components of the unit prevent.

Consequently would the complex (simultaneous) solution These technical tasks allow the construction of a thermoelectric air cooler to create, the good operating characteristics (increased life, high reliability), as well as a reduced power consumption, an increased cooling capacity guaranteed Easy to repair and convenient in assembly (assembly) and in the Disassembly (disassembly) and comparatively inexpensive to produce is.

• – Vorrichtung zur Befestigung eines thermoelektrischen Moduls ( SU 951028 A vom 15.08.1982),
• – Thermoelektrischer Kühlschrank ( US 5,522,216 vom 04.06.1996),
• – Vorrichtung zur thermoelektrischen Kühlung und Erwärmung von Getränken und Speisen ( US 4,823,554 vom 25.04.1989),
• – Kompakte thermoelektrische Kühlungseinheit ( US 5,784,890 vom 28:07.1998)

As the foregoing prior art shows, examples of the known technical solutions are given

• Device for fastening a thermoelectric module ( SU 951028 A of 15.08.1982),
• - Thermoelectric refrigerator ( US 5,522,216 from 04.06.1996),
• - Device for thermoelectric cooling and heating of drinks and food ( US 4,823,554 from 25.04.1989),
• - Compact thermoelectric cooling unit ( US 5,784,890 from 28: 07.1998)

At present, a current and complicated problem is the solution of a complex technical problem, which is to ensure a precise secure fixation of the thermomodules simultaneously with the installation of their active surfaces on contact surfaces of the heat-transferring elements and thereby provide a way the thermal change of height the thermomodule and the compensate for geometrical dimensions of the adjacent components, thereby eliminating the possibility of exposure to each thermo module of uncontrolled pressure forces and secure insulation of the thermo modules is to be ensured.

Thermoelectric air cooling units, the thermomodules, heat absorption and transmission elements with bodies for heat absorption and development with fans and insulating means are well known, for example described in SU 951028 A Invention (SW Andrushenko et al.), US 5,784,890 Invention (John D. Pollinghorne), US 4,823,554 Invention (Leopard Trachtenberg et al.), US 5,522,216 (Marlow Industries Inc. et al.) Nevertheless, the previous cooling systems have problems of increasing the reliability, reducing the power consumption, increasing the ease of repair (during assembly and disassembly work), increasing the cooling capacity, which by solving the described complex technical task can be ensured, which has not found a sufficiently effective constructive solution in the prior art.

Near the technical essence of the present invention is an in US 5,784,890 disclosed, compact thermoelectric cooling unit with a plurality of Peltier elements arranged between the heat absorption and heat transfer elements, with insulating means for the prevention of unwanted heat transfer; a heat receiving fan and a heat dissipation fan. The heat receiving element is formed as a plate having a large number of ribs and six raised contact positions. A heat transfer member is formed in the same way. The Peltier elements bear with their cold sides against the heat transfer contact surfaces of the heat absorption plate, and with their hot sides they are applied to the heat transfer contact surfaces of the heat discharge plate.

Around the unwanted Heat transfer between the heat absorption and heat transfer elements To prevent, the cooling unit is with Supplied insulating. The insulating means are of a suitable one Material with necessary heat-insulating Properties trained. In particular, in one embodiment are the insulating polyurethane foam formed with the the space between the heat absorption and heat transfer elements while completed the assembly work becomes.

One unsolved Problem in this known device is an arbitrary shift the thermal modules opposite the contact places the heat absorption and heat transfer plates in During assembly of the device when filling with polyurethane foam. As a result of the shift, the effectiveness of the derivative decreases the heat (the Cooling), Technical and operational characteristics are deteriorated, decreases operational safety, and there are major problems with dismantling and assembly repairs.

In The construction of this device is also the problem of improvement the thermal contact of the Peltier elements with the contact points of Heat absorption and heat transfer plates as well as the possibility the secure fixation of the Peltier elements not solved, and Compensation of thermal change of height of thermal modules and the geometric sizes of the adjacent elements is not guaranteed.

From the patent US 5,584,183 the construction of a thermoelectric heat exchanger is known, in which the thermal contact of the thermal modules is improved thanks to the use of bolt clamping elements and springs, which equalize the clamping force and compress rubber pads.

The out US 5,584,183 known improved thermoelectric heat exchangers include at least one thermoelectric device which is arranged between two channels for the purpose of heat exchange between the first fluid which moves through the first of the channels and the second fluid which moves through the other channel. This thermoelectric device has a plurality of thermoelectric elements between the thermoelectric insulators forming the sides of the thermoelectric device, the heat receiving fins being each formed of two channels having a rectangular, transverse section, a heat conductive material interposed between the sides of the thermoelectric device and two channels, a means of compression and uniform distribution of the compression load between two channels and the thermoelectric device and insulation between the thermoelectric devices. The means of compression and uniform distribution include the pressing bolts, the springs and the spacer for distributing the compression load.

But in this after the patent US 5,584,183 known device is not solved a number of problems. Thus, an unsolved problem is the possibility of arbitrary displacement of the thermoelectric elements during assembly. The means of compression is a group penmittel (ie one for all Peltier elements) and it can not ensure the identical clamping force for each Peltier element, which can lead to the destruction of isolated Peltier elements, and thus leads to lowering the reliability of the entire thermoelectric cooling device. In the mentioned device, the destruction of only one Peltier element requires the dismantling of the entire device. This in turn confirms on the one hand the low reliability of the device and on the other hand, the presence of major problems in the disassembly and assembly repair work.

is the means of compression a spring, is the uniformity the clamping force on the whole surface of the touch does not guarantee what to the uncontrollable clamping forces when clamping the Peltier elements leads. The resulting stresses can destroy the Peltier elements and lead to the Peltier elements adjacent structures.

epiphany the invention

aim The present invention is a new construction of a thermoelectric air cooling unit to create the importance of some of the disadvantages of the previous one diminished known solutions and solve the technical task, a compact, cost-effective, easy to install (repairable), reliable, economical in terms of power, a high cooling capacity to create a constructive construction.

In The proposed invention is the complex technical task solved constructively, one secure fixation of thermo modules with a continuous dense system their active surfaces at contact surfaces of heat transferring To ensure elements and a possibility to provide the thermal change the height the thermo modules and the surrounding components of the unit balance by doing the opportunity the influence on the thermo modules excluded from uncontrolled pressure forces and ensures safe isolation becomes.

• – einer Vielzahl von Thermomodulen, die jeweils eine erste und eine zweite aktive Oberfläche und elektrische Stromzuführungen aufweisen,
• – einem Wärmeaufnahmeelement in Form einer Platte mit einer ersten und einer zweiten Seite, wobei die erste Seite erhabene Kontaktflächen aufweist, die jeweils in einem Wärmekontakt mit der ersten aktiven Oberfläche eines der genannten Thermomodule stehen und die zweite Seite eine Vielzahl von Rippen umfasst,
• – einem Wärmeübertragungselement, zu dem eine Platte mit einer ersten und einer zweiten Seite gehört, wobei die erste Seite erhabene Kontaktflächen aufweist, die jeweils in einem Wärmekontakt mit der zweiten aktiven Oberfläche eines der genannten Thermomodule stehen und die zweite Seite eine Vielzahl von Rippen umfasst,
• – einem Wärmeaufnahmelüfter,
• – einem Wärmeabbaulüfter,
• – Isoliermittel zur Vermeidung von Wärmeverlusten zwischen dem Wärmeaufnahme- und übertragungselement,
• – Steuermittel, umfassend eine Speiseeinheit für die Thermomodule und Lüfter und eine Kontrolleinheit für Temperaturen,
• – Mittel zur Montage der Thermomodule zu einer Thermobatterie,
• – Mittel zum Ausgleich der thermischen Änderungen der geometrischen Abmessungen der Thermomodule und der umgebenden Bauelemente.

According to these aspects, a thermoelectric air cooling unit is proposed, consisting of:

• A plurality of thermal modules each having a first and a second active surface and electrical power leads,
• A heat receiving member in the form of a plate having first and second sides, the first side having raised contact surfaces each in thermal contact with the first active surface of one of said thermomodules and the second side comprising a plurality of fins,
• A heat transfer element including a plate having first and second sides, the first side having raised contact surfaces each in thermal contact with the second active surface of one of said thermal modules and the second side comprising a plurality of fins,
• A heat receiving fan,
• A heat dissipation fan,
• Insulating means for avoiding heat losses between the heat-absorbing and transmission element,
• Control means comprising a feed module for the thermal modules and fans and a control unit for temperatures,
• Means for mounting the thermal modules to a thermobattery,
• - Means to compensate for the thermal changes in the geometric dimensions of the thermal modules and the surrounding components.

It is advantageous if the means for mounting the thermal modules too a thermal battery in the form of a plate is formed, the contact surfaces and Passage window has. When installing the thermal modules in this Windows become the power supplies with the contact surfaces electrically connected to the plate. In this way, the thermal battery is created.

It is advantageous if the means to compensate for the thermal changes the geometric dimensions of the thermomodules and the surrounding ones Components in the form of a special elastic connecting element is formed, which under the disc of each bolt of the fastener is arranged. The elastic connecting element may take the form of a formed under the disc of the bolt arranged disc spring be.

Short description of drawings

To the better understanding of the invention the following details of the construction are used, the based on the accompanying drawings explained become. It shows:

1 In a perspective view, a thermoelectric air cooling unit in the disassembled state according to the

realization the present invention with a conditionally removed housing and removed fans,

2 - In perspective view a ther Moelektrische air cooling unit in the assembled state, in the housing 24 is housed,

3 - In perspective view of a thermo module 3 with power supply 4 .

4 In an overall view (front view) of a thermoelectric air cooling unit with a partial cross section in the central geometric axis,

5 A view (side view) with a partial cross section in the geometric axis, shown with the right arrow ( 2 )

6 A cross-section BB in FIG 4 by a thermoelectric air cooling unit, with dotted arrows showing the movement of the air streams,

7 - In overall view, a fixing plate 14 with windows for installation of thermo modules 3 and with contact surfaces 15 for connecting it to power supply of the thermal modules,

8th A plate with arranged thermo modules,

9 A thermoelectric air cooling unit arranged in an insulated chamber,

10 An enlarged local cross-section I in 9 ,

Better variant of the execution of invention

The thermoelectric air cooling unit according to the invention 1 is in 1 . 2 . 4 to 6 shown in overall view. The thermoelectric air cooling unit 1 includes one to a thermobattery 2 ( 1 ) combined variety of thermal modules 3 ( 1 . 3 . 4 to 7 ), each having a first and a second active surface and electrical power leads 4 ( 3 ) exhibit. The thermoelectric air cooling unit 1 has a Wärmeaufnahmeelememt, in this embodiment variant in the form of a plate 5 ( 1 . 4 to 6 ) is formed, on one side of which raised contact surfaces 6 are formed and on the other side a variety of ribs 7 ( 1 . 4 to 6 ) is attached. The structure of the Wärmeaufnahmeelememtes is not fixed, the ribs 7 and the contact surfaces 6 can with the plate 5 form a whole or be fastened in the course of successive manufacturing steps, between them only a good thermal contact is to be ensured. It is believed that the plate 5 , Ribs 7 and the contact surfaces 6 can be made of a thermally conductive material, such as aluminum.

Every contact surface 6 has a size and a shape corresponding to the shape of the active surface of the associated thermo module 3 completely corresponds to the contact surface 6 followed.

The thermoelectric air cooling unit 1 Also includes a heat transfer element, in this embodiment of the invention in the form of a plate 8th ( 1 . 4 to 6 ) is formed with a first and a second side, wherein the first side of raised contact surfaces 9 each in thermal contact with the second active surface of each of said thermal modules 3 stand, and the second side a variety of ribs 10 includes ( 1 . 4 to 6 ).

To transfer heat to the ribs 7 of the heat receiving element is a heat receiving fan 11 provided with a control means 12 connected is. The heat take-up fan 11 is on an air line 25 stored ( 2 ). For a forced air blowing around the ribs 9 to ensure the heat transfer element and to increase the heat loss, are heat removal fan 16 provided with the control means 12 are connected. A fan 13 is on an air line 26 attached.

The thermoelectric air cooling unit 1 also has a means of mounting the thermal modules 3 to a thermobattery 2 on, in the form of a fixing plate 14 is trained ( 1 . 8th . 7 ), the contact surfaces 15 and passage window 1b ( 7 ) for inclusion in the thermomodule 3 ( 1 . 7 ), whose power supply lines 4 with the contact surfaces 15 the plate 14 be electrically connected. This way the thermomodules become 3 to the thermobattery 2 assembled.

The plate 14 consists in this embodiment of the invention of hard paper.

The presence of the fixing plate 14 In the proposed construction of the thermoelectric air-cooling unit, it is possible to solve the technical problem caused by the following reasons. As the experience of using the thermoelectric unit without fixing plate has shown, during assembly and during operation, the thermal modules are displaced relative to the contact surfaces (according to the manufacturing terminology, the thermal modules are "floating") Density produced insulating materials are not able to prevent the movement of the thermal modules, since they do not have the required physical properties.The soldering of the thermal modules to the raised contact surfaces reduces the repairability of the unit, makes the assembly and disassembly work considerably more complicated and increases the manufacturing cost of the unit.

The Moving the thermo modules relative to the contact surfaces pulls reducing the operating parameters of the unit in general by itself and causes the lowering of the cooling capacity.

The proposed construction of the unit is these disadvantages bar. The presence in the proposed construction of the thermoelectric air cooling unit of the fixing plate 14 has allowed a precise secure fixation of the thermo modules 3 relative to the raised contact surfaces 6 the heat receiving element and the raised contact surfaces 9 to ensure the heat transfer element, so that a close concern of the active surfaces at the contact surfaces of the heat receiving and transmission element without any displacement of the thermal modules takes place.

The thermoelectric air cooling unit 1 also includes an insulating means to prevent heat loss between the heat receiving and transmitting element. The insulating agent is in the form of two units 17 and 18 made of a thermally insulating material, such as "Velotherm" or "Penophol" trained. Each insulation unit 17 . 18 has through holes for receiving corresponding parts of the thermal modules and the contact surfaces. The units 17 . 18 are on both sides of the plate 14 arranged ( 1 ).

Such Training and arrangement of the insulation units allows it, simultaneously a safe, the heat losses to ensure preventive isolation as well as the assembly and disassembly work during the repair of the unit to make comfortable.

The thermoelectric air cooling unit also includes threaded fasteners, which are designed in the form of two bolt connections per thermo module. The presence of the two bolt connections is not a fixed condition. There are also three bolt connections for every two thermo modules conceivable. In doing so, every bolt becomes 19 in coaxial openings of the heat receiving element (in the plate 8th ), a guide 27 , the heat transfer element (in the plate 8th ), the plate 13 and the insulation units 17 . 18 housed ( 10 ). The bolt 19 is by means of a main disk 20 attached. It will be under each main disc 20 of the bolt 19 a special elastic connecting element, such as a plate spring 21 , arranged below the successively another metallic and dielectric disc 22 respectively. 23 is appropriate. The plate spring 21 assumes in this embodiment of the invention the function of a means for compensating the thermal changes of the geometric dimensions of the thermal modules and the surrounding components of the unit.

2 . 7 . 9 show the control means 12 , which with the thermoelectric air cooling unit 1 interact and in a common housing 24 are stored. As is known, the thermal modules require the application of a DC voltage with comparatively low values (in the range of 6 to 12 V) and the flowing current is comparatively high (from 2A to 4A). The control means 12 converts by means of a first converter, not shown, the AC voltage of the electrical network (220 V, 50 Hz) into a DC voltage, which is converted by means of a second converter not shown in the AC voltage with a high frequency (25 kHz), which in turn with Help a third converter not shown in a comparatively low DC voltage (in other words to a desired size, eg 5 V) is converted. At the same time the fans 11 and 13 supplied with a corresponding supply voltage.

The work of taxation 12 is ensured by means of a suitable control panel, not shown, having means for setting a desired end temperature in the chamber and one or more indicators (not shown) for monitoring the work of the unit.

The structure of the control means 12 is not fixed, but is created using existing circuit elements suitable for specific requirements.

In some cases, simpler control means are advantageous for use. It is assumed, for example, that the unit 1 works to ensure maximum cooling constantly. In this case, means for temperature specification are excluded as the unit 1 will work continuously. As 2 shows, the control means 12 on the wall of the housing 24 stored inside.

• – die Konstruktion zeichnet sich durch eine Kompaktheit, eine erhöhte Festigkeit und einen vergleichsweise niedrigen Preis aus,
• – die Konstruktion zeichnet sich durch eine erhöhte Zuverlässigkeit während des Betriebes auf Grund origineller konstruktiver Lösungen aus, die eine feste Fixierung der Thermomodule, den Ausgleich der thermischen Änderungen der geometrischen Abmessungen der Thermomodule und der umgebenden Bauelemente gewährleisten,
• – die Reparaturfähigkeit und die Bequemlichkeit während der Montage- und Demontagearbeiten sind gewährleistet,
• – die Konstruktion erlaubt es, die Möglichkeit des Betriebes in einem weiten Bereich der Klimabedingungen und in sich bewegenden Objekten zu gewährleisten,
• – die technischen Charakteristika sind verbessert (die Leistungsaufnahme ist herabgesetzt und die Kühlleistung ist erhöht).

From the above, the following advantages of the proposed thermoelectric air cooling unit are apparent:

• The construction is characterized by a compactness, an increased strength and a comparatively low price,
• - the construction is characterized by an increased reliability during operation due to original constructive solutions, which ensure a firm fixation of the thermo modules, the compensation of the thermal changes of the geometric dimensions of the thermo modules and the surrounding components,
• The repairability and the comfort during assembly and disassembly work are ensured,
• The construction makes it possible to ensure the possibility of operation in a wide range of climatic conditions and in moving objects,
• - the technical characteristics are improved (the power consumption is reduced and the cooling capacity is increased).

Field of application of the invention

The The present invention can be used for cooling different types of closed structures are used, like cabinets for the electronic equipment, pharmaceutical warehouses, refrigerators in vehicles, Commercial refrigeration equipment.

Claims (1)

Thermoelectric air cooling unit, - with a ventilated heat absorption plate ( 5 ) and a fan-applied heat output plate ( 8th ), - with a plurality of Peltier elements ( 3 ) between these two plates ( 5 . 8th ) with their cold sides on raised heat transfer contact surfaces ( 6 ) of the heat absorption plate ( 5 ) and with their hot sides on raised heat transfer contact surfaces ( 9 ) of the heat output plate ( 8th ) - and of insulating plates ( 17 . 18 ) and by means of screw connections ( 19 . 20 ) between the two plates ( 5 . 8th ), characterized in that - the Peltier elements ( 3 ) on a facilitating the assembly, the Peltier elements ( 3 ) in recesses receiving fixing plate ( 14 ) are made of hard paper, which are also the electrical supply lines for the Peltier elements ( 3 ), and that each screw connection ( 19 . 20 ) to compensate for thermal stresses a diaphragm spring ( 21 ) having.