DE60034071T2 - A HEAT EXCHANGER AND A HEAT EXCHANGE RELIEF VALVE ASSEMBLY - Google Patents

Abstract

A heat exchanger for a heat exchanger/expansion valve assembly, said heat exchanger (11) being provided with at least one inlet (12) for refrigerant fluid and at least one outlet (13) for refrigerant vapour, said heat exchanger (11) being provided with a plurality of plates (14; 34a; 34b; 34c; 35) juxtaposed to one another to define a plurality of flow-trough chambers, said valve (10) comprising a first compartment (15) adapted to be in communication with a vapour equalization channel (18), and a second compartment (16), said compartments (15, 16) being separated by a diaphragm (17). The heat exchanger (11) is adapted for mounting of the expansion valve (10) directly thereon in the area of said inlet (12) and the equalization channel (18) is formed between two of said plates (34a; 34b; 34c; 35) and extends from said outlet (13) to said area of said inlet (12), the equalization channel in said area being adapted to communicate with said first compartment (15).

Description

The The present invention relates to a heat exchanger for a heat exchanger / expansion valve arrangement for the Evaporation of a fluid and a heat exchanger / expansion valve assembly.

The Basic structure of a known heat exchanger used as an evaporator, for example, as disclosed in US-A-4,589,265, includes an inlet for a Refrigerant fluid and an outlet for overheated Refrigerant vapor and is provided with a variety of inner and outer panels, side by side are placed or arranged to define a stack of plates, between which flow chambers for the refrigerant are defined.

One Expansion valve, which has the function, the inflow of the Refrigerant fluid to keep the system in an appropriate balance, is connected to the evaporator in the following way: The refrigerant outlet the valve is connected to the evaporator inlet, one to the valve related temperature capsule is at the evaporator output clamped, and a pipe for Refrigerant vapor, which forms a compensation channel is between the valve and the Evaporator exit arranged.

It It is now assumed that this particular known construction both in terms of equipment costs as well as installation costs is expensive.

In fact, have to to connect the valve to the evaporator, cut off two connecting pipes, bent and brazed to the evaporator.

The Expansion valve must then be provided with two O-rings and attached to the Pipes are attached.

moreover is the performance of the evaporator valve assembly by such external Factors, i. Valve position, connecting pipe length and diameter, pipe bends and so on.

In addition, that leads Presence of the external pipe forming the compensation channel to a voluminous and bulky design.

One Another problem with the known design is that due to the presence of many external parts with respect to the body of the heat exchanger, the system through damaged a blow can be.

A The object of the invention is to provide a heat exchanger for one Wärmertauscher- / expansion valve assembly with a simplified and cost-effective design.

A Another object of the invention is to provide a heat exchanger for a heat exchanger / expansion valve arrangement, which allows a compact overall design of the system.

These and further objects of the invention are achieved by a heat exchanger for one Heat exchanger / expansion valve assembly according to claims 1 to 4 reached.

The above and other features, objects and advantages of the present invention The invention will become more apparent from the following detailed Be description of the preferred embodiments of the invention with reference to the accompanying drawings. Show it:

1 a schematic exploded view of a heat exchanger for a heat exchanger / expansion valve assembly according to a first embodiment of the present invention;

2 a schematic exploded view of a heat exchanger according to a second embodiment of the present invention;

3 a schematic exploded view of a heat exchanger according to a third embodiment of the present invention and

4 a cross-sectional view of a valve assembly according to the present invention.

Now referring to 1 is an expansion valve global with the reference number 10 and is on a heat exchanger 11 shown applied to form a heat exchanger / expansion valve assembly according to a first embodiment of the invention.

The heat exchanger 11 is with an inlet 12 for a refrigerant fluid and an outlet 13 provided for superheated refrigerant vapor and consists of a plurality of plates 14 placed or arranged side by side to define a plurality of flow chambers.

A used expansion valve 10 as in the section of 4 shown includes a first compartment 15 and a second compartment 16 , where the subjects 15 and 16 through a membrane 17 are separated.

A valve element 23 that a valve passage 33 open or close is with the membrane 17 connected. A feather 22 can on the valve element 23 Act.

The expansion valve 10 is directly on the heat exchanger 11 fixed so that a steam equalization channel 18 inside the heat exchanger 11 with the first subject 15 is in fluid communication.

In 1 there is a valve inlet 42 with the inlet 12 for the refrigerant fluid in communication and a valve outlet 43 stands with the outlet 13 for the superheated refrigerant vapor in connection.

To achieve fluid communication with the equalization channel is the valve 10 with a connecting tube or any similar means in a front panel 34a of the heat exchanger 11 connected.

In this embodiment, liquid refrigerant enters the valve inlet 42 A, expands in the valve and leaves the valve 10 as a fluid containing liquid and vaporized refrigerant.

The fluid then passes through the heat exchanger inlet 12 through and enters the plate pack of the heat exchanger 11 one.

The vaporized refrigerant passes through an embossed channel 19 in the front panel 34a and the heat exchanger outlet 13 through, then enters a first compartment of the valve 10 one that works as a compensation pocket, and immediately leaves the valve 10 via valve outlet 43 after passing the pressure to one side of a membrane.

In this case, the refrigerant vapor pressure controls the valve 10 although, as will be explained later, the valve 10 can be provided with a thermostatic capsule.

Additionally, the membrane and a second compartment may contain a thermostatic capsule within the valve 10 form, wherein the capsule is sensitive to the temperature of the refrigerant vapor.

Apart from the formation of a channel for vaporized refrigerant forms the embossed channel 19 also a balancing channel that connects to the first compartment of the valve 10 communicates.

In 2 a second embodiment of the invention is shown, in which for the compensation channel by means of an embossed channel 29 in a front panel 34b is provided, which allows only the passage of a sufficient amount of steam to the outlet pressure of the refrigerant vapor to a first compartment of the valve 10 pass.

In this embodiment, the refrigerant passes through the inlet 42 in the valve 10 and by inlet 12 enter the heat exchanger, then leaves the refrigerant vapor to the heat exchanger 11 through an outlet 13 for the superheated refrigerant vapor.

If in the embossed channel 29 there is no net refrigerant flow, the flow is caused only by changing pressure, and the first compartment of the valve 10 is closed in the sense that it has no exit port, like the first compartment 15 of in 4 shown valve 10 ,

In fact, a valve arrangement similar to the valve arrangement of this embodiment is shown in a cross section in FIG 4 shown in the second compartment 16 of the valve 10 in fluid communication with an optional temperature sensing capsule 25 through a connecting pipe 24 stands. The membrane 17 which is the first subject 15 from the second compartment 16 separates, is in a substantially vertical position when the valve 10 on the heat exchanger 11 is attached.

In this arrangement, the valve opens 10 when the pressure in the second compartment 16 due to an elevated temperature in the capsule 25 rises, which forces the valve element 23 the valve passage 33 opens while the valve 10 closes when the pressure in the first compartment 15 due to a through the equalization channel 18 passed increased pressure increases.

The capsule 25 For example, it may abut a pipe connected to an outlet for superheated refrigerant vapor from the heat exchanger 11 communicates.

In 3 a third embodiment of the present invention is shown, in which an embossed channel 30 in one of the internal plates 35 is pressed and a plate 34c at the front of the heat exchanger 11 is provided. The fluid flow is basically the same as in the embodiment of FIG 2 ,

In a possible embodiment of the heat exchanger of the invention, a pipe arranged between two plates may at least partially define the compensation channel 18 form as in 4 is shown.

In all the above embodiments, the valve 10 provided with O-rings and sealed and with two bolts on the heat exchanger 11 be attached.

The inlet is preferred 12 arranged for refrigerant fluid at the bottom of the heat exchanger. It is advantageous for the flow and evaporation of the refrigerant when the refrigerant flows upwards in the chambers of the heat exchanger.

Out The above description should consider the characteristics of the expansion valve assembly for one heat exchangers of the present invention, and should also yield the benefits of it.

• – Reduzierte Produktions- und Montagekosten wegen der Tatsache, dass keine Notwendigkeit für ein externes Kupferrohr zum Ausbilden des Ausgleichskanals, keine Notwendigkeit für eine spezielle Befestigungsplatte mit Gewindelöchern für das Ventil und keine Notwendigkeit für eine Reihe von hartverlöteten Verbindungen vorliegt;
• – der Wärmetauscher und das Ventil sind aneinander angepasst, was zu einem kompakten und rationellen Design führt, das auch ein zuverlässigeres Funktionieren des Ventils gestattet;
• – die Erfindung bietet die Möglichkeit, ein Ventil an dem Wärmetauscher zu befestigen, ohne dass spezielle externe Teile benötigt würden.

In particular, the main advantages of the present invention can be summarized as follows:

• Reduced production and assembly costs due to the fact that there is no need for an external copper tube to form the equalization channel, no need for a special mounting plate with threaded holes for the valve and no need for a series of brazed joints;
• - The heat exchanger and the valve are adapted to each other, resulting in a compact and rational design, which also allows a more reliable operation of the valve;
• - The invention provides the ability to attach a valve to the heat exchanger without special external parts would be needed.

It It is understood that while some preferred embodiments of the invention have been described, the expansion valve assembly described can be carried out in other specific forms without departing from the essential characteristics thereof as claimed in the appended claims is.

Claims (12)

Heat exchanger for a heat exchanger / expansion valve arrangement, wherein the heat exchanger ( 11 ) with at least one inlet ( 12 ) for refrigerant fluid and at least one outlet ( 13 ) is provided for refrigerant vapor, wherein the heat exchanger ( 11 ) with a plurality of plates ( 14 ; 34a ; 34b ; 34c ; 35 ), which are arranged side by side to define a plurality of flow-through chambers, wherein the heat exchanger ( 11 ) for mounting the expansion valve ( 10 ) directly in the area of the inlet ( 12 ), wherein a vapor equalization channel ( 18 ) between two of the plates ( 34a ; 34b ; 34c ; 35 ) is formed and from the outlet ( 13 ) to the area. of the inlet ( 12 ), wherein the compensation channel is formed in the region so as to communicate with a first compartment ( 15 ) of the expansion valve, wherein the vapor equalization channel is an embossed channel ( 19 ), which is attached to a front panel ( 34a ) and in fluid communication with the first compartment ( 15 ) of the valve ( 10 ), wherein the embossed channel ( 19 ) forms a passage for a flow of vaporized refrigerant. Heat exchanger for a heat exchanger / expansion valve arrangement, wherein the heat exchanger ( 11 ) with at least one inlet ( 12 ) for refrigerant fluid and at least one outlet ( 13 ) is provided for refrigerant vapor, wherein the heat exchanger ( 11 ) with a plurality of plates ( 14 ; 34a ; 34b ; 34c ; 35 ), which are arranged side by side to define a plurality of flow-through chambers, wherein the heat exchanger ( 11 ) for mounting the expansion valve ( 10 ) directly in the area of the inlet ( 12 ), wherein a vapor equalization channel ( 18 ) between two of the plates ( 34a ; 34b ; 34c ; 35 ) is formed and from the outlet ( 13 ) to the area of the inlet ( 12 ), wherein the compensation channel is formed in the region so as to communicate with a first compartment ( 15 ) of the expansion valve, the compensation channel being formed by an embossed channel ( 29 ) in a front panel ( 34b ) is provided, which allows only the passage of a sufficient amount of steam, the discharge pressure of the refrigerant vapor to the first compartment passes, and that the refrigerant vapor, the heat exchanger / expansion valve assembly through the outlet ( 13 ) leaves for refrigerant vapor of the heat exchanger. Heat exchanger for a heat exchanger / expansion valve arrangement, wherein the heat exchanger ( 11 ) with at least one inlet ( 12 ) for refrigerant fluid and at least one outlet ( 13 ) is provided for refrigerant vapor, wherein the heat exchanger ( 11 ) with a plurality of plates ( 14 ; 34a ; 34b ; 34c ; 35 ), which are arranged side by side to define a plurality of flow-through chambers, wherein the heat exchanger ( 11 ) for mounting the expansion valve ( 10 ) directly in the area of the inlet ( 12 ), wherein a vapor equalization channel ( 18 ) between two of the plates ( 34a ; 34b ; 34c ; 35 ) is formed and from the outlet ( 13 ) to the area of the inlet ( 12 ), wherein the compensation channel is formed in the region so as to communicate with a first compartment ( 15 ) of the expansion valve, characterized in that the compensation channel is defined by an embossed channel ( 30 ) provided in one of the inner plates ( 35 ) is trained. Heat exchanger for a heat exchanger / expansion valve arrangement, wherein the heat exchanger ( 11 ) with at least one inlet ( 12 ) for refrigerant fluid and at least one outlet ( 13 ) is provided for refrigerant vapor, wherein the heat exchanger ( 11 ) with a plurality of plates ( 14 ; 34a ; 34b ; 34c ; 35 ), which are arranged side by side to define a plurality of flow-through chambers, wherein the heat exchanger ( 11 ) to bringing the expansion valve ( 10 ) directly in the area of the inlet ( 12 ), wherein a vapor equalization channel ( 18 ) between two of the plates ( 34a ; 34b ; 34c ; 35 ) is formed and from the outlet ( 13 ) to the area of the inlet ( 12 ), wherein the compensation channel is formed in the region so as to communicate with a first compartment ( 15 ) of the expansion valve, wherein the compensation channel is at least partially formed by a tube which is arranged between two of the plates. Heat exchanger according to one of the preceding claims, characterized in that the inlet ( 12 ) at the bottom of the heat exchanger ( 11 ) is arranged. Heat exchanger / expansion valve arrangement with a heat exchanger according to claim 1 and with a valve ( 10 ) connected to the heat exchanger ( 11 ), the valve ( 10 ) a first compartment ( 15 ) which is designed in such a way that it is connected to the steam equalization channel ( 18 ), and a second compartment ( 16 ), the compartments ( 15 . 16 ) through a membrane ( 17 ) are separated, the valve ( 10 ) on the heat exchanger ( 11 ) directly in the area of the inlet ( 12 ) is attached. Heat exchanger / expansion valve arrangement with a heat exchanger according to claim 2 and with a valve ( 10 ) connected to the heat exchanger ( 11 ), the valve ( 10 ) a first compartment ( 15 ) configured to communicate with a vapor equalization channel ( 18 ), and a second compartment ( 16 ), the compartments ( 15 . 16 ) through a membrane ( 17 ) are separated, the valve ( 10 ) on the heat exchanger ( 11 ) directly in the area of the inlet ( 12 ) is attached. Heat exchanger / expansion valve arrangement with a heat exchanger according to claim 3 and with a valve ( 10 ) connected to the heat exchanger ( 11 ), the valve ( 10 ) a first compartment ( 15 ) configured to communicate with a vapor equalization channel ( 18 ), and a second compartment ( 16 ), the compartments ( 15 . 16 ) through a membrane ( 17 ) are separated, the valve ( 10 ) on the heat exchanger ( 11 ) directly in the area of the inlet ( 12 ) is attached. Heat exchanger / expansion valve arrangement with a heat exchanger according to claim 4 and with a valve ( 10 ) connected to the heat exchanger ( 11 ), the valve ( 10 ) a first compartment ( 15 ) configured to communicate with a vapor equalization channel ( 18 ), and a second compartment ( 16 ), the compartments ( 15 . 16 ) through a membrane ( 17 ) are separated, the valve ( 10 ) on the heat exchanger ( 11 ) directly in the area of the inlet ( 12 ) is attached. Heat exchanger / expansion valve arrangement according to one of the preceding claims, characterized in that the inlet ( 12 ), which in conjunction with the valve ( 10 ), at the bottom of the heat exchanger ( 11 ) is arranged. Heat exchanger / expansion valve arrangement according to one or more of claims 6 to 10, characterized in that the second compartment ( 16 ) of the valve ( 10 ) in fluid communication with a temperature sensing capsule ( 25 ) stands. Heat exchanger / expansion valve arrangement according to one or more of claims 6 to 11, characterized in that the membrane ( 17 ) of the valve ( 10 ), which is the first subject ( 15 ) from the second compartment ( 16 ) is located in a substantially vertical position when the valve ( 10 ) on the heat exchanger ( 11 ) is attached.