DE202009005138U1 - Plate heat exchanger - Google Patents

Abstract

Plate heat exchanger with
A stack of heat transfer plates with which passages for heat exchange fluids are formed,
A boundary plate (1) which bounds the stack of heat transfer plates on one side,
- A measuring space, which is closed against the at least two heat exchange fluids, and
A measurement medium (10) arranged in the measurement space, which is influenced by the temperature of at least one of the heat exchange fluids,
wherein the measuring space between an outer, the limiting plate (1) associated heat transfer plate of the stack and the limiting plate (1) is formed and the limiting plate (1) having an associated with the measuring space in the opening (3), via which the measuring space with the measuring medium (10) can be coupled to a sensor device, are detected with the physical changes in the measuring space.

Description

The The invention relates to a plate heat exchanger comprising a sensor device and a plate stack of heat transfer plates known Design, wherein a sensor device is given to a measuring room and in this measuring room a measuring medium is present, which depends on the temperature at least one of the fluids is affected and with a control and / or regulating device is connected, wherein the measuring space for Part of at least one of the heat exchange fluids is defined. This is an optimal control of the plate heat exchanger realized.

According to the Prior art are various technological and technical solutions given which a drinking water heating over a heat exchanger by means of the control of the flow temperature To run. It is always essentially the disadvantage given that this is a thermal solution that is outside the plate heat exchanger takes place, represents and thus a corresponding large inertia of the Circulation is present. For example, they are proportional controllers known, which have a membrane, these with the cold water is applied, and a corresponding existing ram an opening or closing a valve area executes. Here is the high economic mechanical effort, not the direct influence of temperature, but only a ratio of cold water to the heating medium as well as no holding function as disadvantages. Just These disadvantages of the given state of the art set the goal the inventive solution that it is here to a technical execution should come, which with low technical effort the main disadvantage of the prior art eliminated.

Furthermore, it is a technical solution DE 102 59 462 A1 "Prefabricated heat transfer means" known, where in particular on a heat exchanger two corresponding chambers are arranged, which are incorporated in these chambers existing temperature sensor, which are useful for controlling and controlling the heat exchanger and a return or flow. Disadvantage of this invention is the high cost of the arrangement of the additional chambers. In addition, this is disadvantageous in that sensors are arranged in the chambers, which again cause a physical inertia.

The EP-B-608 195 discloses a plate heat exchanger with a sensor device comprising a temperature sensor with an elongate shape. The temperature sensor extends in one of the through-hole channels of the plate heat exchanger, which communicates with some of the heat transfer passages of the plate stack. The temperature sensor is connected via a so-called capillary tube, which has a valve for controlling a flow z. B. has district heating water through the plate heat exchanger.

The WO 97/00415 discloses a plate heat exchanger used as an oil cooler. The plate heat exchanger comprises a valve which is controlled by a sensor of a different type, namely a temperature-sensitive spring, which is fixed in a housing to a through-hole channel of the plate heat exchanger. The valve opens and closes a secondary channel in the plate heat exchanger.

The DK-U-9600205 discloses a plate heat exchanger provided with a space located on the outside of the plate heat exchanger and extending on an outer surface of the plate heat exchanger. In the room an elongated temperature sensor is provided. The space is connected to passages for one of the fluids in the plate heat exchanger. The space is provided near an inlet or outlet port of the plate heat exchanger. The temperature sensor is arranged to cooperate with the equipment to control a flow of one of the fluids through the plate heat exchanger.

each These documents therefore suggest a separate sensor outside the plate heat exchanger or in any the through-hole channels of the plate heat exchanger provided. The provision of such a separate sensor is under difficult to manufacture. Continue leads a sensor in any of the through-hole channels to one increased flow resistance, not only because of the sensor itself, but also because of the components, needed for mounting the sensor in the through-hole channel become. The known arrangements also have the other Disadvantage that the time constant is long, that is, it passes a relatively long time before a temperature change one or both fluids to a sufficient effect on this Medium and thus z. B. to a desired change the valve position leads.

Furthermore, one is known EP 1 362 214 , wherein a plate heat exchanger is designed, which has a closed space for a measuring medium. The disadvantage of this technical solution is that in addition to the existing heat transfer plates an extra space closed plate for the containment of the medium must be integrated, which represents a considerable technical effort.

The object of the invention is a plate to find heat exchanger, which eliminates the disadvantages of the prior art and makes no additional closed measuring space for a measuring medium as an addition to the plate heat exchanger necessary.

According to the invention the task solved by a plate heat exchanger according to the main claim 1 and its subclaims is performed.

there is given a plate heat exchanger of known type, being a stack of heat transfer plates with the passages for the heat exchange fluid is trained. The heat transfer plates of the plate heat exchanger are by limiting plates closed.

In the plate heat exchanger with a stack of heat transfer plates and on one side connected boundary plate is a measuring space between an outer, the boundary plate associated heat transfer plate of the stack, wherein the restriction plate has an opening communicating with the measurement space has, over which the measuring space with the measuring medium a sensor device can be coupled with the physical changes be detected in the measuring room.

there In particular, measuring media are used which respond to a temperature change react a heat exchange fluid and thus a corresponding Forward control signal to a sensor device. This is in particular thought that measuring media are included, which is a corresponding pressure change due to temperature change cause and thus act on the connected sensor device.

Of the Measuring space between the outer boundary plate and the associated heat transfer plate of Stack is at least partially by means of the outer Heat transfer plate and the boundary plate Are defined. An opening, which in conjunction with the measuring room exists, is designed as a flow opening, through which pass the measuring medium to the sensor device Furthermore, the measuring chamber is in connection with the opening coupled with a capillary channel. The opening is defined that a recess widening the measuring space in the boundary plate is formed, which at least partially filled with the measuring medium is.

Essential is doing that the size of the widening recess The opening is crucial to making the best possible Temperature influence of the heat exchanger fluid on the measuring medium, which in the opening in the form of the widening recess is guaranteed. There are several expanding recesses conceivable, which have all existing surface shapes can.

The opening as a recess widening the measuring space is necessary to order an optimal transition of the temperature detection of the heat exchanger fluid over the measuring medium towards the sensor device via the capillary channel to realize. The opening is advantageously between the Connections for the heat exchange fluids arranged in the boundary plate.

Of Further, the opening should be in communication with the measuring room in its surface form a larger one Have longitudinal extent as a transverse extent. That's it advantageous to carry out the opening in the form of a slot. Thus, a major focus is realized in that the widening recess of the opening in conjunction with the measuring room a greater longitudinal extent has a transverse extent.

The opening in the form of a slot is at least over a third the length of the boundary plate extends. The slot as the shape of the widening recess of the opening is so running that in the direction of the boundary plate between the slot and the plate channels a sharpener Angle is formed.

It is further conceivable that the opening in the form of a slot or another areal expanding Recess at any point of the boundary plate available is.

Of Furthermore, the invention is designed so that the opening on the outer heat transfer plate formed by surface structuring plate channels is arranged opposite, wherein the arrangement of the opening is designed so that it is opposite to the plate channel area in which the plate channels converge. It is important that the opening at least partially extends substantially transverse to the plate channels.

Of the Connection of the capillary channel with a respective access to the opening the measuring room should be designed so that this is aligned opposite in the disk channel area. To the opening is one on the boundary plate outside Assigned arranged cover plate. The cover plate serves that they the opening as a widening recess of the measuring space between the restriction plate and the associated heat transfer plate completes the access for the capillary channel ensured to the sensor device.

Based an embodiment and the general explanations a plate heat exchanger will be described.

there demonstrate:

1 limiting plate

2 Boundary plate with cutout

3 Side view plate heat exchanger.

From the 1 and 2 is a boundary plate 1 a given plate heat exchanger 9 provided with an integrated plate stack of heat transfer plates of known design.

Here are the heat transfer plates with corresponding plate channels 4 designed so that these plate channels 4 are arranged in waveform and additionally a tip plate channels 11 exhibit. These individual heat transfer plates are arranged one above the other as a stack of plates.

The plate heat exchanger 9 is with a top and bottom running boundary plate 1 kontruiert. Here are the boundary plates 1 each soldered to the heat transfer plate made above and below. Thus, a direct connection of the boundary plate 1 with the respective heat transfer plate available. In the heat transfer plates, the corresponding heat exchange fluids are given as exchange medium.

The plate heat exchanger 9 , as described on the side, according to the invention was changed so that a measuring space between the outer boundary plate 1 and the associated heat transfer plate of the stack is present and the boundary plate 1 an opening communicating with the measuring space 3 having. This opening 3 as a recess widening the measuring space in the boundary plate 1 is as a slot 12 realized.

In the measuring room and the widening recess opening 3 is a measuring medium 10 coupled to a sensor device, whereby the physical changes are detected in the measuring space.

It is essential that the measuring space at least partially by means of the outer heat transfer plate and the boundary plate 1 is defined. The measuring room and the associated opening defined from it 3 in the form of a slot 12 is about an access 6 with a capillary channel 5 connected. The opening 3 of the measuring chamber is designed as a flow opening, whereby the measuring medium 10 can get to the sensor device.

In the corresponding embodiment according to the 1 to 3 is the opening 3 as a recess widening the measuring space in the boundary plate 1 designed so that it at least partially with the measuring medium 10 is filled. Here is the opening 3 as a slot 12 executed. The slot 12 is given so that it has a greater longitudinal extent than transverse extent.

The embodiment now shows a slot 12 between the connections 2 and 2 ' , which is arranged centrally. The length of the slot 12 is designed so that it covers about one third of the total length of the plate heat exchanger 9 includes. In other possible applications, the arrangement of the slot 12 also over the entire length or at other places in the middle or on the other side of the boundary plate 1 conceivable. Advantageously, the slot 12 at the exit of the plate heat exchanger 9 arranged from a metrological point of view. The slot 12 in the boundary plate 1 also has an access 6 for connecting a capillary channel 5 on.

Because the plate channels 4 the heat transfer plate have a waveform that only with the upper shaft of the plate channel 4 with the boundary plate 1 are soldered over the slot 12 in the plane of the slot 12 the opening 3 a cavity and a connection to the underlying plate channels 4 the heat transfer plate based on the cavity of the slot 12 and the waveform of the plate channel 4 , In this given cavity becomes a measuring medium 10 entered in the form of a capillary. The measuring medium 10 can also be acted upon with other temperature-dependent media. Due to the direct contact of the measuring medium 10 in the cavity between the plate channels 4 the heat transfer plate and the slot 12 is about access 6 and following a capillary channel 5 a direct departure with change of the measuring medium 10 given.

Here is the opening 3 as a slot 12 disposed on the outer heat transfer plate formed by surface structuring plate channels opposite, in which the plate channels 4 converge. With a view of the boundary plate 1 between the slot 12 and the plate channels 4 creates an acute angle. The slot 12 the boundary plate 1 is closed on the surface.

According to the 2 and 3 becomes a separate cover plate 7 executed. This cover plate 7 is about the size of the slot 12 Air and liquid tight on the boundary plate 1 to the closure of the slot 12 applied.

Access 6 for the capillary channel 5 is through the cover plate 7 executed, thus the flow opening for the measuring medium 10 to ensure from the measuring room to the sensor device.

From the 3 out is this arrangement of the cover plate 7 to the effect that the slot 12 in the boundary plate 1 with the included measuring medium 10 in the cavity between the plate channels 4 and the slot 12 is executed. Here is the cover plate 7 longer in size than the existing slot 12 in the boundary plate 1 ,

Based on this inventive arrangement of the described embodiment of the 1 . 2 and 3 the advantage of the inventive solution is given by the fact that no separate measuring space as installation or cultivation for the admission of a medium to be measured 10 is needed. This eliminates a major drawback of the prior art.

Essential to the invention is in the technical solution that a given plate heat exchanger 9 known design is changed so that, in its construction, a measuring space in conjunction with an opening 3 in the form of a slot 12 in the existing boundary plate 1 is created, wherein a measuring medium 10 is integrated. About the access 6 and the capillary channel 5 can now control and regulation facilities for the further use of the plate heat exchanger 9 be connected. As already described, therefore, no additional space in the form of a plate or plate mounting as a measuring space for the measuring medium 10 be integrated, which is a high technical effort and represents the disadvantage of the known technical solution.

From a metrological point of view, a further advantage is given to the fact that a direct contact of the medium to be measured 10 into the measuring room in connection with the opening 3 over the heat transfer plate of the plate heat exchanger 9 is given with included heat exchange fluid. From this direct contact of the heat transfer plate of the plate heat exchanger 9 and the measuring room in connection with the opening 3 and included measuring medium 10 Exact control and control results are possible.

1

limiting plate

2

connection

2 '

connection

3

opening

4

disk channel

5

capillary

6

Access

7

cover

9

Plate heat exchanger

10

measuring medium

11

top disk channel

12

slot

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10259462 A1 [0003]
• - EP 608195 B [0004]
• WO 97/00415 [0005]
• - DK 9600205 U [0006]
• - EP 1362214 [0008]

Claims (14)

Plate heat exchanger with - a stack of heat transfer plates, with which passages for heat exchange fluids are formed, - a boundary plate ( 1 ), which limits the stack of heat transfer plates on one side, - a measuring space which is closed off against the at least two heat exchanger fluids, and - a measuring medium arranged in the measuring space ( 10 ), which is influenced by the temperature of at least one of the heat exchanger fluids, wherein the measuring space between an outer, the boundary plate ( 1 ) associated heat transfer plate of the stack and the boundary plate ( 1 ) is formed and the boundary plate ( 1 ) an opening in communication with the measuring space ( 3 ), via which the measuring space with the measuring medium ( 10 ) can be coupled to a sensor device, are detected with the physical changes in the measuring space. Plate heat exchanger according to claim 1, characterized in that the measuring space at least partially by means of the outer heat transfer plate and the boundary plate ( 1 ) is defined. Plate heat exchanger according to claims 1 or 2, characterized in that the opening ( 3 ) is designed as a flow opening, through which the measuring medium ( 10 ) can get to the sensor device. Plate heat exchanger according to claim 3, characterized in that the opening ( 3 ) with a capillary channel ( 5 ). Plate heat exchanger according to at least one of the preceding claims, characterized in that through the opening ( 3 ) as a recess widening the measuring space in the boundary plate ( 1 ) is formed, which at least partially with the measuring medium ( 10 ) is filled. Plate heat exchanger according to at least one of the preceding claims, characterized in that the opening ( 3 ) between terminals ( 2 . 2 ' ) for the heat exchange fluids in the boundary plate ( 1 ) is arranged. Plate heat exchanger according to at least one of the preceding claims, characterized in that the opening ( 3 ) with a slot ( 12 ) is formed. Plate heat exchanger according to claim 7, characterized in that the slot ( 12 ) over at least about one third of the length of the boundary plate ( 1 ). Plate heat exchanger according to at least one of the preceding claims, characterized in that the opening ( 3 ) on the outer heat transfer plate formed by surface structuring plate channels ( 4 ) is arranged opposite. Plate heat exchanger according to claim 9, characterized in that the opening ( 3 ) is disposed opposite to a plate channel region in which plate channels ( 4 ) converge. Plate heat exchanger according to claim 10, as far as dependent on claim 3, characterized in that an access for the capillary channel ( 5 ) is formed opposite the disk channel area. Plate heat exchanger according to at least one of claims 9 to 11, characterized in that the opening ( 3 ) at least in sections substantially transversely to the plate channels ( 4 ). Plate heat exchanger according to at least one of claims 9 to 12, as far as dependent on claim 7 or 8, characterized in that in the direction of the boundary plate ( 1 ) between the slot ( 12 ) and the plate channels ( 4 ) an acute angle is formed. Plate heat exchanger according to at least one of the preceding claims, characterized in that the opening ( 3 ) one on the boundary plate ( 1 ) outside cover plate ( 7 ) assigned.