RU2705159C1 - Heat exchanger - Google Patents

Abstract

FIELD: heating equipment.

SUBSTANCE: invention relates to heat exchange technology and can be used to create heat exchangers. Heat exchanger comprises housing with inlet and outlet branch pipes for inlet and outlet of hot and cold components, belt for supply of hot and cold components, connected to corresponding cavities of components by means of channels. Belts of hot and cold components supply are made in the form of several coaxially installed shell rings located in relation to each other with annular gaps and forming closed annular cavities. In the central part of the housing, between the components feeding belts, there is a belt for supply of the additional component, on one side interacting with the shell ring of the hot component supply belt, on the other side – with the shell ring of the cold component supply belt. End faces of the shell rings on the side of the inlet are provided with end profiled bottoms fixed to each other and to the housing and forming in-series end annular cavities. In the above bottoms and cavities there are isolated channels connecting said end cavities of supply of hot and cold components through one to each other, wherein said annular cavities of components are connected to corresponding cavities of supply of components through said end cavities formed by profiled bottoms.

EFFECT: present invention improves technical characteristics of the heat exchanger and broadens its functional capabilities.

1 cl, 3 dwg

Description

The invention relates to heat exchange technology and can be used to create heat exchangers.

Known heat exchanger containing a housing consisting of an outer and inner wall mounted coaxially with an annular gap and forming a cavity for the working fluid, inlet and outlet manifolds with nozzles, heat exchange elements made in the form of two-layer cylindrical shells connected to each other and the housing using pylons installed at the ends of the heat-exchange elements, while in the pylons channels are made for the supply and removal of the working fluid (RF patent No. 2569990, Application No.: 2014149786/06 dated 12/09/2014, IPC: F28D 7/10 - prot P).

The proposed heat exchanger operates as follows. Heat carrier is supplied to the internal cavity of the heat exchanger. The coolant is evenly distributed in the cavity of the heat exchanger and moves in the annular gaps located between the heat exchange elements and the inner wall of the housing. The working fluid through the inlet pipe enters the inlet manifold and then into the annular gap located between the outer wall and the inner wall of the housing. In the annular gap, the working fluid is divided into two streams. The first flow of the working fluid passes in an annular gap between the outer wall and the inner wall of the housing, heats up and is diverted to the outlet manifold. The second flow of the working fluid flows through the pylons into the annular gaps located between the walls of the heat exchange elements. Passing through the annular gaps, the working fluid is heated, after which the flow of the pylons enters the outlet manifold. In the discharge manifold, two flows of the working fluid are mixed together. The working fluid exits the outlet manifold through the outlet pipe.

The main disadvantages are the design complexity, significant overall dimensions caused by significant structural gaps between the ring heat exchange elements, uneven heating of the shells caused by the sequence of passage of the coolant from the peripheral shell to the central one, the inability to obtain an additional coolant flow with an intermediate temperature between cold and hot coolants, which, in ultimately, reduces the efficiency of the heat exchanger.

The objective of the invention is to remedy these disadvantages, improve technical characteristics and expand the functionality of the heat exchanger.

The solution to this problem is achieved by the fact that the proposed heat exchanger, according to the invention, comprises a housing with inlet and outlet nozzles for the input and output of hot and cold components, a supply belt of hot and cold components connected to the respective cavities of the components using channels, and the supply belt of hot and cold the components are made in the form of several coaxially mounted shells located relative to each other with annular gaps and forming closed annular cavities, At the same time, in the central part of the case, between the component supply belts, an additional component supply belt is installed, which, on the one hand, interacts with the side of the hot component supply belt, and on the other hand with the side of the cold component supply belt, while the end profiles are installed on the ends of the shells bottoms, bonded to each other and to the body, and forming successively located end annular cavities, moreover, in the indicated bottoms and cavities, isolated channels are made, connected the said end cavities for supplying hot and cold components through one with each other, moreover, the angular position of the channels in the end profiled bottoms of the inlet part of the heat exchanger is different from the location of similar channels in the end profiled bottoms of the outlet part of the heat exchanger, while these annular cavities of the components are connected to the corresponding supply cavities of the components through said end cavities formed by profiled bottoms.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of a heat exchanger, a longitudinal section, in FIG. 2 - enlarged scale of the heat exchanger inlet, FIG. 3 - output of the heat exchanger on an enlarged scale.

The heat exchanger comprises a housing 1 with input 2, 3 and output 4, 5 nozzles for the input and output of hot and cold components, respectively. The heat exchange elements 6 are made in the form of several coaxially mounted shells 7 located relative to each other with annular gaps 8 forming annular cavities 9 and 10 of the hot and cold components, respectively. The annular cavity of the hot 9 and cold 10 components evenly alternate with each other. At the ends of the shells 7 there are installed end profiled bottoms 11, fastened together and with the housing 1, and forming successively located end annular cavities 12 and 13. In said bottoms 11, isolated channels 14 and 15 are made, connecting the said end cavities through one another. The annular cavities 9 and 10 of the heat exchange elements are connected to the cavities of the inlet 1, 3 and outlet 4, 5 of the hot and cold flow pipes, respectively, through the said end cavities 12 and 13 formed by profiled bottoms 11. In the central part of the housing 1, between the hot and cold supply belts components, a belt 16 for supplying an additional component is installed, on the one hand interacting with the shell 7 of the belt 9 for feeding the hot component, on the other hand with the shell 7 of the belt 10 for feeding the cold component,

The proposed heat exchanger operates as follows.

The hot component is fed into the housing 1 of the heat exchanger through the input pipe 2 of the hot component and through the end cavities 12 and channels 14 enters the annular cavity 9 of the hot component. The component’s hot stream passes through the annular cavities 9 and gives off heat to the walls of the heat exchange elements 6, made in the form of several coaxially mounted shells 7. At the outlet of the heat exchanger, the hot stream is collected in similar end cavities 12 and through the similar channels 14 enters the outlet pipe 4 of the hot flow.

The cold component is fed into the housing 1 of the heat exchanger through the inlet 3 of the cold component of the flow and through the end cavities 13 and channels 15 enters the annular cavity 10 of the cold component. The cold flow of the component passes through the annular cavities 10 and, due to heat transfer, removes heat from the walls of the heat exchanger elements 6, made in the form of several coaxially mounted shells 7. At the exit of the heat exchanger, the cold flow is collected in similar end cavities 13 and enters through similar channels 15 in the outlet pipe 5 of the output of the cold component.

The additional component is fed into the belt 16 for supplying an additional component, on the one hand interacting with the ring 7 of the belt 9 for supplying a hot component, on the other hand with the ring 7 of the belt 10 for feeding a cold component. Passing through the specified belt, the additional component acquires the set temperature above the temperature of the cold coolant flow, but below the temperature of the hot coolant flow. Thus, at the outlet of the heat exchanger, two flows with different temperatures are obtained.

Using the proposed technical solution will improve the technical characteristics and expand the functionality of the heat exchanger.

Claims (1)

A heat exchanger characterized in that it comprises a housing with inlet and outlet nozzles for the input and output of hot and cold components, a supply belt of hot and cold components connected to the respective component cavities by means of channels, and the supply belt of hot and cold components is made in the form of several coaxially installed shells located in relation to each other with annular gaps and forming closed annular cavities, while in the Central part of the housing, between the feed belts and components, an additional component supply belt is installed, on the one hand interacting with the side of the hot component supply belt, on the other hand, with the side of the cold component supply belt, and at the ends of the shells on the input side, end profiled bottoms are mounted, bonded to each other and to the body and forming sequentially located end annular cavities, and in said bottoms and cavities, isolated channels are made connecting the said end cavities for supplying hot and cold one component through one another, and the angular position of the channels in the end profiled bottoms of the inlet part of the heat exchanger is different from the location of similar channels in the end profiled bottoms of the output part of the heat exchanger, while these annular cavities of the components are connected to the corresponding cavities for supplying components through the said end cavities formed by the profiled bottoms.

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