Forced convection heat exchanger for a refrigeration appliance

Abstract

The present invention relates to a refrigeration appliance having a compressor for effecting the refrigeration cycle, a heat exchanger (1) for condensing the refrigerant fluid through refrigerant flow tubes (2) in serpentine form where the refrigerant flow is provided, said heat exchanger (1) being disposed against a fan (3) that is structurally integrally provided to effect forced heat convection for cooling said heat exchanger (1) by blowing air thereon.

Claims

1. A heat exchanger (1) for a refrigeration appliance and condensing a refrigerant fluid through refrigerant flow tube (2) in mini-channel structure and in serpentine form where the refrigerant flow is provided, said heat exchanger (1) being disposed against a fan (3) structurally integrally provided to effect forced heat convection for cooling said refrigerant flow tube (2) by blowing air thereon, characterized in thattwo upright elements (4) are vertically oriented and are provided to carry and support said refrigerant flow tubes (2) such that linear arms of the refrigerant flow tube thereof are fitted into parallel mounting slits (7) along a length of each upright element (4), each mounting slit comprising an open end that faces horizontally outward and is configured to receive a portion of the linear arm of the refrigerant flow tube (2), and a closed end, accordion-like fins (8) in compressed form are provided to fit into rectangular openings delimited by two opposite upright elements (4) at both sides and by two arms of the serpentine-form refrigerant flow tubes (2) from above and below in contact therewith, a locking device (9) secured to upper parts of the two vertically oriented upright elements (4) so as to keep the distance thereinbetween constant and avoid the same moving away from each other, and further comprising a plurality of fixing clips (10) that are provided to keep the accordion-like fins (8) fixed in the rectangular openings by way of clipping an outermost folded sheet part of an accordion-like fin (8) and a neighboring upright element (4) together such that each accordion-like fin (8) is fixedly attached to the two upright elements (4) at both lateral sides at a first face of the heat exchanger (1).

2. A heat exchanger (1) as in claim 1, characterized in that said accordion-like fins (8) are substantially thin plate-like metal sheet parts shaped to extend longitudinally in zigzag form to exhibit a spring-like accordion structure.

3. A heat exchanger (1) as in claim 1, characterized in that said linear arms of the refrigerant flow tubes (2) are maintained in an orientation parallel to the ground and perpendicular to the longitudinal axes of said upright elements (4).

4. A heat exchanger (1) as in claim 1, characterized in that said serpentine-form refrigerant flow tubes (2) are structured to incorporate four parallel arms in a manner equally-spaced such that the first pair of parallel arms and the last pair of parallel arms are connected in themselves by U-turns provided at a first side and the second and the third arms being connected by a U-turn juncture at the other side.

5. A heat exchanger (1) as in claim 1, characterized in that said upright elements' (4) base portions (5) are provided with base fixation recesses (6) interengageable with extensions provided on an interior base portion of a refrigeration appliance such that the upright elements (4) can be securely held in position and fixedly attached to a refrigeration appliance's interior base.

6. A heat exchanger (1) as in claim 1, characterized in that three separate rectangular openings are formed by four linear arms of the serpentine-form mini-channel structure refrigerant flow tubes (2) and three accordion-like fins (8) are secured into said rectangular openings.

7. A heat exchanger (1) as in claim 6, characterized in that the other face of the heat exchanger (1) receives a fan housing (11) functional in guiding airflow generated by said fan (3) to the serpentine-form fluidic refrigerant flow tubes (2), said fan housing (11) being formed to incorporate integral fixing clips (10) having the function of joining two ends of an accordion-like fin (8) to the two lateral upright elements (4).

8. A heat exchanger (1) as in claim 2, characterized in that said linear arms of the refrigerant flow tubes (2) are maintained in an orientation parallel to the ground and perpendicular to the longitudinal axes of said upright elements (4).

9. A heat exchanger (1) as in claim 8, characterized in that said serpentine-form refrigerant flow tubes (2) are structured to incorporate four parallel arms in a manner equally-spaced such that the first pair of parallel arms and the last pair of parallel arms are connected in themselves by U-turns provided at a first side and the second and the third arms being connected by a U-turn juncture at the other side.

10. A heat exchanger (1) as in claim 9, characterized in that said upright elements' (4) base portions (5) are provided with base fixation recesses (6) interengageable with extensions provided on an interior base portion of a refrigeration appliance such that the upright elements (4) can be securely held in position and fixedly attached to a refrigeration appliance's interior base.

11. A heat exchanger (1) as in claim 10, characterized in that three separate rectangular openings are formed by four linear arms of the serpentine-form mini-channel structure refrigerant flow tubes (2) and three accordion-like fins (8) are secured into said rectangular openings.

12. A heat exchanger (1) as in claim 10, characterized in that the other face of the heat exchanger (1) receives a fan housing (11) functional in guiding airflow generated by said fan (3) to the serpentine-form fluidic refrigerant flow tubes (2), said fan housing (11) being formed to incorporate integral fixing clips (10) having the function of joining two ends of an accordion-like fin (8) to the two lateral upright elements (4).

Description

(1) The drawings are not meant to delimit the scope of protection as identified in the claims nor should they be referred to alone in an effort to interpret the scope identified in said claims without recourse to the technical disclosure in the description of the present invention.

(2) FIG. 1 demonstrates a general perspective view of serpentine-form mini-channel structure refrigerant flow tubes according to the present invention.

(3) FIG. 2 demonstrates a general perspective view of an upright element for carrying and supporting the serpentine-form fluidic channels according to the present invention.

(4) FIG. 3 demonstrates a general perspective view of serpentine-form mini-channel structure refrigerant flow tubes as carried by two upright elements according to the present invention.

(5) FIG. 4 demonstrates a general perspective view of the accordion-like fins according to the present invention.

(6) FIG. 5 demonstrates a general view of a heat exchanger, wherein the accordion-like fin compressed to fit into a rectangular opening delimited by two opposite upright elements at both sides and by two sections of the serpentine-form refrigerant flow tubes from above and below according to the present invention.

(7) FIG. 6 demonstrates the heat exchanger of FIG. 5 with an upper fixation means according to the present invention.

(8) FIG. 7 demonstrates the heat exchanger of FIG. 6 before assembling the fan housing according to the present invention.

(9) FIG. 8 demonstrates a front view of the assembled heat exchanger according to the present invention.

(10) The following numerals are used in the detailed description: 1. Heat exchanger 2. Refrigerant flow tube 3. Fan 4. Upright element 5. Base portion 6. Base fixation recess 7. Mounting slit 8. Accordion-like fin 9. Locking means 10. Fixing clip 11. Fan housing

(11) The present invention proposes a heat exchanger (1), for instance for a household cooling appliance such as a refrigerator, said heat exchanger (1) having a refrigerant flow tube (2) in mini-channel structure and in serpentine form. These refrigerant flow tube (2) typically serve to the purpose of circulating the refrigerant fluid pressurized by a compressor such that thermal energy is dissipated by the heat exchanger, i.e. the condenser of the household appliance. Additionally, a fan (3) is structurally integrally provided to effect forced heat convection.

(12) The present invention therefore proposes a heat exchanger (1) for condensing a refrigerant fluid through refrigerant flow tube (2) in serpentine form where the refrigerant flow is provided, said heat exchanger (1) being disposed against a fan (3) that is structurally integrally provided to effect forced heat convection for cooling said refrigerant flow tube (2) of the heat exchanger (1) by blowing air thereon.

(13) According to the present invention, the heat exchanger (1) comprises two upright elements (4) provided to carry and support said refrigerant flow tube (2) such that the linear arms thereof are fitted into mounting slits (7) on each upright element (4). In this way, the linear arms of the refrigerant flow tube (2) are maintained in an orientation parallel to the ground and perpendicular to the longitudinal axes of said upright elements (4).

(14) FIG. 3 demonstrates a general perspective view of serpentine-form mini-channel structure refrigerant flow tube (2) as carried by two upright elements (4) according to the present invention. An accordion-like fin (8) is compressed to fit into a rectangular opening delimited by two opposite upright elements (4) at both sides and by two arms of the serpentine-form refrigerant flow tube (2) from above and below to be in contact therewith. Flexure forces on the lateral inner surfaces of the upright elements (4) exerted by said accordion-like fins (8) are structurally balanced by a locking means (9) secured to the upper parts of the two upright elements (4).

(15) According to an embodiment of the present invention, the serpentine-form refrigerant flow tube (2) is structured to incorporate four parallel arms in a manner equally-spaced one above the other such that the uppermost two and the lowermost two are connected in themselves by U-turns provided at a first side and the second and the third arms being connected by a U-turn juncture at the other side.

(16) In an embodiment of the invention, three separate rectangular opening are accordingly formed by four linear arms of the serpentine-form mini-channel structure refrigerant flow tube (2) and three accordion-like fins (8) are therefore secured into these openings.

(17) In an embodiment of the present invention, said upright elements' (4) base portions (5) are provided with base fixation recesses (6) suitable for interengaging with extensions provided on the interior base of the refrigeration cabin of the refrigeration appliance. Said upright elements (4) are therefore securely held in position and fixedly attached to the cabin base.

(18) According to another embodiment of the invention, the accordion-like fins (8) are thin plate-like metal sheet parts shaped to extend longitudinally in zigzag form to obtain a spring-like accordion structure. To this end, an accordion-like fin (8) compressed to fit into a rectangular opening exerts lateral forces to the upright elements (4) at both sides of the heat exchanger (1) structure. The compressed structure is advantageous in that an increased number of individual, folded sheet parts are present in an accordion-like fin (8), therefore enhancing thermal exchange capacity.

(19) According to the present invention, thermal exchange capacity being enhanced by the compressed form of the accordion-like fin (8) so as to apply flexure forces on the lateral inner surfaces of the upright elements (4) is structurally balanced by the locking means (9) secured to the upper parts of the two upright elements (4) so as to keep the distance thereinbetween constant and avoid the same moving away from each other.

(20) In another embodiment of the present invention, a plurality of fixing clips (10) are provided to keep the accordion-like fins (8) fixed in the rectangular openings by way of clipping an outermost sheet part of an accordion-like fin (8) and a neighboring upright element (4) together. In this way, each accordion-like fin (8) is fixedly attached to the two upright elements (4) at both lateral sides at a first face of the heat exchanger (1).

(21) In a further embodiment of the present invention, the other face of the heat exchanger (1) receives a fan housing (11), the latter functional in guiding airflow generated by the fan (3) to the serpentine-form fluidic channels and surrounding parts such that the air blown by the fan (3) in the axial direction acts thereon.

(22) In a still further embodiment of the present invention, the fan housing (11) of the invention is formed to incorporate integral clipping means or fixing clips (10) having the same function as the individual fixing clips (10) joining a respective accordion-like fin (8) to the two lateral upright elements (4). Said accordion-like fins (8) may also be formed of leaves alternately hinged at opposite margins.

(23) The compressed structure of the accordion-like fins (8) is advantageous in that an increased number of individual, folded sheet parts are present in an accordion-like fin (8), therefore enhancing thermal exchange capacity. Flexure forces on the lateral inner surfaces of the upright elements (4) is structurally balanced by the locking means (9) secured to the upper parts of the two upright elements (4). Therefore, a heat exchanger assembled without thermal treatment and having an enhanced heat exchange capacity due to its mechanical components while at the same time withstanding any internal and external forces so as to maintain its structural integrity is provided.