Laundry treating machine with basement portion providing airflow paths

Abstract

A laundry treating machine includes a basement portion (14) having an upper side (17) with seats (18A-18F) formed thereon for receiving machine operational devices (5), and a lower side (16), opposite to the upper side (17). The lower side (16) forms an air path for air to be admitted into or exhausted from the machine.

Claims

1. A laundry treating machine comprising a basement portion partitioned into: an upper side with seats formed thereon, upon which are seated machine operational devices including an air-air cross-flow heat exchanger and a motor operatively connected to drive an air pump, said air pump being configured to create a flow of cooling air along an air flow path, said air flow path extending on said upper side through said air-air cross-flow heat exchanger, and a lower side, opposite to and below the upper side, said lower side forming a portion of said air flow path for cooling air to be admitted into said machine, said portion extending from an air inlet opening for admitting said cooling air into said machine, underneath said motor, and to said air pump, said motor being positioned between said air inlet opening and said air pump along said portion, wherein a conveyor is provided for conveying said cooling air from said portion of the air flow path to said upper side, reversing a direction of air flow from the lower side to the upper side.

2. A laundry treating machine according to claim 1, wherein an opening is provided so as to direct a part of the cooling air flow on said lower side into the seat provided on the upper side upon which the motor is seated, for cooling said motor.

3. A laundry treating machine according to claim 1, further comprising a second air pump configured to circulate drying air through a laundry container of the laundry treating machine, said motor being operatively connected to also drive said second air pump.

4. A laundry treating machine according to claim 3, wherein a seat is provided on said upper side for seating said second air pump.

5. A laundry treating machine according to claim 1, wherein a rotational axis of a shaft of said motor extends parallel to said portion of said air flow path.

6. A laundry treating machine according to claim 1, wherein a bottom wall is associated to said lower side of said basement such that a hollow space is formed to define said portion of said air flow path.

7. A laundry treating machine according to claim 6, wherein said air inlet opening is formed at a front side of said laundry treating machine.

8. A laundry treating machine according to claim 7, wherein said air inlet opening is provided on a front wall of an outer casing of the laundry treating machine.

9. A laundry treating machine according to claim 8, wherein an air outlet opening of the air flow path is also provided on said front wall.

10. A laundry treating machine according to claim 7, wherein a second air inlet opening is provided in said bottom wall, for admitting additional cooling air into said portion of said air flow path.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and together with the description serve to explain the principles of the invention. Like reference numbers represent like features throughout the accompanying drawings, wherein:

(2) FIG. 1 shows a perspective bottom view of a laundry treating machine according to the invention with an upright side wall removed;

(3) FIG. 2 shows a perspective sectional view of a basement of the laundry treating machine illustrated in FIG. 1.

(4) FIG. 3 shows a rear sectional view of air pumping means and condensing means arranged on the laundry treating machine basement illustrated in FIG. 2.

(5) FIG. 4 shows a perspective sectional view of the laundry treating machine basement of FIG. 2 from a reverse angle view.

(6) FIG. 5 shows a perspective bottom view of the laundry treating machine basement of FIG. 2 where a bottom wall portion has been removed;

(7) FIG. 6 shows an exploded view of an attachment between an air flow conveyor and a bottom wall of the laundry treating machine basement illustrated in FIG. 2.

(8) FIG. 7 shows a partially exploded view of the laundry treating machine basement illustrated in FIG. 2.

DETAILED DESCRIPTION OF EXAMPLE EMBODIMENTS

(9) With reference to FIG. 1, a laundry treating machine according to the invention comprises a casing 1 formed by two couples of upright side walls 2 arranged perpendicularly of one another, one wall being on the treating machine rear part and another on the front part, and the two remaining walls being on the lateral sides thereof. In FIG. 1, one of the lateral side walls has been removed for showing some of the laundry treating machine operational devices 5 accommodated within casing 1. An upper wall portion 3 and a bottom wall portion 4 close the ends of the box-like structure formed by the upright side walls 2 joined together.

(10) A laundry container 6 comprising a drum (not shown) rotatably mounted in a tub 7 is provided within the casing 1. A front door 8, pivotally coupled to the front upright side wall 2, is provided for allowing access to the drum interior region to place laundry to be treated therein. An extractable moisture tank in the form of a drawer 9 is slidably arranged on the top of the casing 1, for being periodically emptied by a user in case the laundry treating machine cannot be connected to a waste water net through a pipe. A user control interface 10 is arranged on the top of the casing 1 near the drawer 9 for input of laundry treatment programs and displaying machine working conditions.

(11) On a bottom portion of the casing 1 and preferably in its front upright side wall 2 an air passage 11 is provided for draining air from/to the laundry treating machine. In the exemplary embodiment of the invention disclosed in the Figures, air passage 11 is divided into two portions 11A, 11B for allowing cooling air to enter and exit the casing 1, as indicated by arrows I and O in FIG. 1, in order to cool condensing means arranged in a drying air circuit passing through the laundry container 6 for removing moisture from said drying air. If desired, portions 11A and 11B of air passage 11 may be arranged on different upright side walls 2 other than the laundry treating machine front wall.

(12) According to an embodiment of the invention, an air passage 12 is formed as an opening 37 in the bottom wall portion 4. Such air passage 12 is always accessible to air because the bottom wall 4 extends in a position that is spaced apart and substantially parallel to a floor on which the laundry treating machine is placed. The distance between bottom wall 4 and a floor is determined in an adjustable manner through vertically adjustable supports 13 (only two of them are shown in FIG. 1) placed under the casing 1. The bottom wall portion 4 comprises a sheet that is removably mounted onto a lower side 16 of (i.e. under) a basement 14 which is preferably made of polymeric material. The lower side 16 and the bottom wall portion 4 delimit a hollow space 38 adapted to convey air inside the machine and/or to discharge air outside the machine.

(13) In particular, bottom wall 4 rests on the same level of a lower edge 39 of basement 14 that surrounds a hollow space 38 upwardly limited by surfaces placed on a higher level relative to edge 39. On an upper side 17 of the basement 14, seats 18A-18F are formed for receiving therein operational devices 5 of the laundry treating machine, like condensing means (condenser) 19, air pumping means (pump) 20, motor means (motor) for powering air pumping means 20 and other functional devices for operating laundry treating machine to carry out a drying treatment on laundry as, for example, heat pump circuit components (not shown in FIG. 1) like fluid compressing means (compressor), heat exchanging means (heat exchanger), fluid condensing and/or evaporating means (condenser and/or evaporator). In practice, basement 14 comprises a lower side 16 forming at least a portion of a first air path wherein the air is drawn in from outside the machine and/or the air is exhausted outside the machine and further comprises an upper side 17 forming at least a portion of a second air path that passes through one or more of said operational devices 5.

(14) As shown in FIG. 2, when the bottom wall portion 4 is associated under the basement 14 facing the lower side 16 of the latter, said bottom wall 4 substantially covers the hollow space 38 formed in the lower side 16 of basement 14 thereby forming an inlet conduit 15 for conveying air entering the laundry treating machine through air passages 11A, 12 as shown by arrows I and II. Such conduit 15 has a lower surface 15A defined by the bottom wall 4 and upper surfaces 15B that are defined by the basement 14 itself through the surfaces upwardly limiting the hollow space 38 formed in the basement 14 lower side 16. If desired, air passage 12 in the bottom portion 14 may be the only aperture for allowing fluid communication between the environment where the laundry treating machine is installed and an air path circulating within said machine. In particular, air passage 12 may be in fluid communication with a laundry treatment air flow path, such as the drying air passing through the drum.

(15) Conduit 15 sucks air taken from outside by pumping means 20 for cooling condensing means 19 resting within seat 18A. Pumping means 20 are powered though an electric motor (not shown) housed in the seat 18B which is formed in the upper side 17 of basement 14. Said motor powers also further pumping means (not shown) that are arranged coaxially with pumping means 20 and received within seat 18D to circulate drying air through the laundry container 6. Motor means are interposed between pumping means 20 and those for circulating drying air. Rotational axis of the electric motor shaft extends parallel to the air flow path within conduit 15.

(16) Pumping means 20, that preferably comprises a centrifugal fan, are arranged on a level of the basement 14 that extends just over conduit 15 that rests on a lower level, therefore air path along conduit 15 is reversed and lead to said level by means of a conveyor 21 arranged between the air inlet port of pumping means 20 and conduit 15. Conveyor 21 is preferably made of felt and it is designed to reduce flow resistance when the air reverses its path of about 180 degrees increasing its height relative to the floor where the laundry treating machine rests. In this way performance of the laundry treating machine is not negatively affected, while an improved compactness in distributing operational devices on the basement 14 may be achieved. More specifically, conveyor 21 may be made by conferring the desired shape to a felt sheet of appropriate thickness and density. Such a construction can be beneficial for lowering noise in a point of the air circuit where air changes direction. The use of felt sheeting can facilitate the assembly of the conveyor to the basement body because the shaped felt remains sufficiently pliable/deformable, and thus lower production costs.

(17) In FIG. 6 it is shown in detail a configuration of conveyor 21 and its attachment to the bottom wall 4. Conveyor 21 comprises an elongated cup-like body 22 having two opposite ends 23, 24 respectively adapted to be joined to a section of conduit 15 and to an air inlet port of pumping means 20. Said ends 23, 24 are linked each other by walls 25A, 25B, that cooperate with basement 14 to create a Venturi effect in the air flowing outside conduit 15 and entering pumping means 20 through conveyor 21. For this aim, the inner transverse section surface area of said conveyor 21 gradually increases from the conveyor inlet port to be associated with conduit 15 to the conveyor outlet port to be associated with pumping means 20. Therefore while passing through conveyor 21, air increases its pressure and reduces its speed. A portion 26 (see FIGS. 1 and 3) of the basement 14 forms at least a part of a volute 31 and an air inlet port for pumping means 20 and it extends between ends 23, 24 thereby defining two separate ports for admitting and draining air from conveyor 21. As can be seen in FIG. 7, volute 31 is formed by portion 26 of basement 14 and by a cover 32 which is removably attached to portion 26 through snap-fit fasteners 33 (FIG. 3) thereby closing seat 18C. Even though it is not shown in the Figures, a similar arrangement is also provided for pumping means received within seat 18D to circulate drying air through the laundry container 6.

(18) Conveyor 21 is arranged perpendicularly relative to bottom wall 4 and it is removably attached to said wall 4 by means of a spring clip 27 provided with protruding portions 27A, 27B that can be received within slots 28A, 28B formed onto the bottom wall 4 and within slots 29A formed onto a base member 30 in a position corresponding to that of slots 28A. When in locking condition, spring clip 27 extends over the base member 30 with its protruding portions 27A and under the bottom wall 4 with its protruding portion 27B. Base member 30 lies over the bottom wall 4 on the lower surface 15A of conduit 15. In order to tightly seal conveyor 21 onto the conduit 15 outlet section and the air inlet port of pumping means 20, a gasket may be over-injected on the edges of conveyor 21 that join conduit 15 and the edge of portion 26 defining the air inlet port of pumping means 20.

(19) Air sucked by pumping means 20 is output centrifugally from the latter and directed towards condensing means 19 as shown by arrows in FIG. 2. Preferably, condensing means 19 are in the form of an air-air cross-flow type heat exchanger When air passes through condensing means 19 its path lies on an upper level compared to the air flowing within conduit 15. Even the flow direction of air within conduit 15 is substantially perpendicular to that of air flowing through condensing means 19. Seat 18A, that houses condensing means 19, is shaped to diffuse air coming out from pumping means 20 to the whole surface of condensing means 19.

(20) In FIG. 3 it is shown from a rear sectional view of the basement 14 the air path flowing through condensing means 19 and then downwardly towards bottom wall 4. Air that exits condensing means 19 is guided from said upper side 17 to a lower side 16 of basement 14 by means of a conduit portion, or conveyor, 40 formed in the basement 14, for example by joining a cover to a upper side 17 of basement 14. Conveyor 40 may have the same features of conveyor 21, i.e. they may be substantially identical. Air conveyed by conduit portion 40 is also reversed in its flow direction of about 180 degrees and it is then received in an outlet conduit 34 which is formed in a manner similar to inlet conduit 15, i.e. by a lower surface 34A defined by the bottom wall 4 and an upper surface 34B that is defined by the basement 14 itself through the surface upwardly limiting a further hollow space 38 formed in the basement 14 lower side 16. Another view of the air path leaving condensing means 19 for entering outlet conduit 34 is shown in FIG. 4 where outlet conduit 34 has been partly cut away and in FIG. 5 where the bottom wall 4 has been removed. Outlet conduit 34 and inlet conduit 15 are separated and substantially tightly sealed by a partition 35 (FIGS. 3 and 5) that extends downwardly (i.e. towards bottom wall 4) from joining region between upper surface 15B of inlet conduit 15 and upper surface 34B of outlet conduit 34. Upper surfaces 15B, 34B and partition 35 are made integrally, i.e. as a unitary body, such as a single-piece construction by molding.

(21) Outlet conduit 34 leads air from condensing means 19 to exit laundry treating machine through an outlet air passage 11B as indicated by arrow O in FIGS. 1, 4 and 5. Air coming out from air passage 11B hardly affects temperature of cooling air sucked into the laundry treating machine thanks to the provision of an air passage 12 in the bottom wall 4. In fact, provision of air passage 12 as the sole or auxiliary air inlet port ensures to provide the laundry treating machine with air in the conditions as it is in the environment where said machine is placed.

(22) FIG. 7 further illustrates how the basement 14 can be assembled with conveyor 21 and further covers 32, 36 to house operational devices of laundry treating machine. Cover 36, in particular, is removably joined preferably by snap-fit means in the front upper part of the basement 14 to direct drying air flow from the condensing means 19 to the laundry container 6. Assembling operation of laundry treating machine, and, in general of its operational devices, may be greatly simplified and made more compact.

(23) Preferably, the upper surfaces 15B, 34B of the basement 14 can comprise one or more opening so as to direct a part of the air flowing along the lower side 16 of the basement 14 into at least one of the seats 18A-18F for cooling purpose, for example to cool an electric motor or heat pump circuit components.

(24) A laundry treating machine according to an aspect of the invention has an efficient arrangement for its basement portion which enhances layout of operational devices and air path formed thereon. Thanks to the inventive basement arrangement, noise produced by a laundry treating machine for moving air mass can be greatly lowered, thereby allowing the machine to be placed and operated close to rooms where, and at times (e.g., during night hours) that, low noise or silence is required.

(25) The present invention can be applied to any type of laundry treating machine, such as a condenser-type laundry dryer and open-circuit laundry dryers, or to washing machines.