CN108185965B - Air duct port assembly and dish washer comprising same - Google Patents

Abstract

The invention discloses an air duct opening assembly and a dish washing machine comprising the same. The air duct port assembly can be connected with the inner cavity wall of the equipment and used for forming an air duct port communicated with the inner cavity of the equipment at the end part of the air duct, and the air duct port assembly comprises a shell structure and an end cover structure, wherein the air duct port assembly is connected to the inner cavity wall of the equipment through the cooperation of the shell structure and the end cover structure, a supporting structure is arranged on the shell structure, and when the air duct port assembly is connected to the inner cavity wall of the equipment, the supporting structure abuts against the inner cavity wall of the equipment so as to support the air duct. The air duct port assembly is fixed on the inner cavity wall of the dish washer through the connection of the end cover structure and the shell structure, and the friction force of the contact position of the shell and the inner cavity wall is improved through the arrangement of the supporting structure on the shell structure, so that the installation reliability of the air duct port assembly is improved.

Description

Air duct port assembly and dish washer comprising same

Technical Field

The invention relates to the technical field related to dish washers, in particular to an air duct opening assembly and a dish washer comprising the same.

Background

The air duct is generally arranged in the dish-washing machine and is used for supplying air or discharging air into the dish-washing machine, the air duct in the existing dish-washing machine is generally fixed on the inner cavity wall of the dish-washing machine, and the air duct is communicated with the inner container of the dish-washing machine through an air duct opening component arranged at the end part of the air duct. The air duct in a dishwasher is mostly connected to the inner chamber wall of the dishwasher by an air duct opening assembly, which is mounted to the inner chamber wall, for example by an assembly of an end cap in the air duct opening assembly with a housing. However, the whole weight of the air duct is supported by the connecting part of the end cover and the shell, the local stress is large, the connection is not reliable enough, and potential hidden trouble exists for the electric appliance with longer service time such as a dish washer.

Disclosure of Invention

Accordingly, it is an object of the present invention to provide an air duct port assembly capable of improving installation reliability and a dishwasher including the same.

In a first aspect, there is provided a duct port assembly connectable to an interior cavity wall of an apparatus for providing a duct port at an end of a duct for communicating with the interior cavity of the apparatus, comprising a housing structure and an end cap structure, the duct port assembly being adapted to be coupled to the interior cavity wall of the apparatus by engagement of the housing structure and the end cap structure,

the housing structure is provided with a support structure which abuts against the inner cavity wall of the equipment to support the air duct when the air duct opening assembly is connected to the inner cavity wall of the equipment.

Preferably, a first opening is formed in the shell structure, and the end cover structure is connected with the first opening in a rotary clamping mode so as to fix the air duct opening assembly on the inner cavity wall of the equipment.

Preferably, the support structure is formed on the same side of the housing structure as the first opening.

Preferably, the support structure is juxtaposed in a lateral direction with the first opening.

Preferably, the support structure comprises a raised structure formed on the housing structure.

Preferably, the raised structures comprise annular raised structures and/or columnar raised structures.

Preferably, the support structure further comprises a friction portion comprising a pointed structure formed on the raised structure, the pointed structure being capable of contacting the lumen wall of the device.

Preferably, the plurality of pointed structures are arranged, the plurality of pointed structures are sequentially connected to form a saw-tooth structure, and the saw-tooth structure is arranged along the circumferential direction of the protruding structure.

Preferably, the end cover structure is provided with a hand-held structure for rotary operation, the hand-held structure comprises a first stress surface and a second stress surface, the first stress surface is used for being stressed when the end cover structure is installed, the second stress surface is used for being stressed when the end cover structure is detached,

the area of the first stress surface is larger than that of the second stress surface.

Preferably, the end cap structure comprises a panel, the hand-held structure being disposed on a first face of the panel;

a first clamping structure is formed on a second surface, opposite to the first surface, of the panel, the first clamping structure comprises a plurality of first clamping blocks, and the first clamping structure and the shell structure form clamping connection; and/or the number of the groups of groups,

the first opening is provided with a second clamping structure, the second clamping structure comprises a plurality of second clamping blocks, and the second clamping structure and the end cover structure form clamping connection.

In a second aspect, there is provided a dishwasher comprising an air duct, the end of which is provided with the air duct port assembly described above.

Preferably, the dishwasher comprises a door body comprising an outer door structure and an inner door structure, the air duct is arranged between the outer door structure and the inner door structure, and the air duct port assembly is connected with the inner door structure.

Preferably, a soft material layer is arranged on one side of the inner door structure, on which the shell structure is arranged, and the soft material layer is in contact with the supporting structure.

The air duct port assembly is fixed on the inner cavity wall of the dish washer through the connection of the end cover structure and the shell structure, and the friction force of the contact position of the shell and the inner cavity wall is improved through the arrangement of the supporting structure on the shell structure, so that the installation reliability of the air duct port assembly is improved.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of embodiments of the present invention with reference to the accompanying drawings, in which:

FIGS. 1 and 2 show schematic end cover structures;

FIG. 3 shows a schematic view of a housing structure of the air duct port assembly;

FIG. 4 shows an enlarged view at A in FIG. 3;

FIG. 5 is a cross-sectional view showing a state in which the air duct port assembly is coupled to the liner.

Detailed Description

The present invention is described below based on examples, but the present invention is not limited to only these examples. It will be appreciated by those of ordinary skill in the art that the drawings provided herein are for illustrative purposes and that the drawings are not necessarily drawn to scale.

Unless the context clearly requires otherwise, throughout the description and the claims, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, it is the meaning of "including but not limited to".

In the description of the present invention, it should be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, in the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

The air duct port assembly is used for being arranged at the air inlet end or the air outlet end of the air duct in the dish washer and used as the air inlet end or the air outlet end of the air duct, and the air duct port assembly has the function of connecting the air duct with the dish washer.

In one embodiment, as shown in fig. 1 and 3, the air duct opening assembly provided by the invention comprises an end cover structure 100 and a shell structure 200, wherein the end cover structure 100 is detachably connected with the shell structure 200. Preferably, the air port assembly is also secured to the dishwasher by the connection of the end cap structure 100 and the housing structure 200.

As shown in fig. 1, the end cap structure 100 includes a panel 110, and a ventilation structure 120 is disposed on the panel 110, and the ventilation structure 120 is preferably disposed at the center of the panel 110

In place, air flow may flow into or out of the housing structure 200 through the ventilation structure 120. Preferably, the ventilation structure 120 comprises a grille structure, which ensures that air flows into or out of the housing structure 200, on the one hand, and which is capable of blocking foreign objects (such as food residues on cutlery, etc.) from entering the housing structure 200, on the other hand. Preferably, the panel 110 is a circular flat plate structure, the ventilation structure 120 is a structure protruding toward the first side of the panel 110, and further, the ventilation structure 120 is a grid structure formed on a spherical surface.

Preferably, the end cover structure 100 is connected to the housing structure 200 by means of a rotary engagement, i.e. the end cover structure 100 is engaged with the housing structure 200 by rotating the end cover structure 100. In order to facilitate the rotation operation of the end cover structure 100, a hand-held structure 130 is disposed on the first surface of the panel 110, and when the end cover structure 100 is mounted or dismounted, an operator operates the end cover structure 100 to rotate through the hand-held structure 130. Preferably, the holding structure 130 is a rib structure formed on the panel 110, and two rib structures are preferably disposed on two sides of the ventilation structure 120 along the radial direction of the panel 110. Alternatively, the bead structure may be provided with more than two to provide more positions for hand-held operation.

Further, each of the hand-held structures 130 includes a first stress surface 131 and a second stress surface 132, where the first stress surface 131 is used to apply a force when the end cover structure 100 is installed, that is, when the end cover structure 100 is installed, the force is applied by the first stress surface 131 to rotate the end cover structure 100, and when the end cover structure 100 is detached, the force is applied by the second stress surface 132 to rotate the end cover 100. The rotational direction of the end cap structure 100 is a positive rotational direction in which the first force receiving surface 131 is located on the upstream side surface of the hand-held structure 130 and the second force receiving surface 132 is located on the downstream side surface of the hand-held structure 130. Preferably, the area of the first stress surface 131 is larger than the area of the second stress surface 132, and further, the height of the surface of the first stress surface 131 along the direction perpendicular to the panel 110 is 2.5-4mm, preferably 3mm, and the height of the surface of the second stress surface 132 along the direction perpendicular to the panel 110 is 2-3mm, preferably 2.3mm. The larger area of the first stress surface 131 makes the end cover structure 100 more convenient and labor-saving in installation, and ensures the installation in place more easily, so that the end cover structure 100 can be prevented from being installed in place and affecting the use effect. The smaller area of the second stress surface 132 may enable the end cover structure 100 to apply a larger force to the second stress surface 132 when the end cover structure 100 is detached, so as to avoid loosening of the end cover structure 100 caused by misoperation.

In a preferred embodiment, the panel 110 is further provided with a drain hole 140, and water or dirt having a small volume entering between the end cover structure 100 and the housing structure 200 can flow out through the drain hole 140. The drain hole 140 is preferably disposed near the ventilation structure 120, or the drain hole 140 is an arc-shaped through hole formed along an edge of the ventilation structure 120. The drain hole 140 is located at the lower side of the ventilation structure 120 in the vertical direction when the end cap structure 100 is in an operating state after being mounted. Preferably, one drain hole 140 is provided, or when the handheld structure 130 is provided at a position where the drain hole 140 is provided, two drain holes 140 may be provided, and the two drain holes 140 are respectively located at two sides of the handheld structure 130.

As shown in fig. 2, a first engaging structure 150 is disposed on the second surface of the panel 110, and the first engaging structure 150 engages with a second engaging structure (described in detail below) on the housing structure 200. Preferably, the first clamping structure 150 includes at least two first clamping blocks 151 distributed along the circumference of one concentric circle of the panel 110, and the first clamping blocks 151 are arc structures extending along the circumference of the concentric circle. A gap is formed between a portion of the first clamping block 151 and the second surface of the panel 110, and a surface of the first clamping block 151 opposite to the second surface of the panel 110 is a first clamping surface, the first clamping surface is an inclined surface, and the inclined surface gradually reduces a distance between the first clamping block 151 and the second surface of the panel 110 in a direction opposite to the positive rotation direction (a rotation direction when the end cover structure 100 is detached). Preferably, the lengths of the at least two first clamping blocks 151 are different, so that the first clamping blocks 151 and the second clamping structure on the housing structure 200 form a foolproof structure, the foolproof structure can ensure a unique matching relationship between the first clamping structure 150 on the end cover structure 100 and the second clamping structure on the housing structure 200, and ensure reliability of clamping between the two structures, and in addition, the foolproof structure can also ensure that the position of the drain hole 140 is correct after the end cover structure 100 is installed.

Preferably, a convex ring structure 160 is formed on the second surface of the panel 110, the convex ring structure 160 is formed along the edge of the ventilation structure 120, the convex ring structure 160 has a certain length along the axial direction, and the convex ring structure 160 has a guiding effect on the air flow flowing into the ventilation structure 120. When the collar structure 160 is provided on the second face of the panel 110, the first clip 151 is connected to the collar structure 160, and the first clip 151 is preferably connected to a radially outer sidewall of the collar structure 160. Further, a notch 161 is formed on the collar structure 160, and the notch 161 is located adjacent to the drain hole 140, so that water or dirt passing through the ventilation structure 120 can flow into the drain hole 140.

As shown in fig. 3, the housing structure 200 is configured to be assembled with the end cover structure 100 to form the air duct port assembly, and the air duct port assembly can be fixed to an inner wall of the dishwasher through connection of the end cover structure 100 and the housing structure 200, and the air duct port assembly is connected to an end of an air duct to serve as an air outlet or air inlet structure of the air duct. The housing structure 200 is internally formed with a cavity, the cavity is communicated with the air duct, the housing structure 200 includes a first opening 210 and a second opening 220, the first opening is used for being assembled with the end cover structure 100, and the second opening 220 is used for being communicated with the air duct as an air inlet or an air outlet.

The first opening 210 is provided with a second clamping structure 211 which is matched with the first clamping structure 150 on the end cover structure 100, the second clamping structure 211 comprises second clamping blocks 212 which are formed by protruding towards the radial inner side of the first opening 210, the number and the positions of the second clamping blocks 212 correspond to those of the first clamping blocks 151, a second clamping surface is formed on one side, far away from the end cover structure 100, of the second clamping blocks 212 in the axial direction of the first opening 210, and is an inclined surface, the thickness of the second clamping blocks 212 in the positive rotation direction is gradually increased due to the inclined surface, the second clamping surface is matched with the first clamping surface on the first clamping blocks 151, the first clamping blocks 151 are clamped with the second clamping blocks 212, and the end cover structure 100 and the shell structure 200 are connected together. When the end cover structure 100 is installed, the distance between the first clamping block 151 and the second clamping block 212 is relatively placed into the first opening 210, and then the first clamping block rotates along the positive rotation direction, so that the inclined plane on the first clamping block 151 contacts with the inclined plane on the second clamping block 212, and the two inclined planes are gradually compressed along with rotation to realize clamping. Preferably, the distance between the second clamping blocks 212 corresponds to the length of the first clamping block 151 to form the fool-proof structure, so that the end cover structure can only be matched with the housing structure 200 in one orientation state. Further, a stopper 213 is provided on the second engagement surface of the second latch 212, preferably, the stopper 213 is provided at an end of the second latch 212, and the stopper 213 is located at an end of the end cap structure 100 at a position downstream in the rotation direction. The stopper 213 blocks the first clamping block 151, so that when the first clamping block 151 rotates to contact with the stopper 213, effective clamping between the first clamping block 151 and the second clamping block 212 is achieved, that is, the end cover structure 100 is installed in place.

As shown in fig. 5, the air duct port assembly is mounted to an inner cavity wall 300 of the dishwasher, the inner cavity wall 300 includes a back plate and side plates of an inner container of the dishwasher and an inner door structure of a door body, preferably, in this embodiment, the inner cavity wall 300 is the inner door structure of the door body of the dishwasher. The inner cavity wall 300 is provided with a mounting hole (not shown) through which the first fastening structure 150 of the end cover structure 100 can be connected to the housing structure 200. The end cover structure 100 and the housing structure 200 are respectively located at a first side and a second side of the inner cavity wall 300, the end cover structure 100 is pressed against the first side of the inner cavity wall 300 by the connection of the end cover structure 100 and the housing structure 200, the housing structure 200 is pressed against the second side of the inner cavity wall 300, so that the inner cavity wall 300 is clamped, the air duct opening assembly is mounted on the inner cavity wall 300, preferably, a soft material layer is arranged on the second side of the inner cavity wall 300 at a position contacting with the housing structure 200, the soft material layer contacts with the housing structure 200 for increasing friction force between the air duct opening assembly and the housing structure 200, the soft material layer is preferably soft material, further, the soft material layer is asphalt material and is adhered on the second side of the inner cavity wall 300. The soft material layer also has the functions of heat preservation and noise reduction. The first side of the inner chamber wall 300 is located at the inner side of the inner chamber of the dishwasher, and the second side of the inner chamber wall 300 is located at the outer side of the inner container of the dishwasher, so that the first opening 210 of the housing structure 200 is communicated with the inner container of the dishwasher.

The housing structure 200 is further provided with a supporting structure 230, and the supporting structure 230 is used for contacting with the inner cavity wall 300 of the dish washer when the housing structure 200 is installed, so that friction force between the housing 200 and the inner cavity wall 300 is increased, and an air duct connected with the housing structure 200 is supported. Preferably, the support structure 230 is an annular protrusion structure, the support structure 230 and the first opening 210 are formed on the same side of the housing structure 200, and further, the support structure 300 and the first opening 210 are juxtaposed in a lateral direction. When the air duct opening assembly is mounted on the inner cavity wall 300, the supporting structure 230 contacts with the second side surface of the inner cavity wall 300, and the supporting structure 230 makes the contact area of the housing structure 200 and the second side surface of the inner cavity wall 300 larger, and the friction force is larger, so that the housing structure 200 is not easy to slide relatively with the second side surface of the inner cavity wall 300, and the mounting stability of the air duct opening assembly is improved.

Further, as shown in fig. 3 and 4, the supporting structure 230 is provided with a friction portion 231, the friction portion 231 is preferably a protruding structure formed at a position where the supporting structure 230 contacts with the soft material layer, the protruding structure is preferably a pointed structure, when the pointed structure contacts with the soft material layer, due to a smaller contact area, the pressure of the contact point is strong, the soft material layer can be deformed greatly, so that the friction portion 231 contacts with the soft material layer more reliably, the friction portion 231 and the soft material layer are prevented from being displaced relatively, and the reliability of the installation of the air duct opening assembly is further improved. Preferably, the friction part 231 is a tooth structure formed on the support structure 230, and the tooth structure may be a plurality of tooth structures continuously provided along the entire circumference of the support structure 230, or a plurality of tooth structures provided at a distance. Alternatively, in other embodiments, the support structure 230 may be configured as a column or other type of structure, or may include a plurality of different types of structures at the same time.

The invention also provides a dishwasher, which comprises the air duct opening assembly, wherein the air duct opening assembly is preferably arranged at the inlet of the air exhaust channel, the air duct opening assembly is arranged on the inner cavity wall of the dishwasher, and preferably, the air duct opening assembly also has the function of fixing the air exhaust channel on the inner cavity wall of the dishwasher. Further, the air duct port assembly is provided on a door body of the dish washer.

The air duct port assembly is fixed on the inner cavity wall of the dish washer through the connection of the end cover structure and the shell structure, and the friction force of the contact position of the shell and the inner cavity wall is improved through the arrangement of the supporting structure on the shell structure, so that the installation reliability of the air duct port assembly is improved.

It is easy to understand by those skilled in the art that the above preferred embodiments can be freely combined and overlapped without conflict.

It will be understood that the above-described embodiments are merely illustrative and not restrictive, and that all obvious or equivalent modifications and substitutions to the details given above may be made by those skilled in the art without departing from the underlying principles of the invention, are intended to be included within the scope of the appended claims.

Claims (9)

1. An air duct port assembly capable of being connected with the inner cavity wall of equipment and used for forming an air duct port communicated with the inner cavity of the equipment at the end part of an air duct, and is characterized by comprising a shell structure and an end cover structure, wherein the air duct port assembly is connected to the inner cavity wall of the equipment through the cooperation of the shell structure and the end cover structure,

the shell structure is provided with a supporting structure, and when the air duct port assembly is connected to the inner cavity wall of the equipment, the supporting structure is propped against the inner cavity wall of the equipment to support the air duct;

the shell structure is provided with a first opening, and the end cover structure is connected with the first opening in a rotary clamping manner so as to fix the air duct opening assembly on the inner cavity wall of the equipment;

the support structure and the first opening are formed on the same side of the shell structure;

the support structure includes a raised structure formed on the housing structure;

the support structure further includes a friction portion including a pointed structure formed on the raised structure, the pointed structure being capable of contacting a lumen wall of the device.

2. The air duct port assembly according to claim 1, wherein the support structure is laterally juxtaposed with the first opening.

3. The air duct port assembly according to claim 1, wherein the raised structures comprise annular raised structures and/or cylindrical raised structures.

4. The air duct opening assembly according to claim 1, wherein a plurality of pointed structures are provided, and the plurality of pointed structures are sequentially connected to form a saw-tooth structure, and the saw-tooth structure is provided with a plurality of pointed structures along the circumferential direction of the protruding structure.

5. The air duct opening assembly according to claim 1, wherein the end cover structure is provided with a hand-held structure for rotary operation, the hand-held structure comprises a first stress surface and a second stress surface which are oppositely arranged, the first stress surface is used for being stressed when the end cover structure is installed, the second stress surface is used for being stressed when the end cover structure is detached,

the area of the first stress surface is larger than that of the second stress surface.

6. The air duct port assembly according to claim 5, wherein the end cap structure comprises a faceplate, the hand-held structure being disposed on a first side of the faceplate;

a first clamping structure is formed on a second surface, opposite to the first surface, of the panel, the first clamping structure comprises a plurality of first clamping blocks, and the first clamping structure and the shell structure form clamping connection; and/or the number of the groups of groups,

the first opening is provided with a second clamping structure, the second clamping structure comprises a plurality of second clamping blocks, and the second clamping structure and the end cover structure form clamping connection.

7. A dishwasher comprising a tunnel, characterized in that the end of the tunnel is provided with a tunnel port assembly as claimed in any one of claims 1-6.

8. The dishwasher of claim 7 comprising a door body comprising an outer door structure and an inner door structure, the air duct being disposed between the outer door structure and the inner door structure, the air duct port assembly being connected to the inner door structure.

9. The dishwasher of claim 8, wherein a side of the inner door structure on which the housing structure is disposed is provided with a layer of soft material, the layer of soft material being in contact with the support structure.