CN111719292B

CN111719292B - Door body structure and washing machine

Info

Publication number: CN111719292B
Application number: CN201910221177.7A
Authority: CN
Inventors: 赵志强; 许升; 吕佩师
Original assignee: Qingdao Haier Washing Machine Co Ltd; Haier Smart Home Co Ltd
Current assignee: Qingdao Haier Washing Machine Co Ltd; Haier Smart Home Co Ltd
Priority date: 2019-03-22
Filing date: 2019-03-22
Publication date: 2022-09-16
Anticipated expiration: 2039-03-22
Also published as: CN111719292A; WO2020192615A1

Abstract

The invention discloses a door body structure, which comprises a mounting frame and a door cover, wherein one end of the door cover is rotatably connected with the mounting frame, one end of the mounting frame, which is connected with the door cover, is provided with a friction surface corresponding to a rotating connection end of the door cover, and the periphery of the rotating connection end of the door cover is in friction contact with the friction surface in the closing process of the door cover, so that friction force is generated, and the closing speed of the door cover is reduced. The invention also discloses a washing machine, and the door body structure is arranged on the washing machine. Through the setting, the door closure utilizes the rotation connecting end and the mounting frame to produce damping frictional force, slows down closing speed, avoids because the too big condition of attenuator closed noise that became invalid, avoids the condition that the tong appears at closing speed too fast simultaneously, this simple structure, easy maintenance.

Description

Door body structure and washing machine

Technical Field

The invention belongs to the technical field of washing machines, and particularly relates to a door body structure and a washing machine with the door body structure.

Background

The existing washing machine is generally provided with a hinge plate on a washing machine tray seat, an upper cover of the washing machine is arranged on the tray seat in a mode that a damper is hinged to the hinge plate, and the damper rotates relative to the hinge plate in the opening and closing processes of the upper cover of the washing machine, so that the upper cover can be prevented from falling too fast to cause impact sound or hurt a user. Although dampers are provided in almost all of the washing machines at present, there is a problem in that the ends of the dampers fail, thereby causing excessive noise when the upper cover is closed. Particularly for an oil-liquid type damper, although the oil-liquid type damper can provide stable damping force in the closing process of an upper cover, the damping effect is good, but the damping performance of oil can be obviously influenced along with the rise and the fall of the temperature, and when the temperature is high, the damping force can fall to influence the damping effect on the upper cover; meanwhile, the upper cover of the existing washing machine has too random mobility, so that the upper cover cannot be fixed after being opened.

The present invention has been made in view of this situation.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a door body structure to achieve the purpose of parking at any angle of a door cover.

In order to solve the technical problems, the invention adopts the technical scheme that:

the utility model provides a door body structure, includes installing frame and door closure, and the one end and the installing frame of door closure rotate mutually to be connected, and the one end that the installing frame links to each other with the door closure is equipped with and rotates the friction surface that the link corresponds with the door closure, and at the closed in-process of door closure, the periphery and the friction surface looks frictional contact of door closure rotation link produce frictional force, slow down door closure closing speed.

Furthermore, the end that the installing frame links to each other with the door closure is to the door closure side bending type recess that forms, and the rotation link of door closure is installed in the recess, and the inner wall that the recess was connected towards the rotation constitutes the friction surface, rotates and is equipped with the friction disc between link and the friction surface, and at the closed in-process of door closure, the friction disc simultaneously with the periphery and the friction surface looks frictional contact of door closure rotation link, production frictional force.

Furthermore, the friction plate is fixedly arranged on the periphery of the rotating connecting end of the door cover in a protruding mode, and the friction plate is always in friction contact with the friction surface in the opening and closing process of the door cover to generate friction force and slow down the closing speed of the door cover.

Preferably, the mounting frame is horizontally arranged, the door cover is arranged above the mounting frame, and in the opening and closing process of the door cover, the friction plate is always in friction contact with the friction surface to generate friction force which is propped against the self weight of the door cover so as to stop the door cover.

Furthermore, the top surface of the mounting frame comprises a horizontally extending separating surface, the friction surface is in smooth transition connection with one end, close to the door cover rotation connecting end, of the separating surface, and the friction surface extends upwards along the periphery of the rotation connecting end.

Further, the rotation connecting end is in a semi-cylindrical shape extending to both sides along the horizontal direction, and the curvature of the friction surface is consistent with that of the semi-cylindrical rotation connecting end.

Furthermore, the friction plate is arranged on one side of the rotary connecting end, which is far away from the object throwing opening, and the friction plate is always in friction contact with the friction surface in the opening and closing process of the door cover, and when the door cover is completely closed, the friction plate does not exceed the outermost end of the friction surface.

Furthermore, the friction plate is arranged on the middle shaft surface of the rotating connecting end of the door cover, when the door cover is completely opened, the friction plate and the connecting point of the friction surface and the separating surface are in friction contact with each other, and friction force which is propped against the self weight of the door cover is generated.

Furthermore, a plurality of friction plates are arranged on the rotating connecting end of the door cover and are distributed at intervals along the axial direction of the rotating shaft.

Or, a friction plate is arranged on the rotating connecting end of the door cover, and the friction plate extends to the two ends along the direction parallel to the extending direction of the rotating connecting end of the door cover.

Furthermore, the friction plate is made of polymer foaming material.

Preferably, the friction plate is made of polyurethane microporous foam material.

Another object of the present invention is to provide a washing machine having a door structure as described above.

After the technical scheme is adopted, compared with the prior art, the invention has the following beneficial effects.

1. Through the setting, the door closure utilizes the rotation link and produces damping frictional force with the installing frame, slows down closing speed, avoids because the too big condition of attenuator closed noise that became invalid, avoids closing speed the condition that the tong appears at the excessive speed simultaneously, this simple structure, easy maintenance.

2. Through set up the friction disc that has friction system between the rotation link of door closure and installing frame, at the in-process of door closure switching, the door closure utilizes friction disc and installing frame to produce frictional force, overcomes the door closure dead weight to realize the arbitrary angle of door closure and stop, convenience of customers' operation, this simple structure, easy maintenance.

3. By arranging the binding surface and the avoiding surface, the door cover is not limited by friction damping force at the initial stage of closing the door cover, the door cover can be automatically closed under the action of dead weight, the door cover is limited by the friction damping force at the later stage of closing the door cover, the friction plate can overcome the dead weight of the door cover, the door cover can be stopped at any angle under the condition that a user does not apply external force, the user can conveniently put articles into the article throwing port, and the phenomenon that the hand of the user is clamped and injured due to the fact that the closing speed is too high is avoided; meanwhile, in the early stage of closing and the later stage of opening the door body, the door cover is not limited by damping force, and the external force applied by a user can be reduced, so that the time and the labor are saved.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention, are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without limiting the invention to the right. It is obvious that the drawings in the following description are only some embodiments, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

fig. 1 is a schematic structural view of a washing machine in an embodiment of the present invention;

FIG. 2 is a partially enlarged view of the washing machine in the embodiment of the present invention in which the door is fully opened;

FIG. 3 is a partially enlarged view of the washing machine in the closing process of the door cover according to the embodiment of the present invention;

FIG. 4 is a partially enlarged view of the washing machine in the process of completely closing the door in the embodiment of the present invention;

FIG. 5 is a partial enlarged view of the washing machine with the door fully opened according to another embodiment of the present invention;

FIG. 6 is a partial enlarged view of the washing machine during the closing of the door in another embodiment of the present invention;

fig. 7 is a partially enlarged view of the washing machine in a state where the door is completely closed according to another embodiment of the present invention.

In the figure: 10-washing machine, 1-door cover, 11-rotary connecting end, 12-friction plate, 2-mounting frame, 21-friction surface, 22-binding surface, 23-avoiding surface, 24-separating surface, 3-shell, 4-washing barrel and 5-hinge structure.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate it by a person skilled in the art with reference to specific embodiments.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and the following embodiments are used for illustrating the present invention and are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example one

As shown in fig. 5 to 7, in the present embodiment, a door structure is introduced, which can be used in different household appliances, such as a pulsator washing machine, a drum washing machine, a dish washing machine, etc., and includes a door cover 1 and a mounting frame 2, a throwing port is provided on the mounting frame 2, a user can throw articles, such as clothes to be washed, into the household appliance through the throwing port, the door cover 1 is rotatably connected to the mounting frame 2, and the door cover 1 can be turned over to open or close the throwing port on the mounting frame.

In this embodiment, the door cover 1 is disposed above the mounting frame 2, the door cover 1 is rotatably connected to a corresponding end of the mounting frame 2, the corresponding end is a rotating connection end 11, a friction surface 21 corresponding to the door cover rotating connection end 11 is disposed at an end of the mounting frame 2 connected to the door cover 1, and during the closing process of the door cover 1, the periphery of the rotating connection end 11 of the door cover 1 is in friction contact with the friction surface 21 to generate friction force, thereby reducing the closing speed of the door cover. Through the setting, the door closure utilizes the rotation connecting end and the mounting frame to produce damping frictional force, slows down closing speed, avoids because the too big condition of attenuator closed noise that became invalid, avoids the condition that the tong appears at closing speed too fast simultaneously, this simple structure, easy maintenance.

In this embodiment, the periphery of the rotating connection end 11 of the door cover 1 may be provided with patterns, and the periphery of the rotating connection end 11 directly contacts with the friction surface 21 in a friction manner to generate friction force and slow down the closing speed of the door cover 1; or, a friction plate 12 is arranged between the periphery of the rotary connecting end 11 of the door cover 1 and the friction surface 21, and in the closing process of the door cover 1, the friction plate 12 is simultaneously in friction contact with the periphery of the rotary connecting end 11 of the door cover 1 and the friction surface 21 to generate friction force and slow down the closing speed of the door cover 1.

The preferred scheme in this example is: one end of the mounting frame 2 connected with the door cover 1 is provided with a friction surface 21 corresponding to the rotary connecting end 11 of the door cover 1, a friction plate 12 is arranged between the rotary connecting end 11 of the door cover 1 and the friction surface 21, and the friction plate 12 is simultaneously in friction contact with the rotary connecting end 11 of the door cover 1 and the friction surface 21 in the opening and closing process of the door cover.

In this embodiment, one end of the mounting frame 2 connected to the door cover 1 is bent toward one side of the door cover 1 to form a groove, the rotation connection end 11 of the door cover 1 is mounted in the groove, the inner wall of the groove facing the rotation connection end 11 forms a friction surface 21, the friction surface 21 extends outwards along the outer periphery of the rotation connection end 11 of the door cover 1 and wraps the rotation connection end 11 of the door cover 1, a certain gap exists between the friction surface 21 and the rotation connection end 11 of the door cover 1, and the friction plate 12 is disposed in the gap between the rotation connection end 11 of the door cover 1 and the friction surface 21.

In the embodiment, the friction plate 12 can be independently arranged in the gap between the rotating connecting end 11 of the door cover 1 and the friction surface 21, and the friction plate keeps the friction contact action with the door cover 1 and the friction surface 21 simultaneously in the whole opening and closing process of the door cover 1; or the friction plate 12 can be arranged on the side of the friction surface 21 facing the rotary connecting end 11, and the friction plate 12 on the friction surface 21 keeps the friction contact action with the rotary connecting end 11 of the door cover during the whole opening and closing process of the door cover 1 to generate damping friction force.

The preferred scheme in this example is: friction disc 12 protrusion sets up on door closure 1 rotates the periphery of link 11 to be located door closure 1 and rotate the position of link 1 towards friction surface 21, at the overall process of door closure 1 switching, friction disc 12 on door closure 1 rotates link 11 produces frictional damping force with installing frame 2 all the time, slows down door closure 1 closing speed.

The further preferable scheme in this embodiment is: the installation frame 2 is horizontally arranged, the door cover 1 is arranged above the installation frame 2, the door cover 1 can be turned upwards and downwards to open and close an object throwing opening on the installation frame 2, the friction plate 12 is always in friction contact with the friction surface 21 in the opening and closing process of the door cover 1, friction force which is propped against the dead weight of the door cover 1 is generated, the door cover 1 is stopped, and after a user applies a small force on the door cover 1, the friction force generated by the friction plate 12 can be overcome, so that the door cover 1 is continuously closed or the door cover 1 is opened. Through set up the friction disc that has friction system between the rotation link of door closure and installing frame, at the in-process of door closure switching, the door closure utilizes friction disc and installing frame to produce frictional force, overcomes the door closure dead weight to realize the arbitrary angle of door closure and stop, convenience of customers' operation, this simple structure, easy maintenance.

In this embodiment, the top surface of the mounting frame 1 includes a horizontally extending separating surface 24, the friction surface 21 is in smooth transition connection with one end of the separating surface 24 close to the rotation connecting end 11 of the door cover 1, and the friction surface 21 extends upward along the outer periphery of the rotation connecting end 11.

In this embodiment, door body structure still includes the pivot, and the pivot passes 1 rotation link 11 of door closure and is connected with installing frame 2 to realize that door closure 1 is connected with the rotation of installing frame 2, pivot 1 with rotate the coaxial setting of link 1, rotate link 11 and be the semicircle tube-shape that extends along the horizontal direction, the periphery of rotating link 11 and the smooth transition of the rest part of door closure 1 are connected.

In this embodiment, the curvature of the friction surface 22 is matched with the curvature of the semi-cylindrical rotation connection end 11, and the connection point of the friction surface 22 and the separation surface 24 is located on the central axis surface of the rotation connection end 11 when the door cover 1 is vertical.

Example two

As shown in fig. 5 to 7, in the embodiment, the friction plate 12 is protruded from the rotating connection end 11 of the door 1, and the friction plate 12 and the rotating connection end 11 of the door 1 can be fixed in various manners, such as screw fixation, snap fixation, adhesive fixation, etc., and any manner that can fix the friction plate 12 and the rotating connection end 11 of the door 1 can be used.

In this embodiment, the friction plate 12 is disposed at the periphery of the rotation connection end 11 of the door cover 1 and far away from the object throwing opening, and during the opening and closing process of the door cover 1, the friction plate 12 is always in friction contact with the friction surface 22 to generate a frictional damping force to slow down the closing speed of the door cover 1, or a frictional force which is offset by the self weight of the door cover 1 is generated to overcome the self weight of the door cover 1, so that the door cover 1 can be parked at any angle. When the door 1 is fully closed, the friction plate 12 does not exceed the outermost end of the friction surface 21.

In this embodiment, the friction plate 12 is located on the central axis surface of the rotation connection end 11 of the door cover 1, when the door cover 1 is completely opened, the friction plate 12 is located right above the connection point of the friction plate and the separation surface and is in frictional contact with the connection point, during the closing and opening processes of the door cover 1, the friction plate 12 is always in frictional contact with the friction surface 22 to generate a frictional damping force to slow down the closing speed of the door cover 1, or a frictional force against the self weight of the door cover 1 is generated, and when the door cover 1 is completely closed, the friction plate 12 is flush with the outermost end of the friction surface 22.

In this embodiment, a plurality of friction plates 12 are arranged on the rotating connection end 11 of the door cover 1, and the friction plates 12 are distributed at intervals along the axial direction of the rotating shaft; or, a friction plate 12 is arranged on the door cover rotation connecting end 11, and the friction plate 12 extends to two ends along the axial direction of the rotating shaft.

In this embodiment, the friction plate 12 is made of a polymer foam material, and preferably, the friction plate 12 is made of a polyurethane microcellular foam material.

In this embodiment, the closing speed of the door cover 1 and the arbitrary angle parking of the door cover 1 can be respectively slowed down by adjusting the size, the density, the viscosity of the damping grease, the extrusion interference magnitude of the friction surface 21 between the friction plate 12 and the mounting frame 2, and other parameters.

EXAMPLE III

As shown in fig. 2 to 4, the present embodiment is different from the first and second embodiments in that: the friction surface 21 comprises an attachment surface 22 and an avoidance surface 23, a part of the friction surface 21, which is far away from the object throwing opening, extends along the periphery of the rotating connection end 11 of the door cover 1 to form the attachment surface 22, a part of the friction surface 21, which is close to the object throwing opening, is inwards recessed to form the avoidance surface 23, and the attachment surface 22 and the avoidance surface 23 are in smooth transition connection.

In this embodiment, a gap between the avoiding surface 23 and the rotating connection end 11 of the door cover 1 is larger than a gap between the attaching surface 22 and the rotating connection end 11 of the door cover 1, and in the rotating process of the door cover 1, the friction sheet 12 is always kept in non-contact with the avoiding surface 23, and as the door cover 1 continues to rotate to a certain angle (for example, to an angle α), the friction sheet 12 rotates to the attaching surface 22, the friction sheet 12 and the attaching surface 22 start to make frictional contact, so as to generate a frictional damping force against the self weight of the door cover 1, and a small force is applied by a user, so that when the door cover 1 continues to be closed, the friction sheet 12 also rotates along with the attaching surface 22, and is always in frictional contact with the attaching surface 22 until the door cover 1 completely closes the object throwing opening. By arranging the binding surface and the avoiding surface, the door cover is not limited by friction damping force at the initial stage of closing the door cover, the door cover can be automatically closed under the action of dead weight, the door cover is limited by the friction damping force at the later stage of closing the door cover, the friction plate can overcome the dead weight of the door cover, the door cover can be stopped at any angle under the condition that a user does not apply external force, the user can conveniently put articles into the article throwing port, and the phenomenon that the hand of the user is clamped and injured due to the fact that the closing speed is too high is avoided; meanwhile, in the early stage of closing and the later stage of opening the door body, the door cover is not limited by damping force, and the external force applied by a user can be reduced, so that the time and the labor are saved.

Example four

As shown in fig. 1, in the present embodiment, a washing machine 10 is described, where the washing machine 10 includes an outer casing 3, a water tub is disposed in the outer casing 3, a washing device is disposed in the water tub, the washing device includes a washing tub 4 disposed coaxially with the water tub and a motor for driving the washing tub 4 to rotate, a pulsator is disposed in the washing tub 4, the motor drives the washing tub 4 and the pulsator to rotate, and during a washing process, laundry is washed by friction with the pulsator.

In this embodiment, the washing machine is provided with the door structure as described in any one of the first to third embodiments, the door structure is installed at the top end of the casing 3, the tray of the washing machine forms a part of the installation frame 2, the installation frame 2 of the door structure is fixedly connected with the casing 3, the throwing port on the installation frame 2 corresponds to the bucket port of the washing bucket 4, and the user can open the door cover 1 upwards to throw clothes to be washed into the washing bucket 4 through the throwing port of the installation frame 2 and the bucket port of the washing bucket 4.

In this embodiment, the door cover 1 can be rotatably connected to the mounting frame 2 through the hinge structure 5 and the rotating shaft in the prior art, and during the opening and closing of the door cover 1, the friction plate 12 on the rotating connection end 11 of the door cover 1 is in friction contact with the friction surface 22 of the mounting frame 2 to generate a friction damping force, and the friction damping force is offset with the gravity of the door cover 1 itself, so that when the user does not apply an external force, the door cover 1 can be stopped at any angle. The friction plate 12 can replace the damping structure in the prior art, the failure of the tail end of the damping structure is avoided, and the friction plate is simple in structure and easy to maintain and replace.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A door body structure is applied to a washing machine and comprises a mounting frame and a door cover, and is characterized in that one end of the door cover is rotatably connected with the mounting frame, a friction surface corresponding to a door cover rotating connection end is arranged at one end of the mounting frame connected with the door cover, and the periphery of the door cover rotating connection end is in friction contact with the friction surface in the closing process of the door cover, so that friction force is generated, and the closing speed of the door cover is reduced;

a friction plate is arranged between the rotating connecting end and the friction surface, the mounting frame is horizontally arranged, the door cover is arranged above the mounting frame, and the friction plate is always in friction contact with the friction surface in the opening and closing process of the door cover to generate a friction force which is propped against the self weight of the door cover so as to stop the door cover;

the top surface of the mounting frame comprises a horizontally extending separating surface, the friction surface is in smooth transition connection with one end, close to the door cover rotating connecting end, of the separating surface, and the friction surface extends upwards along the periphery of the rotating connecting end;

the friction plate is arranged on one side of the rotary connecting end, which is far away from the object throwing opening, and is always in friction contact with the friction surface in the opening and closing process of the door cover, and when the door cover is completely closed, the friction plate does not exceed the outermost end of the friction surface;

the friction plate is arranged on the middle shaft surface of the rotating connecting end of the door cover, and when the door cover is completely opened, the friction plate and the friction surface are in frictional contact with the connecting point of the separating surface to generate a frictional force which is propped against the self weight of the door cover;

by adjusting the size, the density and the damping grease viscosity of the friction plate and the extrusion interference magnitude of the friction surface of the friction plate and the mounting frame, the closing speed of the door cover and the arbitrary angle parking of the door cover are respectively reduced.

2. A door body structure as claimed in claim 1, wherein an end of the mounting frame connected to the door cover is bent toward the door cover side to form a groove, the rotation connection end of the door cover is mounted in the groove, and an inner wall of the groove facing the rotation connection end constitutes the friction surface.

3. The door structure of claim 1, wherein the friction plate is protruded and fixed on the outer circumference of the rotation connection end of the door, and the friction plate is always in frictional contact with the friction surface during the opening and closing of the door to generate a frictional force to slow down the closing speed of the door.

4. A door structure as claimed in claim 1, wherein the rotation connecting end is formed in a semi-cylindrical shape extending to both sides in a horizontal direction, and the curvature of the friction surface is identical to that of the semi-cylindrical rotation connecting end.

5. A door body structure as claimed in any one of claims 1 to 4, wherein the door cover rotation connection end is provided with a plurality of friction plates, the friction plates being axially spaced along the rotation shaft;

6. A door construction according to any one of claims 1 to 4, wherein the friction lining is of a polymer foam material.

7. A door construction according to claim 6, wherein the friction lining is of polyurethane microcellular foam.

8. A washing machine, characterized in that it is equipped with a door structure as claimed in any one of claims 1 to 7.