CN115111891B

CN115111891B - Vibration mechanism for auxiliary drying

Info

Publication number: CN115111891B
Application number: CN202210763332.XA
Authority: CN
Inventors: 叶爽; 陈远志; 周世杰
Original assignee: Chengdu Xiaolian Science & Technology Co ltd
Current assignee: Chengdu Xiaolian Science & Technology Co ltd
Priority date: 2022-06-30
Filing date: 2022-06-30
Publication date: 2023-10-24
Anticipated expiration: 2042-06-30
Also published as: CN115111891A

Abstract

The application discloses a vibrating mechanism for assisting in drying, and belongs to the technical field of washings drying devices; the mechanism comprises a mounting carrier, wherein a washing bin for washing and/or drying the washed objects is arranged on the mounting carrier, a vibrating mechanism for assisting the vibration of the washing bin is arranged near the washing bin, and the vibrating mechanism drives the washing bin to vibrate so that the washed objects in the washing bin are turned or fluffed to facilitate the drying of the washed objects; compared with the traditional structure, the application has the advantages that extra vibration effect is needed to be provided for equipment in the structure design to realize shaking and overturning of the washings in the washing bin, the washings are heated more uniformly, the water vapor can flow better, the drying time can be obviously shortened, the drying efficiency is improved, in the traditional technology, the vibration and certain noise brought by the vibration are usually solved, the design is an independent vibration mechanism, the drying time of the washings can be effectively shortened, and the drying efficiency is further improved.

Description

Vibration mechanism for auxiliary drying

Technical Field

The application relates to a vibrating mechanism for assisting in drying, and belongs to the technical field of washing and drying devices.

Background

When drying the washings in the washing bin, the washings are often piled up at the bottom of the washing bin, only the surface of the washings can be directly heated, other parts of the washings can not be well heated and dried, the drying can be realized for a longer time, and the phenomenon of local humidity still can occur after the drying operation is finished. If all washings accumulated at the bottom of the washing bin are to be completely dried, longer drying time is required, so that the morphology of the washings needs to be changed to ensure that the whole washings can be contacted with the drying medium, and the water vapor are conveniently discharged.

The washing machine on the market at present makes the washing form change through the mode of inner tube, urceolus cooperation motion more, and chinese patent application number discloses a semi-automatic washing machine's of impeller drying device for 201811254769.0, including mounting cylinder, stoving section of thick bamboo, driving motor etc. through the cooperation between stoving section of thick bamboo and the mounting cylinder, spin-dries the washing fast, through the cooperation between electromagnetic heating circle and the heater strip, carries out drying treatment to the washing in the spin-drying process. However, the drying device still has difficulty in ensuring that the whole washing object can be contacted with the drying medium, and the whole washing area of the dryer in the prior art is required to be subjected to integral movement for drying operation, so that the time and the energy are consumed, the structural design is complex, the structural strength and the quality requirements are high, and the product cost is increased.

Disclosure of Invention

The application aims at: to the problem that exists, provide a vibration mechanism of auxiliary drying, this vibration mechanism can effectually drive the washing storehouse vibration, drives the stirring or the not hard up of washing thing in the washing storehouse through the vibration of washing storehouse, effectual promotion hot air is to the stoving effect of washing thing in the washing storehouse.

The technical scheme adopted by the application is as follows:

the vibration mechanism for assisting in drying comprises a mounting carrier, wherein a washing bin for washing and/or drying the washed objects is arranged on the mounting carrier, a vibration mechanism for assisting in vibrating the washing bin is arranged near the washing bin, and the vibration mechanism drives the washing bin to vibrate so that the washed objects in the washing bin are turned or fluffy to facilitate drying of the washed objects. Further, the mounting carrier comprises a fixed base, and a vibration mechanism for driving the washing bin to vibrate or deform is arranged on the fixed base; the vibration mechanism is arranged at the side part, the upper part, the lower part or the rear part of the washing bin.

Preferably, the vibration mechanism is arranged below the washing bin.

Further, the vibration mechanism comprises a vibration seat and a driving mechanism for driving the vibration seat to vibrate.

Further, the vibration seat is connected with the washing bin;

or a gap exists between the vibration seat and the outer side wall of the washing bin, and the vibration seat can impact the washing bin when vibrating.

Further, at least one vibration rod for limiting and guiding is arranged between the vibration seat and the fixed base, a limiting hole is formed in the fixed base, the top of the vibration rod is fixedly assembled with the vibration seat, and the lower part of the vibration rod can penetrate through the limiting hole;

or, vibrating seat and unable adjustment base are fixed connection respectively at vibrating rod both ends, and the vibrating rod includes interior pole and cover and establishes the outer pole on the interior pole, but outer pole reciprocates along the interior pole to make the vibrating rod scalable.

It is further preferable that the driving mechanism is mounted under the vibration seat, or the driving mechanism is mounted on the vibration rod, or the driving mechanism is mounted on the fixed base.

Furthermore, the vibration seat is assembled on the fixed base through at least one elastic element, a limiting block is further arranged at the lower part of the elastic element, and the bottom of the elastic element can be assembled on the fixed base through the limiting block.

Further, the connecting frame is further arranged on the fixed base, the connecting frame is fixedly assembled with the fixed base through the connecting rod, the vibrating mechanism is assembled between the fixed base and the connecting frame, the washing bin is assembled above the connecting frame, and the middle part of the connecting frame is further provided with an assembly hole for the vibrating seat to pass through when vibrating up and down.

Further, the top surface of the vibration seat is also provided with a plurality of bulges for overturning washings.

Further, the vibration mechanisms comprise at least 1, and each vibration mechanism can drive the washing bin to vibrate.

Further, the washing bin is a flexible washing bin or a hard washing bin;

when the washing bin is a flexible washing bin, the washing bin can reciprocate up and down along with the vibration seat based on flexible deformation, and washings in the washing bin can be thrown under inertia; or when the vibration seat collides with and extrudes the flexible washing bin, the flexible washing bin deforms under the action of impact force, and the washed objects in the washing bin turn over along with the deformation of the washing bin;

when the washing bin is a hard washing bin, the washing bin and the mounting carrier are connected in a sliding way, so that the washing bin can move up and down, and the washing bin can reciprocate up and down along with the vibration seat.

In summary, due to the adoption of the technical scheme, the beneficial effects of the application are as follows:

1. compared with the traditional structure, the vibration mechanism for assisting in drying is different in that the structure is designed to provide additional vibration effect for equipment to realize shaking and overturning of washings in a washing bin, so that the washings are heated more uniformly, gasified steam can flow better, the drying time can be obviously shortened, and the drying efficiency is improved;

2. in the traditional technology, the noise caused by drying to the whole washing machine is usually solved, so that the whole washing machine needs to be subjected to sound insulation design, the design is an independent vibration mechanism, the washing bin does not need to move for drying, the noise source is limited, and the required range and cost of sound insulation are reduced;

3. according to the vibration mechanism for assisting in drying, disclosed by the application, the vibration of a large piece of washings can be realized through the vibration mechanism in structural design, the whole overturning and the vibration of small pieces of washings can be realized, the situation that the washings are stacked and attached from beginning to end can not occur, and the situation that the rotation of the existing washing drum can not be avoided can be avoided, so that the occurrence of local wetting phenomenon can be avoided;

4. in the design of structure, this technical scheme is applicable to flexible washing storehouse, but combines the optimization of structure, and it still can be applied to on the stereoplasm washing storehouse, moreover can with washing storehouse fixed connection or separation, and do not inject the hookup location under connected state, make its application more extensive to realized the commonality of whole unit, and the design simple structure of this structure, the volume is less, and it is little for original structure occupation.

Drawings

The application will now be described by way of example and with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of the structure of the present application;

FIG. 2 is a schematic diagram of the structure of a front view of the present application;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2 at A;

FIG. 4 is a schematic view of the structure of the application in which the vibrating upper or vibrating seat is connected to the washing bin;

FIG. 5 is a schematic view of the structure of the application, in which the vibrating seat is not connected to the washing chamber, and the vibrating seat is vibrated to the lower side.

The marks in the figure: the washing machine comprises a 1-washing bin, a 2-fixed base, a 3-vibrating rod, a 4-limiting block, a 5-elastic element, a 6-connecting frame, a 7-connecting rod, an 8-assembly hole, a 9-driving mechanism and a 10-vibrating seat.

Detailed Description

All of the features disclosed in this specification, or all of the steps in a method or process disclosed, may be combined in any combination, except for mutually exclusive features and/or steps.

Any feature disclosed in this specification may be replaced by alternative features serving the same or equivalent purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

Example 1

A vibration mechanism for assisting drying is shown in fig. 1, and comprises a mounting carrier, wherein a washing bin 1 for washing and/or drying washings is arranged on the mounting carrier, a vibration mechanism for assisting the vibration of the washing bin 1 is arranged below the washing bin, and the vibration mechanism drives the washing bin 1 to vibrate so that washings in the washing bin 1 are turned or fluffy, so that the washings are dried and stirred conveniently.

In the present embodiment, as a specific description, in terms of structural design, it is common to reduce vibration of the washing machine according to the presently disclosed literature and related products, relative to the conventional structure, whereas in the present application, as a difference, a vibration mechanism is added to make the washing tub 1 vibrate in synchronization. As an important description, in terms of vibration, the subsequent structural optimization of the application can lead the whole structure to have only the effect of up-down vibration, meanwhile, for better effect, the up-down vibration amplitude of the vibration mechanism has a certain limit, and the effect on the whole machine is not great, under the condition, the design of the vibration mechanism is utilized, especially when the washings are dried in the washing bin 1, the washings can be more fully dried, and the problem of partial non-drying is avoided. Even though the washing bin 1 can be rotated during drying, part of the washing is accumulated and immobilized under the action of centrifugal force in the washing process, especially in the dewatering process, and under the condition that the washing bin 1 does not rotate, the structure of the design can effectively enable the internal washing to obtain the fluffy or turn-over effect, promote the drying effect and improve the drying efficiency.

In a further preferred embodiment, the mounting carrier includes a fixing base 2, and a vibration mechanism for driving the washing bin to vibrate or deform is disposed on the fixing base 2. As a specific structural design, the vibration mechanism is arranged at the side part, the upper part, the lower part or the rear part of the washing bin. The specific description will be given by way of orientation, and the connection or disconnection may be provided on the left side, the right side, the front and rear sides, or the top of the washing compartment 1. In this embodiment, the vibration mechanism is preferably arranged below the washing bin, and the vibration mechanism is connected or disconnected and arranged at the bottom of the washing bin 1. The function of the washing machine with the drying effect is not repeated herein, and the application is based on the design that the vibrating mechanism is additionally arranged on the basis of the washing machine or the dryer.

As a further design, the vibration mechanism includes a vibration seat 10 and a driving mechanism 9 for driving the vibration seat to vibrate, based on the above specific structural design. In this design, the driving mechanism 9 is a vibration motor of the prior art, and of course, as a non-limiting way, an eccentric wheel motor, a linear motor, an electromagnetic vibrator, an ultrasonic motor, a cam mechanism, a crank link mechanism, etc. may be used, and any driving device capable of making the vibration seat 10 reciprocate may be used.

In this embodiment, as a specific design, a gap exists between the vibration seat 10 and the outer side wall of the washing compartment 1, and the vibration seat 10 may impact the washing compartment 1 when the vibration seat 10 vibrates. The design of the structure enables the relative independence between the structures. On the basis of the design of the structure, the structure is suitable for the flexible washing bin 1, and meanwhile, the damage caused by hard impact can be avoided on the design of the structure. Preferably, the vibration seat 10 is disposed below the washing chamber 1, and generates an upward and downward force on the washing chamber. Because the washings have self gravity, the process of up-and-down motion can obtain better overturning or deformation effect.

On the basis of the specific structural design, at least one vibrating rod 3 used for limiting and guiding is further arranged between the vibrating seat 10 and the fixed base, a limiting hole is formed in the fixed base 2, the top of the vibrating rod 3 is fixedly assembled with the vibrating seat 10, and the lower portion of the vibrating rod 3 can penetrate through the limiting hole. The design of this structure can effectually promote whole vibrating structure vibration or the effect of deformation.

Based on the above specific design, the driving mechanism 9 is assembled below the vibration seat 10, or the driving mechanism is assembled on the vibration rod, or the driving mechanism is assembled on the fixed base 2. Even the driving mechanism can be assembled outside and can be realized by driving an internal cam (eccentric wheel) structure through a transmission mechanism. As a more preferable solution in this embodiment, the driving mechanism 9 is assembled below the vibration seat 10, and drives the vibration seat to vibrate through the driving mechanism.

Based on the above specific structural design, the vibration mount 10 is mounted on the stationary base 2 by means of at least one elastic element 5.

As a more specific design, the elastic element 5 is sleeved on the vibrating rod 3; alternatively, the elastic element 5 and the vibration rod 3 are respectively and independently assembled between the fixed base 2 and the vibration seat 10;

the lower part of the elastic element 5 is also provided with a limiting block 4, and the bottom of the elastic element can be assembled on the fixed base through the limiting block.

In the above-described structural design, when the diameters of the vibration rod 3 and the elastic member 5 are large, 1 each may be used, and of course, as optimization, 2 may be used when they exist in an independent manner, and they may be arranged in a diagonal manner. The same applies to the multi-root approach. However, in the present embodiment, preferably, the number of the vibration rod 3 and the number of the elastic elements are 4, and the elastic elements are sleeved on the vibration rod 3.

As a preferred mode, the elastic element is sleeved on the vibration rod 3, that is, the vibration rod 3 is assembled in the middle of the elastic element 5, and the elastic element 5 is a spring.

Based on the above specific structural design, the elastic element 5 provides a better buffering effect for the vibration mechanism, and according to the vibration motor in the current market, the noise and the like of the vibration mechanism are relatively optimized, so that the effect and the efficiency of further improving the drying on the basis of the traditional structure can be ensured by combining the structure. More specifically, the design of the vibrating rod 3 ensures that the whole vibrating mechanism is in the effect of vibrating up and down, and the design based on the limiting block 4 also limits the amplitude of the vibrating mechanism.

In a specific structural design, the limiting block 4 is in a T-shaped structure and can be assembled in the limiting hole, and the limiting block 4 is fixedly assembled at the lower part of the elastic element and is integrally formed. More specifically, the middle part of the limiting block is provided with a through hole, the diameter of the through hole is slightly larger than that of the vibrating rod 3, and the bottom of the vibrating rod 3 can pass through the through hole, so that the vibrating rod can move up and down. The structure can realize the guiding function, and can complete the assembly effect and the vibration buffering effect.

On the basis of the specific structure, the fixing base 2 is further provided with a connecting frame 6, the connecting frame 6 is assembled and fixed with the fixing base 2 through a connecting rod 7, the vibrating mechanism is assembled between the fixing base 2 and the connecting frame 6, the washing bin 1 is assembled above the connecting frame 6, and the middle part of the connecting frame 6 is further provided with an assembly hole 8 for the vibrating seat 10 to pass through when vibrating up and down. In the design of this structure, the assembly space of vibration mechanism can be effectually guaranteed.

In order to further ensure the overturning effect of the washings, further, a plurality of bulges for assisting overturning are arranged on the top surface of the vibration seat 10. The auxiliary overturning washings, such as small washings (such as socks, underwear and the like) can be overturned integrally, large washings such as washings and the like can be shaken partially, and when the vibration seat 10 collides with and presses the flexible washroom 1, the small washings above the bulges are overturned.

In this embodiment, as a more specific design, 1 vibration mechanism is used in consideration of the installation space and the optimization of the entire structure.

Example 2

On the basis of the design of the embodiment 1, as the design of the vibration mechanisms, at least 1 vibration mechanism is included, and each vibration mechanism can drive the washing bin 1 to vibrate or deform. More specifically, each vibrating mechanism may be in contact with the wash chamber as it vibrates, thereby vibrating, or otherwise deforming, the wash chamber.

In the embodiment 1, 1 design has been referred to, in this design, the number of vibration mechanisms can be 2 or more according to the overall installation space, and each vibration mechanism is matched with the washing bin 1 and drives the washing bin 1 to vibrate.

In this design, the shape of the vibration seat 10 can be a disc, a column-shaped rod body, a sphere body and the like on the basis of 1 design, and each small vibration seat 10 can collide with the washing bin 1 at the same time or collide with the washing bin 1 at intervals.

The small vibration seat 10 such as a disc, a columnar rod body, a spheroid and the like can also squeeze the flexible washing bin during collision, the flexible washing bin 1 is based on deformation, and the washed objects in the washing bin are jacked up by the vibration seat 10 and then fall down, so that the washed objects are turned over.

Example 3

On the basis of the design of embodiment 1, the design of the vibrating rod 3 is different in this embodiment, in this design, the vibrating rod 3 does not have to pass through a fixed base, and may be a telescopic structure, and the vibrating rod includes an inner rod and an outer rod, where the outer rod is movably sleeved on the inner rod, and the telescopic effect of the vibrating rod is achieved by the relative sliding of the inner rod and the outer rod.

In a specific design, two ends of the vibrating rod 3 are respectively and fixedly connected with the vibrating seat 10 and the fixed base 2, the vibrating rod 3 comprises an inner rod and an outer rod sleeved on the inner rod, and the outer rod can move up and down along the inner rod, so that the vibrating rod 3 is telescopic.

At the same time, the elastic element and the vibration rod 3 are respectively and independently arranged between the fixed base and the vibration seat 10.

Example 4

Based on the design of the embodiment 1, aiming at the design of the washing bin 1, the washing bin 1 is a flexible washing bin or a hard washing bin;

when the washing bin 1 is a flexible washing bin, based on flexibility and deformability, the washing bin 1 can reciprocate up and down along with the vibration seat 10, and washings in the washing bin 1 can be thrown under inertia; or when the vibration seat collides with and extrudes the flexible washing bin, the flexible washing bin deforms under the action of impact force, and the washed objects in the washing bin turn over along with the deformation of the washing bin;

when the washing bin 1 is a hard washing bin, the washing bin 1 and the mounting carrier are connected in a sliding way, so that the washing bin 1 can move up and down, and the washing bin 1 can reciprocate up and down along with the vibration seat 10.

In the design of the structure, the washing bin 1 is preferably a flexible washing bin 1, and the problem that the hard washing bin 1 is damaged by direct impact during vibration is solved.

Example 5

In this embodiment, the washing tub 1 is a flexible washing tub or a hard washing tub, and the vibration seat 10 is connected to an outer side wall of the washing tub 1, in combination with the descriptions of embodiments 1 to 4. In this design, the vibrating seat 10 is preferably connected to the bottom of the washing compartment 1.

When the washing bin 1 is a hard washing bin, the washing bin 1 can move up and down when the washing bin 1 is in sliding connection with the frame, so that the washing bin 1 can reciprocate up and down along with the vibration seat 10.

In the design of the structure, when the washing bin 1 is a flexible washing bin, the washing bin 1 is flexible and deformable, the washing bin can reciprocate up and down along with the vibration seat, and washings in the washing bin 1 can be thrown under inertia; when the washing bin 1 is a hard washing bin, sliding devices such as sliding grooves can be arranged between the back of the washing bin 1 and the host machine, the washing bin 1 can move on the sliding devices, further the up-and-down reciprocating motion of the washing bin 1 along with the vibration seat 10 is realized, and washings in the washing bin 1 are thrown under inertia.

To sum up:

The application is not limited to the specific embodiments described above. The application extends to any novel one, or any novel combination, of the features disclosed in this specification, as well as to any novel one, or any novel combination, of the steps of the method or process disclosed.

Claims

1. An auxiliary drying's vibration mechanism, its characterized in that: the washing machine comprises a mounting carrier, wherein a washing bin (1) for washing and/or drying the washed objects is arranged on the mounting carrier, a vibrating mechanism for assisting the washing bin (1) to vibrate is arranged near the washing bin (1), and the vibrating mechanism drives the washing bin (1) to vibrate so that the washed objects in the washing bin (1) are turned or fluffed to facilitate drying of the washed objects;

the mounting carrier comprises a fixed base (2), a connecting frame (6) is further arranged on the fixed base (2), the connecting frame (6) is fixedly assembled with the fixed base (2), the vibration mechanism comprises a vibration seat (10) and a driving mechanism (9) for driving the vibration seat (10) to vibrate, at least one vibration rod (3) for limiting and guiding is further arranged between the vibration seat (10) and the fixed base (2), and an assembly hole (8) through which the vibration seat (10) can pass when vibrating up and down is further formed in the middle of the connecting frame (6);

the washing bin (1) is a flexible washing bin, and based on flexibility, the washing bin (1) can reciprocate up and down along with the vibration seat (10), and washings in the washing bin (1) can be thrown under inertia; or when the vibration seat (10) collides with and extrudes the flexible washing bin, the flexible washing bin deforms under the action of impact force, and the washings in the washing bin turn over along with the deformation of the washing bin.

2. A vibratory mechanism for assisting in drying as set forth in claim 1, wherein: the fixed base (2) is provided with a vibrating mechanism for driving the washing bin to vibrate or deform;

the vibration mechanism is arranged at the side part, the upper part, the lower part or the rear part of the washing bin (1).

3. A vibratory mechanism for assisting in drying as set forth in claim 1, wherein: the vibration seat (10) is connected with the washing bin (1);

or, a gap exists between the vibration seat (10) and the outer side wall of the washing bin (1), and the vibration seat (10) can generate impact on the washing bin (1) during vibration.

4. A vibratory mechanism for assisting in drying as set forth in claim 1, wherein: a limiting hole is formed in the fixed base (2), the top of the vibrating rod (3) is fixedly assembled with the vibrating seat (10), and the lower part of the vibrating rod (3) can penetrate through the limiting hole;

or, vibrating rod (3) both ends are fixed connection vibration seat (10) and unable adjustment base (2) respectively, and vibrating rod (3) are including interior pole and cover and are established the outer pole on the interior pole, but outer pole reciprocates along the interior pole to make vibrating rod (3) scalable.

5. The vibration mechanism for assisting in drying as set forth in claim 4, wherein: the driving mechanism (9) is assembled below the vibration seat (10), or is assembled on the vibration rod and the fixed base (2).

6. A vibratory mechanism for assisting in drying as set forth in claim 1 or 4 wherein: the vibration seat (10) is assembled on the fixed base (2) through at least one elastic element (5);

the lower part of the elastic element (5) is also provided with a limiting block (4), and the bottom of the elastic element can be assembled on the fixed base through the limiting block.

7. A vibratory mechanism for assisting in drying as set forth in claim 1, wherein: the connecting frame (6) is assembled and fixed with the fixed base (2) through the connecting rod (7), the vibration mechanism is assembled between the fixed base (2) and the connecting frame (6), and the washing bin (1) is assembled above the connecting frame (6).

8. A vibratory mechanism for assisting in drying as set forth in any of claims 3-5 wherein: the top surface of the vibration seat (10) is also provided with a plurality of bulges for overturning washings.

9. A vibratory mechanism for assisting in drying as set forth in any of claims 3-5 wherein: the vibration mechanisms comprise at least 1, and each vibration mechanism can drive the washing bin (1) to vibrate or deform.