CN113117949A - Cleaning arm for atomizer and using method thereof - Google Patents

Abstract

The invention provides a cleaning arm for an atomizer and a using method thereof, and belongs to the field of household appliance accessories. Comprises a stepping motor, a belt rotating assembly and an atomizing arm; the output end of the stepping motor is connected with the input end with a rotating component; the output end with the rotating component is connected with one end of the atomizing arm; the upper surface of the atomizing arm is in threaded connection with a plurality of atomizing sheets; the plurality of atomizing pieces are distributed on the upper surface of the atomizing arm at equal intervals. The output shaft of the stepping motor rotates clockwise, and then the second driving belt rotating assembly works to change the overturning of the atomizing arm, so that the atomizing plates fixed on the atomizing arm at equal intervals also overturn. The residual liquid that will atomize through the effect of gravity slides from the surface of atomizing piece, makes the surface of atomizing piece keep dry, avoids because the incrustation scale or the impurity that produces of long-time residual liquid accumulation sediment, leads to influencing the unfavorable condition of atomization effect.

Description

Cleaning arm for atomizer and using method thereof

Technical Field

The invention relates to the field of accessories of ultrasonic atomizers, in particular to a cleaning arm for an atomizer and a using method thereof.

Background

All ultrasonic atomizers at present need to be manually cleaned periodically. The part on the machine needs to be disassembled during cleaning, which is time-consuming, labor-consuming and inconvenient, and after a period of time, scale or impurities on the surface are accumulated on the surface of the atomizing sheet due to accumulated water. The atomization effect of the atomization sheet is reduced or the atomization function is lost.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to solve the technical problem of providing a cleaning arm for an atomizer and a using method thereof. The aim of reducing maintenance cost and replacing manual cleaning work can be achieved, and the cleaning machine is very simple, convenient, rapid and labor-saving to use.

The technical scheme of the invention is realized as follows:

a cleaning arm for an atomizer comprises a stepping motor, a belt rotating assembly and an atomizing arm; the output end of the stepping motor is connected with the input end with a rotating component; the output end with the rotating component is connected with one end of the atomizing arm; the upper surface of the atomizing arm is in threaded connection with a plurality of atomizing sheets; the plurality of atomizing pieces are distributed on the upper surface of the atomizing arm at equal intervals.

Further, the belt rotating assembly comprises a first driving group and a second driving group; the input end of the first driving group is connected with the output end of the stepping motor; the output end of the first driving group is connected with the input end of the second driving group; the output end of the second driving group is connected with one end of the atomizing arm.

Further, the first drive group includes a first drive belt and a first drive wheel; the output end of the stepping motor is connected with the input end of the first driving wheel; the first driving wheel is embedded in the first driving belt; the output end of the control wheel is connected with the input end of the second driving group; the second drive group comprises a second drive belt and a second drive wheel; the second driving wheel is embedded in the second driving belt; the second driving wheel is connected with one end of the atomizing arm.

Further, the device also comprises a shell; the atomization arm is positioned in the shell; the second driving group is positioned on the inner side of one side wall of the shell; the first driving group is positioned at the outer side of one side wall of the shell; the second driving group and the first driving group are fixed on one side wall of the appearance through a connecting piece; the connecting piece comprises a plate surface and a shaft barrel; two ends of the panel are fixed on the outer side of one side wall of the shell through counter bores; the shaft barrel is embedded in one side wall of the shell; the input end of the second driving group is connected with the output end of the first driving group through a bearing in the shaft barrel.

Further, the length of the first drive belt is less than the length of the second drive belt.

Further, the device also comprises a plurality of fixed seats; the heads of the fixed seats are respectively connected with the two ends of the atomizing arm through bearings; the bottoms of the fixing seats are fixed with the bottom plate of the shell in a threaded manner.

Furthermore, one of them is close to the inside wall of the fixing base of second drive group one side and is equipped with position sensor.

A method of using a wash arm for an atomizer, comprising: the controller detects a work stop signal and sends a clockwise signal to the stepping motor; the stepping motor is started after receiving the clockwise signal to drive the atomizing arm to overturn.

Further, a work starting signal is detected through the controller, and the controller sends the work starting signal to the stepping motor; the stepping motor receives the anticlockwise signal to start, and drives the atomizing arm to reset.

The invention has the beneficial effects that: fix the atomizing piece on the atomizing arm, rotate through the first driving band rotating assembly of step motor, take rotating assembly to drive the atomizing arm and rotate, follow the rotation of atomizing arm, the direction of use of atomizing piece also overturns, through the effect of gravity with atomizing remaining liquid from the surperficial landing of atomizing piece, make the surface of atomizing piece keep dry, avoid because long-time remaining liquid accumulation deposit and the incrustation scale or the impurity that produces, lead to influencing atomization effect's bad situation. Through opening or closing according to the atomizing function, start step motor work and change the position of atomizing arm, make the atomizing piece reach the effect clear promptly of using up, keep the surface drying of atomizing piece, reduce the maintenance cost, prolong the life of atomizer.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of a cleaning arm for an atomizer according to the present invention;

FIG. 2 is a control block diagram of a method of using a purge arm for an atomizer in accordance with the present invention;

fig. 3 is a schematic diagram of a use structure of a cleaning arm for an atomizer according to the present invention.

The attached drawings are as follows: 1-a step motor; 2-with a rotating assembly; 3-an atomizing arm; 4-atomizing tablets; 5-a housing; 6-connecting piece; 7-a fixed seat; 8-a controller; 21-a first drive group; 22-a second drive group; 51-a through hole; 61-plate surface; 62-shaft cylinder; 71-a position sensor; 211 — first drive belt: 212-a first drive wheel; 221-a second drive belt; 222-second drive wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1, a cleaning arm for an atomizer comprises a stepping motor 1, a belt rotating assembly 2 and an atomizing arm 3; the output end of the stepping motor 1 is connected with the input end of the belt rotating assembly 2; the output end of the belt rotating assembly 2 is connected with one end of the atomizing arm 3; the upper surface of the atomizing arm 3 is in threaded connection with a plurality of atomizing sheets 4; a plurality of atomizing plates 4 are distributed on the upper surface of the atomizing arm 3 at equal intervals. By starting the stepping motor 1, the first driving belt 211 drives the rotating assembly 2 to rotate so that the atomizing arm 3 can rotate along with the rotating direction of the rotating assembly 2, and the atomizing plates 4 arranged at equal intervals on the atomizing arm 3 also change along with the change of the atomizing arm 3, so that the initial position of the atomizing plate 4 on the atomizing arm 3 is changed.

As shown in fig. 2 a, a method of using a wash arm for an atomizer, comprising: the controller 8 detects a work stop signal, and the controller 8 sends a clockwise signal to the stepping motor 1; the stepping motor 1 is started after receiving the clockwise signal to drive the atomizing arm 3 to overturn. That is, the controller 8 detects the working condition of the atomizer and feeds back to the stepping motor 1 according to the current working condition of the tool. When the atomizer stops atomizing work, the controller 8 sends a clockwise signal to the stepping motor 1 to enable the output shaft of the stepping motor 1 to rotate clockwise, and then the second driving belt 221 drives the rotating assembly 2 to work, so that the atomizing arm 3 is changed to overturn, and the atomizing plates 4 fixed on the atomizing arm 3 at equal intervals also overturn. The residual liquid after atomization slides off from the surface of the atomizing plate 4 under the action of gravity, so that the surface of the atomizing plate 4 is kept dry, and the adverse condition that the atomization effect is influenced due to scale or impurities generated by accumulation and precipitation of the residual liquid for a long time is avoided.

Preferably, one of the inner side walls of the fixed seat 7 near one side of the second driving group 22 is provided with a position sensor 71. When the atomizing arm 3 rotates to the 90 ° position, the position sensor 71 is blocked, and sends a blocking signal to the control, so that the atomizing arm 3 is limited from rotating to the 90 ° position to stop, and the stepping motor 1 stops.

Preferably, as shown in fig. 2B, the controller 8 detects the operation start signal, and the controller 8 sends the operation start signal to the stepping motor 1; the stepping motor 1 receives the anticlockwise signal to start, and drives the atomizing arm 3 to reset. That is, when the controller 8 detects that the atomizer opens the atomizing function, the controller 8 sends anticlockwise signal to the step motor 1, makes the output shaft anticlockwise rotation of step motor 1, and then the second driving belt 221 takes the runner assembly 2 work, makes the arm 3 that atomizes overturn and reset, fixes the atomizing piece 4 that equidistantly on the arm 3 that atomizes and also resets, carries out normal atomizing work.

Preferably, the belt rotating assembly 2 comprises a first drive group 21 and a second drive group 22; the input end of the first driving group 21 is connected with the output end of the stepping motor 1; the output end of the first driving group 21 is connected with the input end of the second driving group 22; the output of the second drive group 22 is connected to one end of the atomizing arm 3. Through the hierarchical control of the first driving group 21 and the second driving group 22, the connection between the parts is stabilized, and the clearly working area is divided, so that when the parts needing to be repaired can be clearly found for maintenance.

Preferably, the first driving group 21 comprises a first driving belt 211 and a first driving wheel 212; the output end of the stepping motor 1 is connected with the input end of the first driving wheel 212; the first drive wheel 212 is embedded within the first drive belt 211; the output end of the control wheel is connected with the input end of the second driving group 22; the second drive group 22 includes a second drive belt 221 and a second drive wheel 222; the second driving wheel 222 is embedded in the second driving belt 221; the second drive wheel 222 is connected to one end of the atomizing arm 3.

Preferably, as shown in fig. 3, further comprises a housing 5; the atomizing arm 3 is located within the housing 5; the second driving group 22 is positioned at the inner side of one side wall of the shell 5; the first driving group 21 is positioned outside one side wall of the shell 5; the second driving set 22 and the first driving set 21 are fixed on one side wall of the shell 5 through a connecting piece 6; the connecting piece 6 comprises a plate surface 61 and a shaft barrel 62; two ends of the panel are fixed on the outer side of one side wall of the shell 5 through counter bores; the shaft cylinder 62 is embedded in one side wall of the shell 5; the input of the second drive-group 22 is connected to the output of the first drive-group 21 via a bearing in the shaft 62. Through second drive group 22 and atomizing arm 3 normal work in shell 5 inside, with the first drive group 21 of the outside fixed of shell 5 can with the normal belt drive of second drive group 22, and the step motor 1 that conveniently links to each other with first drive group 21 can also link to each other with other equipment.

Preferably, the length of the first drive belt 211 is less than the length of the second drive belt 221. Since the first driving group 21 is outside the housing 5 and the second driving group 22 is inside the housing 5, the first driving group 21 only needs to be connected to the stepping motor 1, and the second driving group 22 can be driven by the first driving group 21. Since the second driving group 22 may connect a plurality of atomizing arms 3 to drive the plurality of atomizing arms 3, the length of the second driving belt 221 is longer than that of the first driving belt 211.

Preferably, the device also comprises a plurality of fixed seats 7; the heads of the fixed seats 7 are respectively connected with the two ends of the atomizing arm 3 through bearings; the bottoms of the fixed seats 7 are fixed with the bottom plate of the shell 5 through threads. The atomizing arm 3 is fixed inside the housing 5 through the fixing seat 7, and the atomizing arm 3 is supported through the fixing seat 7 so that a space enough for the atomizing arm 3 to turn is left between the atomizing arm and the bottom plate.

Preferably, the bottom plate of the housing 5 is further provided with a through hole 51. The liquid which slides off from the atomizing sheets 4 which are distributed on the overturned atomizing arm 3 at equal intervals is discharged through the external pipeline of the through hole 51.

In summary, according to the cleaning arm for the atomizer provided by the present invention, the atomizing plate is fixed on the atomizing arm, the stepping motor drives the belt rotating assembly to rotate, the belt rotating assembly drives the atomizing arm to rotate, the use direction of the atomizing plate is also reversed along with the rotation of the atomizing arm, the liquid remaining after atomization slides off from the surface of the atomizing plate under the action of gravity, so that the surface of the atomizing plate is kept dry, and the adverse condition that the atomization effect is affected due to scale or impurities generated by the accumulation and precipitation of the liquid remaining for a long time is avoided. Through opening or closing according to the atomizing function, start step motor work and change the position of atomizing arm, make the atomizing piece reach the effect clear promptly of using up, keep the surface drying of atomizing piece, reduce the maintenance cost, prolong the life of atomizer.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A rinse arm for an atomizer, comprising:

a stepping motor (1), a belt rotating assembly (2) and an atomizing arm (3);

the output end of the stepping motor (1) is connected with the input end of the belt rotating assembly (2);

the output end of the belt rotating assembly (2) is connected with one end of the atomizing arm (3);

the upper surface of the atomizing arm (3) is in threaded connection with a plurality of atomizing sheets (4);

the atomizing plates (4) are distributed on the upper surface of the atomizing arm (3) at equal intervals.

2. The rinse arm for a nebulizer of claim 1, wherein:

the belt rotating assembly (2) comprises a first drive group (21) and a second drive group (22);

the input end of the first driving group (21) is connected with the output end of the stepping motor (1);

the output end of the first driving group (21) is connected with the input end of the second driving group (22);

the output end of the second driving group (22) is connected with one end of the atomizing arm (3).

3. The rinse arm for a nebulizer of claim 2, wherein:

the first drive group (21) comprises a first drive belt (211) and a first drive wheel (212);

the output end of the stepping motor (1) is connected with the input end of the first driving wheel (212);

the first drive wheel (212) is embedded within the first drive belt (211);

the output end of the control wheel is connected with the input end of the second driving group (22);

the second drive group (22) comprises a second drive belt (221) and a second drive wheel (222);

the second drive wheel (222) is embedded within the second drive belt (221);

the second driving wheel (222) is connected with one end of the atomizing arm (3).

4. The rinse arm for a nebulizer of claim 2 or 3,

further comprising a housing (5);

the atomizing arm (3) is located within the housing (5);

the second driving group (22) is positioned at the inner side of one side wall of the shell (5);

the first driving group (21) is positioned outside one side wall of the shell (5);

the second driving group (22) and the first driving group (21) are fixed on one side wall of the shell (5) through a connecting piece (6);

the connecting piece (6) comprises a plate surface (61) and a shaft barrel (62);

two ends of the panel are fixed on the outer side of one side wall of the shell (5) through counter bores;

the shaft barrel (62) is embedded in one side wall of the shell (5);

the input end of the second driving group (22) is connected with the output end of the first driving group (21) through a bearing in the shaft barrel (62).

5. The rinse arm for a nebulizer of claim 4, wherein:

the length of the first drive belt (211) is less than the length of the second drive belt (221).

6. The rinse arm for a nebulizer of claim 4,

also comprises a plurality of fixed seats (7);

the heads of the fixed seats (7) are respectively connected with the two ends of the atomizing arm (3) through bearings;

the bottoms of the fixed seats (7) are fixed with the bottom plate of the shell (5) in a threaded mode.

7. The rinse arm for a nebulizer of claim 6,

one of the inner side walls of the fixed seat (7) close to one side of the second driving group (22) is provided with a position sensor (71).

8. The rinse arm for a nebulizer of claim 4,

the bottom plate of the shell (5) is also provided with a through hole (51).

9. A method of using a cleaning arm for an atomizer, comprising:

the controller (8) detects a work stop signal, and the controller (8) sends a clockwise signal to the stepping motor (1);

the stepping motor (1) is started after receiving the clockwise signal, and drives the atomizing arm (3) of claims 1-6 to turn.

10. The method of using a wash arm for a nebulizer of claim 7,

the controller (8) detects a work starting signal, and the controller (8) sends the work starting signal to the stepping motor (1);

the stepping motor (1) is started after receiving the anticlockwise signal and drives the atomizing arm (3) to reset.

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