CN221225212U - Swing type glasses cleaning device - Google Patents

Abstract

The utility model relates to a swinging type glasses cleaning device, and belongs to the technical field of cleaning instruments. The cleaning device comprises a shell, wherein a cleaning tank is arranged in the shell, a flushing system is arranged above one side of the cleaning tank, a flow guide system is arranged between the cleaning tank and the flushing system, one side of the flow guide system is provided with a glasses bracket, glasses bodies are erected on the glasses bracket, drying systems are arranged on two sides of the glasses bodies, and the glasses bracket rotates in the shell and drives the glasses bodies to rotate; when the glasses bracket rotates into the cleaning tank, the glasses bracket swings back and forth in the cleaning tank; when the glasses support rotates into the flushing system, the glasses body on the glasses support is opposite to the flushing system, and the diversion system faces towards the flushing system. According to the utility model, the glasses bracket swings in the cleaning tank for cleaning, so that the cleanliness is greatly improved, extra steps are not needed for drying after flushing, and the service life of the glasses body is prolonged.

Description

Swing type glasses cleaning device

Technical Field

The utility model relates to the technical field of cleaning instruments, in particular to a swinging type glasses cleaning device.

Background

Although non-contact ultrasonic cleaning is generally adopted in the glasses care machine, the cleaning effect is not ideal. Often, the lens surface remains with residue and a large amount of liquid will adhere to the lens surface after removal. In order to clean the surface of the lens, people usually wipe with tools such as glasses cloth, but the phenomenon of horizontal stripes or vertical stripes may appear after wiping, which not only does not realize the real cleaning effect, but also does not completely eliminate the trace on the surface of the glasses lens. In addition, wiping with a spectacle cloth may lead to lens wear due to particles remaining on the lens surface.

Therefore, how to avoid using tools to wipe lenses so as to prolong the service life of the glasses becomes a technical problem which needs to be solved in the society at present.

Disclosure of utility model

The present inventors have aimed at the above-mentioned drawbacks of the prior art and have provided a swing type glasses cleaning device, which can not only improve the cleanliness, but also improve the service life of the glasses body.

The technical scheme adopted by the utility model is as follows: the swing type glasses cleaning device comprises a shell, wherein a cleaning tank is arranged in the shell, a flushing system is arranged above one side of the cleaning tank, a flow guide system is arranged between the cleaning tank and the flushing system, one side of the flow guide system is provided with a glasses support, glasses bodies are erected on the glasses support, drying systems are arranged on two sides of the glasses bodies, and the glasses support rotates in the shell and drives the glasses bodies to rotate; when the glasses bracket rotates into the cleaning tank, the glasses bracket swings back and forth in the cleaning tank; when the glasses support rotates into the flushing system, the glasses body on the glasses support is opposite to the flushing system, and the diversion system faces towards the flushing system.

As a further improvement of the above technical scheme:

Preferably, the cleaning tank is a hollow cavity in the interior, the cavity is positioned at the lower part of the rotation direction of the glasses bracket, cleaning objects are arranged in the cavity, the bottom of the glasses bracket swings back and forth in the cleaning tank, so that the glasses body and the cleaning objects are continuously rubbed in a reciprocating manner, and the cleanliness is improved.

Preferably, the flushing system has a structure as follows: the device comprises a flushing water pump arranged at the bottom of the shell, wherein a water outlet of the flushing water pump is connected with a flushing water inlet, and flushing fluid enters a flushing pipeline after passing through the flushing water inlet and is split towards two sides; the two sides of the flushing pipeline are provided with flushing water outlets which are positioned above the flushing positions of the glasses; the flushing water inlet is positioned below the middle part of the flushing pipeline, and the flushing water outlet is positioned at the end parts of the two sides of the flushing pipeline.

Preferably, the structure of the glasses bracket is as follows: the device comprises a first rotating motor arranged on the outer side wall of a shell, wherein an output shaft of the first rotating motor penetrates through the shell and is connected with one side of a support mounting plate in the shell, and the other side of the support mounting plate is movably connected with the inner side wall of the shell through a mounting plate connecting piece; the clamping piece is arranged in the support mounting plate, and the glasses body is erected on the clamping piece.

Preferably, the structure of the diversion system is as follows: the device comprises a second rotating motor arranged on the outer side wall of a shell, wherein an output shaft of the second rotating motor penetrates through the shell and is connected with one side of a guide plate in the shell, and the other side of the guide plate is movably connected with the inner side wall of the shell through a plate body connecting piece.

Preferably, the baffle is provided with a drain hole on a side close to the flushing system.

Preferably, the shell is a box body structure with an open top, and comprises an upper shell and a lower shell.

Preferably, the upper shell is matched with the lower shell from top to bottom, the tail end of the upper shell is connected with the lower shell through a clamping piece, a motor protection shell is further installed on the outer side wall of the lower shell, and the motor protection shell covers the first rotating motor and the second rotating motor inside, so that the first rotating motor and the second rotating motor are protected from being influenced by external environments, and the service life of the whole equipment is prolonged.

The beneficial effects of the utility model are as follows:

The utility model has reasonable structure, the glasses body is firstly brought into the cleaning tank by utilizing the mode of driving the glasses body by the glasses bracket to do reciprocating swing, so that the glasses body is in back and forth friction contact with the cleaning object in the cleaning tank, and the cleaning degree is greatly improved; then take the glasses body into rinse-system, wash the delivery port through top both sides and wash the washing of delivery port to glasses, the washings no longer adhere to the lens surface, and whole device's structure is compacter, and degree of automation is high.

The utility model also has the following advantages:

(1) When the glasses bracket is at the cleaning position, the glasses bracket swings back and forth in the cleaning tank, and at the moment, the guide plate inclines to the direction of the cleaning tank, so that cleaning objects cannot overflow along with the swing; when the flushing position is reached, the guide plate inclines to the flushing system, and the fallen flushing liquid returns to the flushing system again through the water discharge hole along with the inclination angle of the guide plate, so that circulation is realized;

(2) The utility model is firstly cleaned, then washed and finally dried, and after the steps are completed, the glasses can be directly taken out and worn without cleaning work such as wiping, thereby saving time and energy and prolonging the service life of the lenses.

Drawings

FIG. 1 is a schematic diagram of the overall explosive structure of the present utility model.

Fig. 2 is a schematic diagram of the internal structure of the present utility model. (concealing the upper case)

Fig. 3 is a perspective view of fig. 2. (concealing the lower case)

Fig. 4 is a side view of fig. 3.

FIG. 5 is a schematic view showing the structure of the cleaning state of the present utility model.

FIG. 6 is a schematic view showing the structure of the flushing state of the present utility model.

Fig. 7 is a schematic structural diagram of the diversion system of the present utility model.

Fig. 8 is a schematic view showing the external structure of the glasses frame according to the present utility model.

Fig. 9 is a schematic diagram of the cooperation of the glasses body and the glasses frame according to the present utility model.

Fig. 10 is a schematic view of the internal structure of fig. 8.

Fig. 11 is a schematic view of the structure of the housing of the present utility model.

Fig. 12 is a schematic view of the internal structure of the upper housing of the present utility model.

Wherein: 1. an upper housing; 2. a lower housing; 3. a cleaning tank; 4. a flushing system; 5. a glasses bracket; 6. a diversion system; 7. a drying system; 8. a glasses body; 9. a motor protective housing;

101. A slide rail; 102. a clamping piece;

401. A flushing water pump; 402. flushing the water inlet; 403. flushing the pipeline; 404. flushing a water outlet;

501. a first rotating motor; 502. a bracket mounting plate; 503. a clamping member; 504. a knob; 505. a mounting plate connector;

601. A second rotating motor; 602. a deflector; 603. a board body connecting piece; 604. a water discharge hole;

50301. A connecting rod; 50302. a pushing block; 50303. a limiting block; 50304. and (3) a spring.

Detailed Description

The following describes specific embodiments of the present utility model with reference to the drawings.

As shown in fig. 1-12, the swing-type glasses cleaning device of the embodiment comprises a housing, wherein a cleaning tank 3 is arranged inside the housing, a flushing system 4 is arranged above one side of the cleaning tank 3, a flow guiding system 6 is installed between the cleaning tank 3 and the flushing system 4, a glasses support 5 is arranged on one side of the flow guiding system 6, a glasses body 8 is erected on the glasses support 5, drying systems 7 are arranged on two sides of the glasses body 8, and the glasses support 5 rotates inside the housing and drives the glasses body 8 to rotate.

As shown in fig. 5, in the present embodiment, when the glasses bracket 5 rotates into the washing tank 3, the diversion system 6 is inclined toward the direction of the washing tank 3, and the glasses bracket 5 swings back and forth in the washing tank 3;

In this embodiment, as shown in fig. 6, the eyeglass frame 5 is rotated into the rinse system 4 to a horizontal position, and the deflector system 6 is tilted toward the rinse system 4.

In this embodiment, the cleaning tank 3 is a hollow cavity, the cavity is located at the lower part of the rotation direction of the glasses bracket 5, and cleaning objects are arranged in the cavity, the bottom of the glasses bracket 5 swings back and forth in the cleaning tank 3, so that the glasses body 8 and the cleaning objects continuously rub back and forth, and the cleanliness is improved.

In this embodiment, the flushing system 4 has the following structure: the device comprises a flushing water pump 401 arranged at the bottom of the shell, wherein a water outlet of the flushing water pump 401 is connected with a flushing water inlet 402, and flushing fluid enters a flushing pipeline 403 after passing through the flushing water inlet 402 and is split towards two sides; the two sides of the flushing pipeline 403 are provided with flushing water outlets 404, the flushing water outlets 404 are positioned above the flushing position of the glasses, the flushing water inlets 402 are positioned below the middle part of the flushing pipeline 403, the flushing water outlets 404 are positioned at the end parts of the two sides of the flushing pipeline 403, and the flushing pipeline 403 can be made into a U-shaped structure as a whole by way of example.

In the present embodiment, the structure of the glasses frame 5 is: the motor comprises a first rotating motor 501 arranged on the outer side wall of a shell, wherein an output shaft of the first rotating motor 501 penetrates through the shell and is connected with one side of a bracket mounting plate 502 in the shell, and the other side of the bracket mounting plate 502 is movably connected with the inner side wall of the shell through a mounting plate connecting piece 505; the holder mounting plate 502 is internally provided with a holding member 503, and the eyeglass body 8 is mounted on the holding member 503.

In this embodiment, the knob 504 is installed at the center of the bracket mounting plate 502, and the clamping member 503 has the following structure: the device comprises a connecting rod 50301, wherein one end of the connecting rod 50301 is connected with a knob 504, and the other end of the connecting rod 50301 is connected with a push block 50302; the push block 50302 is mounted on the limiting block 50303, a spring 50304 is arranged in the push block 50302 along the extending direction of the limiting block 50303, a force continuously acting on the tail of the limiting block 50303 is applied to the push block 50302 through elastic potential energy of the spring 50304, when clamping is needed, the knob 504 is twisted, the push block 50302 is driven to slide in the opposite direction through the connecting rod 50301, and the push block 50302 is released after being placed into the glasses body 8 for clamping.

In this embodiment, the structure of the diversion system 6 is: the motor comprises a second rotating motor 601 arranged on the outer side wall of a shell, an output shaft of the second rotating motor 601 penetrates through the shell and is connected with one side of a guide plate 602 in the shell, and the other side of the guide plate 602 is movably connected with the inner side wall of the shell through a plate body connecting piece 603.

In the present embodiment, the baffle 602 is provided with a drain hole 604 on the side close to the flushing system 4.

In this embodiment, the casing is a box structure with an open top, and includes an upper casing 1 and a lower casing 2, where the upper casing 1 and the lower casing 2 are matched up and down, the end of the upper casing 1 is connected with the lower casing 2 through a clamping piece 102, and a motor protection shell 9 is further installed on the outer side wall of the lower casing 2; the motor protection case 9 covers the first rotary motor 501 and the second rotary motor 601 inside.

In the present embodiment, the upper housing 1 is internally fitted with a slide rail 101 matching the drying system 7.

In this embodiment, the structure of the drying system 7 is as follows: 2023, 06, 27, patent publication No.: the glasses mirror surface drying mechanism of CN219266716U is used for fixedly supporting the glasses body 8 on the glasses bracket 5, cotton assemblies are respectively arranged at two sides of the glasses, the cotton assemblies at two sides are driven by the moving driving mechanism to move oppositely, and the cotton assemblies at two sides are respectively close to two sides of the glasses until being attached; the cotton assemblies on two sides which are mutually stuck are used for containing the corresponding lenses inside; the cotton components on two sides are driven to be oppositely stuck to two sides of the lens by the movable driving mechanism, and the cotton components are used for simultaneously carrying out contact water absorption on the cleaned lens from two sides, so that the drying of the mirror surface of the glasses is realized, the further cleaning treatment of the glasses is effectively assisted, and the drying and cleaning effects are good.

In this embodiment, the working method of the present utility model is as follows:

Step one: opening the upper shell 1 to put the glasses body 8 on the glasses bracket 5 for clamping;

Step two: the second rotating motor 601 is started to drive the guide plate 602 to rotate, so that the guide plate 602 is inclined towards the direction of the cleaning tank 3; then, the first rotating motor 501 is started to drive the glasses bracket 5, so that the glasses body 8 enters the cleaning tank 3 and swings back and forth along with the glasses bracket 5;

Step three: when the preset cleaning time is reached, the first rotating motor 501 rotates and drives the glasses bracket 5 to return to the horizontal position, and at the moment, the glasses body 8 is positioned below the flushing water outlet 404 of the flushing system 4;

Step four: the flushing water pump 401 is started to pump flushing fluid, the flushing fluid enters from the flushing water inlet 402, is split to two sides through the flushing pipeline 403 and flows out from the flushing water outlet 404, the lens of the glasses body 8 is directly flushed due to the influence of gravity, and the flushed flushing fluid continuously falls down to flush the inside of the flushing system 4;

Step five: after the rinsing is completed, the drying system 7 is started, and the lens is extruded so that the liquid remained on the lens is transferred;

Step six: the glasses body 8 is taken out.

The utility model has reasonable structure, convenient operation and high degree of automation, the eyeglass body 8 is clamped by the clamping piece 503 on the eyeglass bracket 5, then the first rotating motor 501 of the eyeglass bracket 5 drives the eyeglass bracket 3 to enter the cleaning tank 3 to swing reciprocally, so that the lenses and cleaning objects of the eyeglass body 8 are rubbed continuously, and the cleaning degree is greatly improved; then the lens is washed by the washing system 4, and finally is dried by the drying system 7, and after different cleaning modes, cleaning work such as wiping is not needed, so that time and energy can be saved, and the service life of the lens can be prolonged better.

The above description is intended to illustrate the utility model and not to limit it, the scope of which is defined by the claims, and any modifications can be made within the scope of the utility model.

Claims (10)

1. A swinging glasses cleaning device, which is characterized in that: the novel glasses comprise a shell, wherein a cleaning tank (3) is arranged in the shell, a flushing system (4) is arranged above one side of the cleaning tank (3), a flow guide system (6) is arranged between the cleaning tank (3) and the flushing system (4), a glasses support (5) is arranged on one side of the flow guide system (6), glasses bodies (8) are erected on the glasses support (5), drying systems (7) are arranged on two sides of the glasses bodies (8), and the glasses support (5) rotates in the shell and drives the glasses bodies (8) to rotate;

When the glasses bracket (5) rotates into the cleaning tank (3), the glasses bracket (5) swings back and forth in the cleaning tank (3).

2. The oscillating eyeglass cleaning device of claim 1, wherein: the cleaning tank (3) is a hollow cavity, and the cavity is positioned at the lower part of the eyeglass bracket (5) in the rotating direction and is internally provided with cleaning objects.

3. The oscillating eyeglass cleaning device of claim 1, wherein: the flushing system (4) is structured as follows: the water flushing device comprises a flushing water pump (401) arranged at the bottom of a shell, wherein a water outlet of the flushing water pump (401) is connected with a flushing water inlet (402), flushing fluid enters a flushing pipeline (403) after passing through the flushing water inlet (402) and is split towards two sides, and flushing water outlets (404) are formed in two sides of the flushing pipeline (403).

4. A swing eyeglass cleaning device according to claim 3, wherein: the flushing water inlet (402) is positioned below the middle part of the flushing pipeline (403), the flushing water outlet (404) is positioned at the end parts of the two sides of the flushing pipeline (403), and the flushing water outlet (404) is positioned above the flushing position of the glasses.

5. The oscillating eyeglass cleaning device of claim 1, wherein: the structure of the glasses bracket (5) is as follows: the device comprises a first rotating motor (501) arranged on the outer side wall of a shell, wherein an output shaft of the first rotating motor (501) penetrates through the shell and is connected with one side of a support mounting plate (502) in the shell, and the other side of the support mounting plate (502) is movably connected with the inner side wall of the shell through a mounting plate connecting piece (505);

the clamping piece (503) is arranged in the bracket mounting plate (502), and the glasses body (8) is erected on the clamping piece (503).

6. The oscillating eyeglass cleaning device of claim 1, wherein: the structure of the diversion system (6) is as follows: comprises a second rotating motor (601) arranged on the outer side wall of the shell, an output shaft of the second rotating motor (601) penetrates through the shell and is connected with one side of a guide plate (602) in the shell, the other side of the guide plate (602) is movably connected with the inner side wall of the shell through a plate body connecting piece (603).

7. The oscillating eyeglass cleaning device of claim 6, wherein: the deflector (602) is provided with a drain hole (604) on the side close to the flushing system (4).

8. The oscillating eyeglass cleaning device of claim 1, wherein: the shell is of a box body structure with an open top, and comprises an upper shell (1) and a lower shell (2) which are matched with each other.

9. The oscillating eyeglass cleaning device of claim 8, wherein: the upper shell (1) is matched with the lower shell (2) up and down, the tail end of the upper shell (1) is connected with the lower shell (2) through a clamping piece (102), a motor protection shell (9) is further installed on the outer side wall of the lower shell (2), and the motor protection shell (9) covers the first rotating motor (501) and the second rotating motor (601) inside.

10. The oscillating eyeglass cleaning device of claim 1, wherein: when the glasses support (5) rotates into the flushing system (4), the glasses body (8) on the glasses support (5) is opposite to the flushing system (4), and the diversion system (6) faces towards the flushing system (4).