CN215813602U - Glasses cleaning machine - Google Patents

Abstract

The utility model provides a glasses cleaning machine, comprising: the cleaning device comprises a foam making system, a warm water system, a cleaning groove system, a cleaning cloth moving mechanism and a cleaning cloth drying mechanism; the warm water tap of the warm water system and the foam tap of the foam making system are arranged between the drying part of the cleaning cloth drying mechanism and the tank body of the cleaning tank system, and the warm water tap and the foam tap are positioned above the tank body of the cleaning tank system; the glasses cleaning machine provided by the utility model has the functions of cleaning agent foam lubrication and degreasing, warm water cleaning and rinsing, and warm-dried cleaning cloth for wiping frame glasses, so that the cleaning cloth is quickly dried, and the frame glasses with stains can be conveniently and quickly cleaned.

Description

Glasses cleaning machine

Technical Field

The utility model relates to the field of glasses cleaning, in particular to a method for cleaning frame glasses.

Background

With the popularization of electronic products, the number of people wearing the glasses is increasing. Eyeglasses are everyday items used by many people and often need to be washed to keep clean and bright. The glasses can be stained with dust, sweat stain, grease, scalp debris, cosmetics, skin care products and the like in the taking, putting and wearing processes. Generally, people usually use ultrasonic cleaning or hand washing.

Ultrasonic wave glasses cleaning machine, in the washing glasses in-process, accompanied with the noise of thorn ear, need take out the glasses from the washing liquid and wash the rinsing after having washed, lack the warm water supply usually during the rinsing, especially in chilly winter, hand travelling comfort is extremely poor, waits to wash the rinsing and finishes, when wiping with dry glasses cloth or paper handkerchief and wiping clean, usually finds to forget to carry dry glasses cloth or paper handkerchief, brings a great deal of inconvenience.

When the glasses are washed by hands, the glasses cannot be washed by lotion, warm water and warm dry glasses cloth, and a lot of inconvenience exists. In addition, after washing with a liquid-like detergent, the amount of water for rinsing is sometimes much larger than that for a foam-like detergent.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an eyeglass cleaning machine to solve the problems.

According to the present invention, there is provided a glasses washing machine comprising: the cleaning device comprises a foam making system, a warm water system, a cleaning groove system, a cleaning cloth moving mechanism and a cleaning cloth drying mechanism; the warm water tap of the warm water system and the foam tap of the foam making system are arranged between the drying part of the cleaning cloth drying mechanism and the tank body of the cleaning tank system, and the warm water tap and the foam tap are positioned above the tank body; the cleaning cloth moving mechanism is used for fixing at least one cleaning cloth and moving the fixed at least one cleaning cloth to a usable position or a drying position, and the cleaning cloth drying mechanism is used for drying the at least one cleaning cloth positioned at the drying position.

Preferably, the foam producing system further comprises a foam pump, a dilution bin, a liquid tank and a lotion tank, wherein a liquid outlet of the liquid tank is connected to the first liquid inlet of the dilution bin, a liquid outlet of the lotion tank is connected to the second liquid inlet of the dilution bin, a liquid outlet of the dilution bin is connected to a liquid inlet of the foam pump, and a liquid outlet of the foam pump is connected to the foam faucet.

Preferably, a first metering pump is arranged between the liquid outlet of the liquid tank and the first liquid inlet of the diluting bin, and the first metering pump is used for adjusting the water injection amount of the diluting bin; a second metering pump is further arranged between the liquid outlet of the lotion box and the second liquid inlet of the dilution bin, and the second metering pump is used for adjusting the injection amount of the lotion.

Preferably, the lotion tank further comprises a liquid level meter for monitoring the amount of lotion in the lotion tank.

Preferably, the liquid inlet of the liquid tank is connected with a main water inlet pipe, and a water inlet valve is arranged between the liquid inlet of the liquid tank and the main water inlet pipe; the liquid tank also comprises a water level controller used for controlling the water amount of the liquid tank.

Preferably, the warm water system further comprises a first water inlet pipe, a hot water module and a second water inlet pipe, the first water inlet pipe and the second water inlet pipe are connected in parallel to the main water inlet pipe, the first water inlet pipe is further connected to a liquid inlet of the hot water module, the hot water module is used for heating liquid, a liquid outlet of the hot water module is connected to a first liquid inlet of the mixing valve, a liquid outlet of the second water inlet pipe is connected to a second liquid inlet of the mixing valve, a water outlet of the mixing valve is connected to the warm water faucet, and warm water is discharged when the warm water faucet is opened.

Preferably, the cleaning cloth moving mechanism includes a moving assembly, at least one cleaning cloth hanger for hanging the cleaning cloth, and a lock member for driving the cleaning cloth hanger to move to a lock position; in the locking position, the free end of the cleaning cloth hanger is locked in the locking member.

Preferably, the cleaning cloth moving mechanism further comprises at least one cleaning cloth.

Preferably, the cleaning cloth drying mechanism includes a liquid tank, a heating member for heating the liquid in the liquid tank, and a temperature sensor for monitoring the temperature of the liquid in the liquid tank.

Preferably, a filter screen is arranged at a water outlet of the tank body of the cleaning tank system.

In summary, the glasses cleaning machine provided by the utility model comprises a bubble making system, a warm water system, a cleaning groove system, a cleaning cloth moving mechanism, a cleaning cloth drying mechanism and at least one replaceable cleaning cloth. The cleaning process noise of glasses is low, opens warm tap and foam tap through the selectivity during washing, has lotion foam lubrication concurrently and gets rid of the greasy dirt on glasses surface, and the rinsing is washd to the warm water, can use warm dry cleaning cloth to clean frame glasses after the washing, has realized cleaning cloth's fast drying, is convenient for wash fast clean frame glasses that have the filth.

Drawings

FIG. 1 is a schematic structural view of a glasses cleaning machine according to an embodiment of the present invention;

fig. 2 is a perspective view schematically illustrating an embodiment of the glasses-washing machine according to the present invention.

Detailed Description

In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.

Certain terms are used throughout the description and following claims to refer to particular components. As one of ordinary skill in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to.

Referring to fig. 1 and 2, a schematic structural diagram of an embodiment of the glasses cleaning machine according to the present invention is disclosed. The glasses washing machine 1 includes a bubble making system 10, a warm water system 20, a washing tub system 30, a cleaning cloth moving mechanism 40, and a cleaning cloth drying mechanism 50.

In this embodiment, the foam producing system 10 includes a foam tap 101, a foam outlet pipe 102, a foam pump 103, a dilution bin 104, a liquid tank 105, and a lotion tank 106. A liquid outlet of the liquid tank 105 is connected to a first liquid inlet of the dilution bin 104, a liquid outlet of the lotion tank 106 is connected to a second liquid inlet of the dilution bin 104, a liquid outlet of the dilution bin 104 is connected to a liquid inlet of the foam pump 103, and a liquid outlet of the foam pump 103 is connected to the foam tap 101 through the foam outlet pipe 102.

In a preferred embodiment, a first metering pump 107 is disposed between the liquid outlet of the liquid tank 105 and the first liquid inlet of the dilution bin 104, and the first metering pump 107 is used for adjusting the water injection amount of the dilution bin 104. A second metering pump 108 is arranged between the liquid outlet of the lotion tank 106 and the second liquid inlet of the dilution bin 104, and the second metering pump 108 is used for adjusting the lotion injection amount of the dilution bin 104. The dilution bin 104 is used to mix a specific amount of water and lotion injected to obtain diluted lotion, and the settings of the first and second metering pumps 107 and 108 are used to adjust the concentration of the diluted lotion. The foam pump 103 is used for generating lotion foam from the diluted lotion flowing out of the dilution bin 104, preferably in a ratio of generating a large amount of lotion foam, and the foam tap 101 discharges the lotion foam when being opened. Preferably, the lotion tank 106 is filled with concentrated lotion to reduce the frequency of dosing. In another embodiment, the lotion contained in the lotion tank 106 can be a commercially available lotion, or a lotion having a consistency adjusted, but the utility model is not limited thereto.

In a preferred embodiment, the liquid tank 105 of the brewing system 10 further includes a water level controller 109 for controlling the amount of water in the liquid tank, such as a float valve. When the water level in the liquid tank 105 is lower than the preset liquid level, the water level controller 109 opens the liquid inlet to add water; when the water level in the liquid tank 105 reaches the preset liquid level, the liquid level controller 109 closes the liquid inlet along with the rise of the liquid level, and stops adding water. Thereby, the liquid tank 105 realizes automatic water replenishment, and continuously maintains the amount of water prestored in the diluting bin 104, so as to maintain reasonable concentration of the diluted lotion and generate sufficient lotion foam at any time. In a preferred embodiment, the lotion tank 106 of the brewing system 10 further comprises a level gauge 110 for monitoring the amount of lotion in the tank 106 to avoid problems of non-timely replenishment and non-use. When the lotion volume is less than predetermineeing the liquid level, the suggestion supplements the lotion, can observe the suggestion of pilot lamp or touch screen from the machine outside, can also convey this information to the server, is convenient for real time monitoring and maintenance.

In the present embodiment, the warm water system 20 includes a warm water tap 201, a mixing valve 202, a first inlet pipe 203, a hot water module 204, a second inlet pipe 205, and a total inlet pipe 206. The input end of the main water inlet pipe 206 further comprises a water inlet valve 207 and a filter 208, the main water inlet pipe 206 is connected with a first water inlet pipe 203 and a second water inlet pipe 205 in parallel, a liquid inlet of the hot water module 204 is connected with the first water inlet pipe 203, a liquid outlet of the hot water module 204 is connected with a first liquid inlet of the mixing valve 202, the second water inlet pipe 205 is connected with a second liquid inlet of the mixing valve 202, a liquid outlet of the mixing valve 202 is connected with the warm water faucet 201, and warm water is discharged when the warm water faucet 201 is opened. The hot water module 204 may set its heating temperature or power for heating the liquid therein. Thus, the warm water tap 201 can discharge warm water having an appropriate temperature when it is turned on; preferably, the hot water module 204 can be a small kitchen appliance, a water heater, a quick heater, etc., and the utility model is not limited thereto.

In a preferred embodiment, the mains water inlet pipe 206 is also connected to the water inlet valve 111 and the water inlet pipe 112 of the brewing system 10 for supplying water to the brewing system 10.

In this embodiment, the cleaning tank system 30 includes a tank body 301, a filter screen 302, a drain pipe 303, and a main water outlet 304. The filter screen 302 is disposed at the water outlet of the tank 301 to filter the dropped small objects and prevent impurities from entering and blocking the drain pipe 303. The water outlet of the tank 301 is connected to a main water outlet 304 through a drain pipe 303, and the main water outlet 304 can be directly connected to a drain pipe or a floor drain and other pipes outside the glasses cleaning machine 1. One section of the drain pipe 303 is U-shaped, so that partial water can be kept, and odor in an external drain pipe or a floor drain is prevented from leaking to a cleaning space through the drain pipe.

In the present embodiment, the warm water tap 201 of the warm water system 20 and the foam tap 101 of the foam making system 10 are disposed between the drying part 501 and the tank body 301, and the warm water tap 201 and the foam tap 101 are located above the tank body 301. The warm water tap 201 and the foam tap 101 may be opened and closed by one of pressing, touching, infrared sensing, and the like. The warm water tap 201 and the foam tap 101 may be separately disposed above the tank 301, or may be integrally formed to have a wider tap shape, which is not limited in the present invention.

In this embodiment, the cleaning cloth moving mechanism 40 includes a moving assembly 401, at least one cleaning cloth hanger 402, and a lock member (not shown), a cleaning cloth 403. A cleaning cloth hanger 402 for hanging a cleaning cloth 403, and a cleaning cloth moving assembly 401 for driving the cleaning cloth hanger 402 to move the hanging cleaning cloth 403 to a dryable position; in a preferred embodiment, the cleaning cloth hanger 402 is a hook, and the free end of the hook is engaged and locked with the locking member to lock the cleaning cloth in the dryable position. As shown in FIG. 2, the number of the moving assemblies 401 can be equal to the number of the cleaning cloth hanging members 402, and the same moving assembly 401 can drive a plurality of cleaning cloth hanging members 402 to move simultaneously.

As shown in FIG. 1, the cleaning cloth 403 may have an aperture that is suspended in the cleaning cloth suspension 402. In other embodiments, the cleaning cloth 403 may be in other forms, and the utility model is not limited thereto. Taking the cleaning cloth 403 having the opening as an example, if the cleaning cloth 403 is hung in one cleaning cloth hanger 402, when the free end of the cleaning cloth hanger 402 is fitted and locked to the locking member, the cleaning cloth 403 hung in the cleaning cloth hanger 402 cannot be taken out, that is, the cleaning cloth 403 is locked in the cleaning cloth hanger 402. The moving assembly 401 drives the cleaning cloth hanger 402 to move to the usable position, at which time the cleaning cloth 403 can be taken off from the cleaning cloth hanger 402; preferably, in the usable position, the cleaning cloth hanger 402 is exposed for easy access of the cleaning cloth 403.

In the present embodiment, the cleaning cloth hanger 402 of the cleaning cloth moving mechanism 40 and the drying section 501 of the cleaning cloth drying mechanism 50 are disposed above the tank body 301. The moving assembly 401 of the cleaning cloth moving mechanism 40 ascends to drive at least one cleaning cloth 403 to a drying position, and the moving assembly 401 of the cleaning cloth moving mechanism 40 descends to drive at least one cleaning cloth 403 to a usable position. In other embodiments, the moving assembly 401 of the cleaning cloth moving mechanism 40 may also be disposed on the left side or the right side above the tank body side, and the moving direction may be ascending and descending, or translation, or a combination of ascending, descending and translation. For example, the moving assembly 401 is located on the left sidewall above the tank body, and can move out towards the upper right to drive the at least one cleaning cloth 403 to the usable position, and the moving assembly 401 returns towards the lower left to drive the at least one cleaning cloth 403 to the dryable position, which is not limited by the utility model.

In the present embodiment, the cleaning cloth drying mechanism 50 includes at least one drying portion 501, and the plurality of drying portions 501 are arranged at intervals from the plurality of cleaning cloth hangers 402 for heating and drying the cleaning cloth 403 hung from the cleaning cloth hangers 402, in other words, the cleaning cloth hangers 402 are arranged on one side or both sides of one drying portion 501, respectively. The heating members 506 may be used in the same manner for the plurality of drying sections 501, or the heating temperatures may be controlled by using a plurality of heating members 506, respectively.

Preferably, the cleaning cloth 403 and the cleaning cloth hanger 402 are visible in the locked position, or corresponding markers are provided at corresponding positions, so that the position of the cleaning cloth can be quickly determined.

The cleaning cloth drying mechanism 50 further includes a liquid tank 502, a heating member 506, and a temperature sensor 507. The liquid tank 502 contains liquid 503, the liquid 503 may be water or other liquid, such as distilled water, heat transfer oil, gallium or gallium-based liquid metal, and the liquid tank 502 further includes a liquid inlet cap 504 and a liquid outlet cap 505. In a preferred embodiment, the heating element 506 is disposed at a lower side or a rear side in the liquid tank 502, and the liquid tank 502 includes a plurality of drying parts 501, and the plurality of drying parts 501 may communicate at the rear side to share the heating element 506.

The temperature sensor 507 is used to monitor the temperature of the liquid in the liquid tank 502. In a preferred embodiment, when the temperature of the liquid in the liquid tank 502 is below a first threshold, the heating element 506 is energized to heat; when the temperature of the liquid in the liquid tank 502 is equal to or higher than the second threshold value, the heating member 506 is powered off or supplied with low power to keep the temperature within a safe temperature range; wherein the first threshold is lower than the second threshold. Preferably, the first threshold value ranges from 30 ℃ to 40 ℃, and the second threshold value ranges from 40 ℃ to 60 ℃. Further, preferably, the first threshold is 35 ℃ and the second threshold is 50 ℃. In the temperature range, the outside of the liquid tank is kept in a proper temperature range, and a user cannot be scalded by touching. In addition, the cleaning cloth heated by the warm drying area is always in a comfortable state of human body contact, so that the cleaning cloth is convenient to take and use.

In the present embodiment, the glasses washing machine 1 further includes a human-machine interface (not shown in the figure). Which may be a lock of firmware, is moved by a corresponding key-actuated movement assembly 401. The locking piece and the key can be a solid lock or an RFID lock. The human-computer interface may also be a keyboard or a touch screen, so that the corresponding mobile component 401 may be driven to move by inputting correct verification information. The human-computer interaction interface may further include a two-dimensional code and a network interface, and the corresponding moving component 401 is driven to move in a code scanning unlocking manner, which is not limited in the present invention. The human-computer interface can be arranged corresponding to the position of each composite cleaning cloth hanging part 402 or can be arranged in a centralized way. In other embodiments, the human-machine interface may also be used to move the composite cleaning cloth hanger 402.

In this embodiment, the glasses washing machine 1 further includes a machine body cabinet 60 for accommodating and hiding the drain pipe 303 under the tank body 301, other parts than the warm water tap 201 in the warm water system 20, and other parts than the foam tap 101 in the foam making system 10 to form a uniform appearance.

In summary, the present invention provides a glasses cleaning machine, which comprises a bubble making system, a warm water system, a cleaning tank system, a cleaning cloth moving mechanism and a cleaning cloth drying mechanism; the warm water tap of the warm water system and the foam tap of the foam making system are arranged between the drying part of the cleaning cloth drying mechanism and the tank body of the cleaning tank system, and the warm water tap and the foam tap are positioned above the cleaning tank system. According to the glasses cleaning machine provided by the utility model, the noise in the glasses cleaning process is low, the warm water faucet and the foam faucet are selectively opened during cleaning, the functions of cleaning agent foam lubrication and degreasing, warm water cleaning and rinsing and wiping the glasses on the frame by the warm dry cleaning cloth are realized, the rapid drying of the cleaning cloth is realized, and the glasses on the frame with the stains can be conveniently and rapidly cleaned.

The present invention has been described in relation to the above embodiments, which are only exemplary of the implementation of the present invention. It should be noted that the disclosed embodiments do not limit the scope of the utility model. Rather, it is intended that all such modifications and variations be included within the spirit and scope of this invention.

Claims (10)

1. An eyeglass cleaning machine, comprising: the cleaning device comprises a foam making system, a warm water system, a cleaning groove system, a cleaning cloth moving mechanism and a cleaning cloth drying mechanism;

the warm water tap of the warm water system and the foam tap of the foam making system are arranged between the drying part of the cleaning cloth drying mechanism and the tank body of the cleaning tank system, and the warm water tap and the foam tap are positioned above the tank body; the cleaning cloth moving mechanism is used for fixing at least one cleaning cloth and moving the fixed at least one cleaning cloth to a usable position or a drying position, and the cleaning cloth drying mechanism is used for drying the at least one cleaning cloth positioned at the drying position.

2. The eyewear cleaning machine of claim 1 wherein the foam generating system further comprises a foam pump, a dilution chamber, a liquid tank and a lotion tank, wherein a liquid outlet of the liquid tank is connected to a first liquid inlet of the dilution chamber, a liquid outlet of the lotion tank is connected to a second liquid inlet of the dilution chamber, a liquid outlet of the dilution chamber is connected to a liquid inlet of the foam pump, and a liquid outlet of the foam pump is connected to the foam faucet.

3. The glasses cleaning machine according to claim 2, wherein a first metering pump is further disposed between the liquid outlet of the liquid tank and the first liquid inlet of the diluting compartment, the first metering pump being adapted to adjust a water injection amount of the diluting compartment; a second metering pump is further arranged between the liquid outlet of the lotion box and the second liquid inlet of the dilution bin, and the second metering pump is used for adjusting the injection amount of the lotion.

4. The eyewear washing machine of claim 2 wherein the wash tank further comprises a level meter for monitoring the amount of wash in the wash tank.

5. The eyewear cleaning machine of claim 2 wherein the inlet port of the fluid tank is connected to a main inlet pipe, and a feed valve is further provided between the inlet port of the fluid tank and the main inlet pipe; the liquid tank also comprises a water level controller used for controlling the water amount of the liquid tank.

6. The glasses cleaning machine according to claim 1, wherein the warm water system further comprises a first water inlet pipe, a hot water module and a second water inlet pipe, the first water inlet pipe and the second water inlet pipe are connected in parallel to the main water inlet pipe, the first water inlet pipe is further connected to a liquid inlet of the hot water module, the hot water module is used for heating liquid, a liquid outlet of the hot water module is connected to a first liquid inlet of the mixing valve, a liquid outlet of the second water inlet pipe is connected to a second liquid inlet of the mixing valve, a water outlet of the mixing valve is connected to the warm water faucet, and the warm water faucet discharges warm water when being opened.

7. The eyewear washing machine of claim 1 wherein the cleaning cloth moving mechanism comprises a moving assembly, at least one cleaning cloth hanger for hanging the cleaning cloth, and a lock member, the moving assembly for driving the cleaning cloth hanger to move to a locked position; in the locking position, the free end of the cleaning cloth hanger is locked in the locking member.

8. The eyewear cleaning machine of claim 7 wherein: the cleaning cloth moving mechanism further comprises at least one cleaning cloth.

9. The eyewear washing machine of claim 1 wherein the cleaning cloth drying mechanism includes a liquid tank, a heating element for heating the liquid in the liquid tank, and a temperature sensor for monitoring the temperature of the liquid in the liquid tank.

10. The glasses cleaning machine according to claim 1, wherein a filtering net is provided at a tank body water outlet of the cleaning tank system.

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