CN114019701B - Ultrasonic cleaner without damaging glasses coating film - Google Patents

Abstract

The invention provides an ultrasonic cleaner without damaging a film of glasses, which comprises a main body, wherein a liquid storage tank is arranged in the main body, a mounting groove is arranged at the bottom of the main body, a discharge port and a plurality of ultrasonic transducers are arranged in the mounting groove, and the discharge port is communicated with the liquid storage tank. The invention can solve the technical problems that most of glasses are cleaned by using the glasses cloth at present, the original dust on the glasses is often driven to move in the process of cleaning the lenses so that the lenses are scratched by the dust, the long-term cleaning of the glasses cloth can lead to the fact that scratches are distributed on the lenses to influence the sight, and meanwhile, the glasses cloth cannot clean the areas such as slots and the like.

Description

Ultrasonic cleaner without damaging glasses coating film

Technical Field

The invention relates to the technical field of ultrasonic cleaning, in particular to an ultrasonic cleaning machine for coating films of glasses without damaging the glasses.

Background

The glasses are worn for a long time, and the lenses of the glasses are covered with dust and grease, which may accumulate at corners of the glasses, including the slots between the frame and the lenses, the pad areas around the nose, and the fold of the frame. Long-time accumulation can influence our use, and the lens can become fuzzy, and most glasses are clean all to clean it with the glasses cloth at present, often can drive original dust motion on the glasses at the in-process of cleaning the lens and make the glasses by the dust fish tail, take the glasses cloth clean for a long time can lead to the glasses to be covered with the scratch and influence the sight on the lens, and the glasses cloth is clean can not reach the region such as slot simultaneously.

Disclosure of Invention

The invention provides an ultrasonic cleaner without damaging a glass coating film, which is used for solving the technical problems that most of glasses are cleaned by using glass cloth at present, original dust on the glasses is often driven to move in the process of cleaning the lenses so that the lenses are scratched by the dust, scratches are fully distributed on the lenses to influence the sight line when the glasses are cleaned by taking the glass cloth for a long time, and meanwhile, the glass cloth cannot be cleaned in the areas such as slots.

In order to solve the technical problems, the invention discloses an ultrasonic cleaner without damaging a coated film of glasses, which comprises a main body, wherein a liquid storage tank is arranged in the main body, a mounting groove is arranged at the bottom of the main body, a discharge port and a plurality of ultrasonic transducer assemblies are arranged in the mounting groove, and the discharge port is communicated with the liquid storage tank.

Preferably, the ultrasonic transducer comprises a battery/mains supply module, an ultrasonic generator module, an insulating sheet and a square sheet, wherein the battery/mains supply module, the ultrasonic generator module and the square sheet are electrically connected, the insulating sheet is adhered to the bottom of the liquid storage tank, the square sheet is adhered to the insulating sheet, the battery/mains supply module is used for supplying power to the ultrasonic generator module, and the ultrasonic generator module is a switch power supply of a self-excited or separately excited circuit and is used for automatically acquiring the optimal working frequency of the cleaning equipment to drive the square sheet to work.

Preferably, the square sheet is cuboid and is made of piezoelectric ceramic material;

the square sheet includes a length dimension, a width dimension, and a thickness dimension, one of which is used to control the output frequency of the ultrasonic transducer assembly, and the other of which is used to vary the power capacity of the ultrasonic transducer assembly.

Preferably, the drying slide rail is slidingly connected to the main body, the transverse adjusting slide block is slidingly connected to the drying slide rail, a slide block driving piece is arranged on the transverse adjusting slide block and used for driving the transverse adjusting slide block to move along the drying slide rail, a longitudinal guide rod is fixedly connected to the transverse adjusting slide block, a drying main body is slidingly connected to the longitudinal guide rod, and a main body driving piece is arranged on the drying main body and used for driving the drying main body to slide along the longitudinal guide rod.

Preferably, the main body is provided with a cleaning solution mixing mechanism, the cleaning solution mixing mechanism comprises a mechanism shell, a stirring shell is arranged in the mechanism shell, a stirring main body is arranged in the stirring shell, the stirring main body comprises a first driving piece, the output end of the first driving piece is connected with a stirring paddle, the stirring shell is provided with an inlet, a first outlet and a second outlet, the first outlet is provided with a fluid channel, a plugging plug is arranged in the second outlet, an auxiliary mechanism mounting cavity is arranged in the mechanism shell, and an auxiliary mechanism is arranged in the auxiliary mechanism mounting cavity;

The auxiliary mechanism comprises a first through hole, the first through hole is formed in the auxiliary mechanism mounting cavity, a T-shaped button is sleeved in the first through hole, a first elastic piece is sleeved on the T-shaped button, a mechanism mounting shell is arranged in the auxiliary mechanism mounting cavity, a first auxiliary rack, a second auxiliary rack and an auxiliary gear are arranged in the mechanism mounting shell, two sides of the auxiliary gear are respectively meshed with the first auxiliary rack and the second auxiliary rack, the first auxiliary rack and the second auxiliary rack are both in sliding connection in the mechanism mounting shell, one end of the T-shaped button is positioned outside the mechanism shell, the other end of the T-shaped button is positioned in the mechanism mounting shell, a blocking piece is fixedly connected to the second auxiliary rack, a blocking guide groove is formed in the mechanism mounting shell, a cleaning gear is rotatably connected to the mechanism shell, a miniature transverse guide groove is formed in the mechanism shell, an L-shaped meshing tube is arranged on the miniature transverse guide groove, the L-shaped meshing tube is meshed with the cleaning gear, one end of the L-shaped meshing tube is positioned in the mechanism mounting shell, and is provided with a first electromagnet, and is correspondingly connected with a cleaning electromagnet;

The fluid channel is internally provided with a guide rail and a sliding door, the guide rail is connected with a switch slide block in a sliding way, the switch slide block is provided with a fourth driving piece, the fourth driving piece is used for driving the switch slide block to slide along the guide rail, the sliding door is fixedly connected with a connecting slide block, the switch slide block is hinged with a switch connecting rod, one end of the switch connecting rod, which is far away from the switch slide block, is hinged with the connecting slide block, the fluid channel is internally provided with a flow regulating mechanism, and the flow regulating mechanism is used for regulating the flow of the fluid channel;

the fluid channel outlet is located in the reservoir.

Preferably, the flow regulating mechanism comprises a flow regulating plate, one end of the flow regulating plate, which is positioned outside the fluid channel, is hinged in the mechanism shell, and is connected with a regulating meshing block in a coaxial hinged manner on a hinge connection point, a first sliding groove and a second sliding groove are arranged in the mechanism shell, the first sliding groove and the second sliding groove are mutually perpendicular, a first regulating rack is connected in the first sliding groove in a sliding manner, a second regulating rack is connected in the second sliding groove in a sliding manner, the regulating meshing block is meshed with the first regulating rack in a sliding manner, and one end of the second regulating rack, which is positioned outside the mechanism shell, is fixedly connected with a pressing block, and a second elastic piece is fixedly connected on the pressing block.

Preferably, an adjusting mechanism is arranged in the main machine body, and the adjusting mechanism comprises a machine body cover adjusting mechanism and a bearing net adjusting mechanism;

the machine body cover adjusting mechanism comprises a machine body cover adjusting mechanism mounting cavity, a first belt pulley, a second belt pulley, a first meshing wheel and a second meshing wheel are rotatably connected in the machine body cover adjusting mechanism mounting cavity, the first belt pulley is coaxial with the first meshing wheel, the second belt pulley is coaxial with the second meshing wheel, a conveyor belt is arranged between the first belt pulley and the second belt pulley, a placing opening is arranged on the machine body, a meshing cover is slidably connected on the machine body, the meshing cover is meshed with the first meshing wheel, an adjusting rack is arranged in the machine body cover adjusting mechanism mounting cavity, the adjusting rack is meshed with the second meshing wheel, a connecting block is fixedly connected on the adjusting rack, one end of the connecting block, which is positioned outside the machine body, is sleeved with an adjusting screw, a second driving piece is arranged on the adjusting screw and used for driving the adjusting screw to rotate;

the bearing net adjusting mechanism is arranged in the liquid storage tank, a plurality of clamping grooves are symmetrically formed in the inner wall of the liquid storage tank, a bearing net is clamped between the corresponding clamping grooves, the bearing net is internally provided with the clamping mechanism, and the bottom of the bearing net is fixedly connected with a lifting adjusting piece;

The clamping mechanism comprises clamping blocks, clamping block mounting grooves are symmetrically formed in the bearing net, the clamping blocks are slidably connected in the clamping block mounting grooves, sealing gaskets are arranged at the outlets of the clamping block mounting grooves, third elastic pieces are fixedly connected to the clamping blocks, one ends of the third elastic pieces are far away from the clamping blocks, the bottoms of the clamping block mounting grooves are fixedly connected, adjusting steel ropes are fixedly connected to the clamping blocks, an adjusting mechanism mounting cavity is formed in the bearing net, a first steel rope connecting rack, a second steel rope connecting rack and a steel rope adjusting gear are arranged in the adjusting mechanism mounting cavity, a third driving piece is arranged on the steel rope adjusting gear and used for driving the steel rope adjusting gear to rotate, two sides of the steel rope adjusting gear are respectively meshed with the first steel rope connecting rack and the second steel rope connecting rack, a first reel and a second reel are further arranged in the adjusting mechanism mounting cavity, and the two adjusting steel ropes are far away from the clamping blocks and are sequentially connected with the first reel and the second reel through the first steel rope connecting rack and the second reel.

Preferably, the method further comprises:

the glasses drying mechanism, the glasses drying mechanism is installed in the host computer is internal for after glasses washs, carry out drying process to glasses, the glasses drying mechanism includes:

the heating lamp tube is used for heating air in the main machine body;

the fresh air system is used for promoting the rapid circulation of air in the main machine body;

the system comprises a drying mechanism fault alarm system, a control system and a control system, wherein the drying mechanism fault alarm system is used for monitoring the working state of the glasses drying mechanism and giving an alarm in time when the glasses drying mechanism breaks down;

the drying mechanism fault alarm system comprises:

the humidity sensor is arranged in the main body and used for detecting the humidity of air in the main body;

the flow rate sensor is arranged in the main machine body and is used for detecting the air flow rate in the main machine body;

the temperature sensor is arranged in the main machine body and is used for detecting the heating temperature of the heating lamp tube in the main machine body;

the timer is arranged on the heating lamp tube and is used for detecting the working time of the heating lamp tube;

The controller is electrically connected with the humidity sensor, the flow rate sensor, the temperature sensor, the timer and the alarm, and the controller controls the alarm to alarm based on the humidity sensor, the flow rate sensor, the temperature sensor and the timer based on the following steps:

step one: based on the humidity sensor, the flow rate sensor and formula (1), calculating an actual effective dehumidification amount of the fresh air system:

wherein Q is _st For the actual effective amount of dehumidification of the fresh air system, τ is the density, δ, of the air in the main body ₂ For the humidity of the air in the main body before the operation of the glasses drying mechanism, namely the detection value delta of the humidity sensor ₁ For the humidity of the air in the main body after the operation of the glasses drying mechanism is finished, namely the detection value of the humidity sensor, alpha is the existence of the fresh air systemThe effective duty ratio coefficient, beta is the safety coefficient of the fresh air system, e is a natural number, the value is 2.72,for the actual flow rate of air in said main body, i.e. the detection value of said flow rate sensor,/->The method comprises the steps of presetting the flow rate of air in a main body;

Step two: calculating an actual integrated effective dehumidification amount of the eyeglass drying mechanism based on the humidity sensor, the temperature sensor, the timer, step one, and formula (2):

wherein Q is _s Q is the actual comprehensive effective dehumidifying amount of the glasses drying mechanism _st For the actual effective dehumidification of the fresh air system, R is the volume in the main body, E is the effective duty ratio coefficient of the heating lamp tube, T _st T is the detection value of the temperature sensor ₀ T is the working time of the heating lamp tube, which is the temperature of the air in the main body;

step three: the controller compares the actual comprehensive effective dehumidification amount of the glasses drying mechanism with the preset comprehensive effective dehumidification amount of the glasses drying mechanism, and if the actual comprehensive effective dehumidification amount of the glasses drying mechanism is smaller than the preset comprehensive effective dehumidification amount of the glasses drying mechanism, the controller controls the alarm to alarm.

Preferably, the method further comprises:

the secondary cleaning alarm system is used for judging the first cleaning condition of the cleaned glasses and reminding a user whether to perform secondary cleaning according to the cleaning condition of the cleaned glasses;

the secondary cleaning alarm system judges the first cleaning condition of the cleaned glasses and reminds the user of secondary cleaning as follows:

The overall longitudinal sedimentation velocity of the impurities in the cleaning liquid in the liquid storage tank is calculated based on the following formula:

wherein V is _g For the overall longitudinal sedimentation velocity of impurities in the cleaning liquid in the liquid storage tank, eta is the overall flow velocity of the cleaning liquid in the liquid storage tank, g is the gravity acceleration, d _max D, the maximum diameter of impurities in the cleaning liquid in the liquid storage tank is d _min Is the minimum diameter of impurities in the cleaning solution in the liquid storage tank, χ ₁ Molecular diffusion coefficient, χ, of impurities in the cleaning liquid in the liquid storage tank ₂ For the motion diffusion coefficient of impurities in the cleaning solution in the liquid storage tank, sin theta is a sine value of theta, and theta is an acute angle formed by the overall flow velocity direction and the vertical direction of the cleaning solution in the liquid storage tank;

when the overall longitudinal sedimentation velocity of impurities in the cleaning liquid in the liquid storage tank is larger than the overall longitudinal preset sedimentation velocity of impurities in the cleaning liquid in the liquid storage tank, the cleaning liquid for cleaning the glasses for the first time is proved to contain numerous impurities, and the glasses need to be cleaned for the second time, and at the moment, the secondary cleaning alarm system alarms to remind a user of carrying out secondary cleaning.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic diagram of a cleaning solution mixing mechanism according to the present invention.

FIG. 3 is a schematic view of the adjusting mechanism of the present invention.

In the figure: 1. a main body; 100. a mounting groove; 101. a discharge port; 102. an ultrasonic transducer assembly; 1020. an insulating sheet; 1021. square pieces; 103. a liquid storage tank; 104. drying the slide rail; 105. a lateral adjustment slider; 106. a longitudinal guide rod; 107. drying the main body; 2. a cleaning liquid mixing mechanism; 200. a mechanism housing; 2000. an electromagnet switch; 2001. a cleaning liquid feed port; 2002. connecting the pipe fittings; 2003. a second electromagnet; 2004. a first elastic member; 2005. a plugging plug; 201. a stirring housing; 202. a stirring main body; 2020. a first driving member; 2021. stirring paddles; 203. an inlet; 204. a first outlet; 205. a fluid channel; 2050. a guide rail; 2051. a sliding door; 2052. a switch slide; 2053. the connecting slide block; 2054. a switch connecting rod; 206. a second outlet; 207. an auxiliary mechanism mounting cavity; 2070. a mechanism mounting housing; 2071. a first auxiliary rack; 2072. a second auxiliary rack; 2073. an auxiliary gear; 2074. blocking; 2075. blocking the guide groove; 2076. cleaning a gear; 2077. a miniature transverse guide slot; 2078. an L-shaped engagement tube; 208. an auxiliary mechanism; 2080. a first through hole; 2081. a T-shaped button; 209. a flow rate adjusting mechanism; 2090. a flow rate adjusting plate; 2091. adjusting the meshing teeth; 2092. a second chute; 2093. a first adjusting rack; 2094. a second adjusting rack; 2095. a pressing block; 2096. a second elastic member; 2097. a first chute; 3. an adjusting mechanism; 300. a body cover adjusting mechanism; 3000. the machine body cover adjusting mechanism is provided with a cavity; 3001. a first pulley; 3002. a second pulley; 3003. a first engagement wheel; 3004. a second engagement wheel; 3005. a conveyor belt; 3006. a placement port; 3007. an engagement cover; 3008. adjusting the rack; 3009. a connecting block; 301. a carrier web adjustment mechanism; 3010. adjusting a screw rod; 3011. a clamping groove; 3012. a carrier web; 3013. a lifting adjusting member; 3014. a clamping block; 3015. a clamping block mounting groove; 3016. a sealing gasket; 3017. a third elastic member; 3018. adjusting the steel rope; 3019. an adjusting mechanism mounting cavity; 302. the first steel rope is connected with the rack; 3020. the second steel rope is connected with the rack; 3021. a steel rope adjusting gear; 3022. a first reel; 3023. and a second reel.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

In addition, the descriptions of the "first," "second," and the like, herein are for descriptive purposes only and are not intended to be specifically construed as order or sequence, nor are they intended to limit the invention solely for distinguishing between components or operations described in the same technical term, but are not to be construed as indicating or implying any relative importance or order of such features. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, technical solutions and technical features between the embodiments may be combined with each other, but it is necessary to base that a person skilled in the art can implement the combination of technical solutions, when the combination of technical solutions contradicts or cannot be implemented, should be considered that the combination of technical solutions does not exist, and is not within the scope of protection claimed by the present invention.

The invention provides the following examples:

example 1

The embodiment of the invention provides an ultrasonic cleaner without damaging a coated film of glasses, which comprises a main body 1, wherein a liquid storage tank 103 is arranged in the main body 1, a mounting groove 100 is arranged at the bottom of the main body 1, a discharge port 101 and a plurality of ultrasonic transducer assemblies 102 are arranged in the mounting groove 100, and the discharge port 101 is communicated with the liquid storage tank 103.

Preferably, the ultrasonic transducer assembly 102 includes a battery/mains supply module, an ultrasonic generator module, an insulating sheet 1020 and a square sheet 1021, wherein the battery/mains supply module, the ultrasonic generator module and the square sheet 1021 are electrically connected, the insulating sheet 1020 is adhered to the bottom of the liquid storage tank 103, the square sheet 1021 is adhered to the insulating sheet 1020, the battery/mains supply module is used for supplying power to the ultrasonic generator module, and the ultrasonic generator module is a switching power supply of a self-excited or independent excitation circuit and is used for automatically acquiring the optimal working frequency of the cleaning equipment to drive the square sheet 1021 to work;

the square sheet 1021 is a cuboid and is made of ceramic materials;

the square 1021 includes a length dimension, a width dimension, and a thickness dimension, one of the length dimension and the width dimension being used to control the output frequency of the ultrasonic transducer assembly 102, the other being used to vary the power capacity of the ultrasonic transducer assembly 102.

The working principle and the beneficial effects of the technical scheme are as follows: when the glasses to be cleaned are placed in the liquid storage tank 103, then cleaning liquid is poured into the liquid storage tank 103 in the main body 1, then the ultrasonic transducer assembly 102 works, the ultrasonic transducer assembly 102 can convert ultrasonic sound energy into mechanical vibration, the cleaning liquid is radiated by the ultrasonic wave, microbubbles in the ultrasonic transducer assembly keep a vibration state under the action of the ultrasonic wave, the absorption between the glasses to be cleaned and dust impurities on the glasses are destroyed, the two are separated from each other, so that the glasses are cleaned, the cleaning liquid is discharged through the discharge port 101 after the cleaning is finished, and the ultrasonic transducer assembly 102 is designed to clean the areas such as a glasses slot and the like while avoiding the situation that the cleaning cloth scratches the glasses, which are caused by the cleaning of the glasses, solves the technical problems that most of glasses are cleaned by using the glasses cloth at present, the original dust motion on the glasses is often driven in the process of cleaning the glasses, the glasses are scratched by the dust, the glasses are cleaned for a long time, the scratches on the glasses can cause the glasses to influence the vision, and the glasses cannot clean the slot and other areas;

Compared with a traditional circular ceramic plate, the square plate 1021 is a rectangular piezoelectric ceramic plate, and in the plane dimension, the rectangular piezoelectric ceramic plate has two groups of resonance frequencies in the length direction and the width direction at the same time, and the circular piezoelectric ceramic plate has only one radial frequency;

the design of the battery/mains supply module enables the cleaning machine to supply power at any time, so that the cleaning machine is convenient to carry and use, and the compatibility of the use occasions of the cleaning machine is improved;

assuming that the width dimension of the square 1021 is used to control the output frequency of the ultrasonic transducer assembly 102, and the length dimension is used to change the power capacity of the ultrasonic transducer assembly 102, the frequency of the washer can be raised to about 70kHz when the width dimension of the square 1021 is reduced to 25mm, and the frequency can be raised to about 85kHz when the width dimension is reduced to 20mm, and the frequency of the washer can be rapidly increased with further reduction of the dimension. The length direction size is controlled, so that the power required for cleaning the glasses can be ensured, and the length of the square sheet 1021 is increased, so that the uniformity of the sound field in the liquid storage tank 103 is improved, the cleaning effect is ensured, and the phenomenon that the coated layers of the glasses are damaged due to uneven sound field is avoided.

Example 2

On the basis of the above embodiment 1, the main machine body 1 is slidably connected with the drying slide rail 104, the drying slide rail 104 is slidably connected with the lateral adjustment slide block 105, the lateral adjustment slide block 105 is provided with a slide block driving member, the slide block driving member is used for driving the lateral adjustment slide block 105 to move along the drying slide rail 104, the lateral adjustment slide block 105 is fixedly connected with the longitudinal guide rod 106, the longitudinal guide rod 106 is slidably connected with the drying main body 107, the drying main body 107 is provided with a main body driving member, and the main body driving member is used for driving the drying main body 107 to slide along the longitudinal guide rod 106.

The working principle and the beneficial effects of the technical scheme are as follows: during use, the slide block driving piece drives the transverse adjusting slide block 105 to move along the drying slide rail 104, meanwhile, the main body driving piece drives the drying main body 107 to slide along the longitudinal guide rod 106, the position of the drying main body 107 is adjusted, then the drying main body 107 dries the glasses after the cleaning in the liquid storage tank 103 and the liquid storage tank 103, so that bacteria in the liquid storage tank 103 are prevented from breeding, and the natural drying time of the glasses is saved.

Example 3

On the basis of embodiment 1 or 2, the main machine body 1 is provided with a cleaning solution mixing mechanism 2, the cleaning solution mixing mechanism 2 comprises a mechanism shell 200, a stirring shell 201 is arranged in the mechanism shell 200, a stirring main body 202 is arranged in the stirring shell 201, the stirring main body 202 comprises a first driving piece 2020, the output end of the first driving piece 2020 is connected with a stirring paddle 2021, the stirring shell 201 is provided with an inlet 203, a first outlet 204 and a second outlet 206, a fluid channel 205 is arranged at the first outlet 204, a plugging plug 2005 is arranged in the second outlet 206, an auxiliary mechanism mounting cavity 207 is arranged in the mechanism shell 200, and an auxiliary mechanism 208 is arranged in the auxiliary mechanism mounting cavity 207;

the auxiliary mechanism 208 comprises a first through hole 2080, the first through hole 2080 is formed on the auxiliary mechanism mounting cavity 207, a T-shaped button 2081 is sleeved in the first through hole 2080, a first elastic member 2004 is sleeved on the T-shaped button 2081, a mechanism mounting shell 2070 is arranged in the auxiliary mechanism mounting cavity 207, a first auxiliary rack 2071, a second auxiliary rack 2072 and an auxiliary gear 2073 are arranged in the mechanism mounting shell 2070, two sides of the auxiliary gear 2073 are respectively meshed with the first auxiliary rack 2071 and the second auxiliary rack 2072, the first auxiliary rack 2071 and the second auxiliary rack 2072 are both connected in a sliding manner in the mechanism mounting shell 2070, one end of the T-shaped button 2081 is positioned outside the mechanism shell 200, the other end of the T-shaped button 2081 is positioned in the mechanism mounting shell 2070, a blocking block 2074 is fixedly connected on the second auxiliary rack 2072, a blocking guide groove 2075 is formed in the mechanism mounting shell 2070, a cleaning gear 2076 is rotatably connected to the mechanism shell 200, a miniature transverse guide groove 2077 is formed in the mechanism shell 200, an L-shaped engagement tube 2078 is sleeved in the miniature transverse guide groove 2077, the L-shaped engagement tube 2078 is engaged with the cleaning gear 2076, a first electromagnet is arranged at one end of the L-shaped engagement tube 2078 positioned in the auxiliary mechanism mounting cavity 207, a second electromagnet 2003 corresponding to the first electromagnet is arranged on the inlet 203 of the stirring shell 201, an electromagnet switch 2000 is arranged on the mechanism shell 200, the electromagnet switch 2000 is electrically connected with the first electromagnet and the second electromagnet 2003 and is used for controlling the on and off of the first electromagnet and the second electromagnet 2003, a cleaning liquid feed inlet 2001 is arranged on the mechanism shell 200, the cleaning liquid feed port 2001 communicates with the agitation enclosure 201 through a connecting pipe 2002;

The fluid channel 205 is internally provided with a guide rail 2050 and a sliding door 2051, the guide rail 2050 is connected with a switch slide block 2052 in a sliding manner, the switch slide block 2052 is provided with a fourth driving piece, the fourth driving piece is used for driving the switch slide block 2052 to slide along the guide rail 2050, the sliding door 2051 is fixedly connected with a connecting slide block 2053, the switch slide block 2052 is hinged with a switch connecting rod 2054, one end of the switch connecting rod 2054 far away from the switch slide block 2052 is hinged with the connecting slide block 2053, the fluid channel 205 is internally provided with a flow regulating mechanism 209, and the flow regulating mechanism 209 is used for regulating the flow of the fluid channel 205;

the outlet of the fluid channel 205 is located in the reservoir 103;

the flow adjusting mechanism 209 includes a flow adjusting plate 2090, one end of the flow adjusting plate 2090 located outside the fluid channel 205 is hinged in the mechanism housing 200, and an adjusting engagement tooth 2091 is coaxially hinged at a hinge connection point, a first sliding groove 2097 and a second sliding groove 2092 are disposed in the mechanism housing 200, the first sliding groove 2097 and the second sliding groove 2092 are perpendicular to each other, a first adjusting rack 2093 is slidably connected in the first sliding groove 2097, a second adjusting rack 2094 is slidably connected in the second sliding groove 2092, the adjusting engagement tooth 2091 is meshed with the first adjusting rack 2093, one end of the second adjusting rack 2094 located outside the mechanism housing 200 is fixedly connected with a pressing block 2095, and a second elastic member 2096 is fixedly connected to the pressing block 2095.

The working principle and the beneficial effects of the technical scheme are as follows: when in use, cleaning solution is poured into the stirring shell 201 through the cleaning solution feed port 2001 and the connecting pipe 2002, then the T-shaped button 2081 is pressed, the T-shaped button 2081 pushes the first auxiliary rack 2071 to move downwards, the first auxiliary rack 2071 moves downwards to drive the auxiliary gear 2073 to rotate anticlockwise, the auxiliary gear 2073 rotates anticlockwise to drive the second auxiliary rack 2072 to move upwards, the second auxiliary rack 2072 moves upwards to drive the blocking 2074 to move upwards along the blocking guide groove 2075, the blocking 2074 moves upwards to block the inlet 203, meanwhile, the fourth driving piece drives the switch slide 2052 to slide along the guide rail 2050, so that the sliding door 2051 dies the first outlet 204 under the action of the connecting slide 2053 and the switch connecting rod 2054, and then the first driving piece 2020 drives the stirring paddle 2021 to rotate so that the cleaning solution in the stirring paddle is fully and evenly stirred, the cleaning solution is prevented from flowing into the fourth driving piece 205 along the guide rail 2050, and the cleaning solution is prevented from flowing into the cleaning solution uniformly along the guide rail 201 after the fourth driving piece 205 is opened, and the cleaning solution is prevented from flowing into the cleaning solution uniformly along the guide rail 201;

When it is required to adjust the flow rate of the cleaning solution flowing in the fluid channel 205, the flow rate adjusting mechanism 209 is started, and presses the pressing block 2095, so that the pressing block 2095 pushes the first adjusting rack 2093 to move upwards, the first adjusting rack 2093 moves upwards to drive the adjusting engagement teeth 2091 to rotate, the adjusting engagement teeth 2091 rotate to drive the flow rate adjusting plate 2090 to swing, and the flow rate adjusting plate 2090 swings to adjust the flow aperture of the fluid channel 205;

after the stirring shell 201 is used, the stirring shell can be cleaned, before the stirring shell is cleaned, the blocking piece 2074 is reset, the cleaning gear 2076 rotates to drive the output end of the L-shaped meshing tube 2078 to be aligned with the inlet 203, then the electromagnet switch 2000 is pressed down to enable the first electromagnet and the second electromagnet 2003 to be electrified, the output end of the L-shaped meshing tube 2078 and the inlet 203 are mutually matched under the action of electromagnetic force, then water is introduced into the L-shaped meshing tube 2078, the stirring paddle 2021 can be started again to clean the inner wall of the stirring shell 201, after the cleaning is finished, the blocking piece 2005 is pulled out, so that water flows out from the second outlet 206, the effect of cleaning the inner wall of the stirring shell 201 is achieved, and bacterial breeding is avoided by cleaning the inner wall of the stirring shell 201, so that the cleaning of the cleaning machine is more reliable.

Example 4

On the basis of embodiment 1, an adjusting mechanism 3 is arranged in the main machine body 1, and the adjusting mechanism 3 comprises a machine body cover adjusting mechanism 300 and a bearing net adjusting mechanism 301;

the machine body cover adjusting mechanism 300 comprises a machine body cover adjusting mechanism mounting cavity 3000, a first belt pulley 3001, a second belt pulley 3002, a first meshing wheel 3003 and a second meshing wheel 3004 are rotatably connected in the machine body cover adjusting mechanism mounting cavity 3000, the first belt pulley 3001 is coaxial with the first meshing wheel 3003, the second belt pulley 3002 is coaxial with the second meshing wheel 3004, a conveyor belt 3005 is arranged between the first belt pulley 3001 and the second belt pulley 3002, a placing opening 3006 is arranged on the machine body 1, a meshing cover 3007 is slidably connected on the machine body 1, the meshing cover 3007 is meshed with the first meshing wheel 3003, an adjusting rack 3008 is arranged in the machine body cover adjusting mechanism mounting cavity 3000, the adjusting rack 3008 is meshed with the second meshing wheel 3004, a connecting block 3009 is fixedly connected to the adjusting rack 3008, an adjusting screw 3010 is sleeved at one end of the machine body, and a second screw 3010 is arranged on the adjusting rack 3008, and a driving member 3010 is arranged on the adjusting screw;

The bearing net adjusting mechanism 301 is arranged in the liquid storage tank 103, a plurality of clamping grooves 3011 are symmetrically formed in the inner wall of the liquid storage tank 103, a bearing net 3012 is clamped between the corresponding clamping grooves 3011, a clamping mechanism is arranged in the bearing net 3012, and a lifting adjusting piece 3013 is fixedly connected to the bottom of the bearing net 3012;

the clamping mechanism comprises clamping blocks 3014, clamping block mounting grooves 3015 are symmetrically formed in the bearing net 3012, the clamping blocks 3014 are slidably connected in the clamping block mounting grooves 3015, sealing gaskets 3016 are arranged at the outlet of the clamping block mounting grooves 3015, third elastic pieces 3017 are fixedly connected to the clamping blocks 3014, the third elastic pieces 3017 are far away from one end of the clamping blocks 3014 and are fixedly connected with the bottom of the clamping block mounting grooves 3015, adjusting steel ropes 3018 are fixedly connected to the clamping blocks 3014, an adjusting mechanism mounting cavity 3019 is formed in the bearing net 3012, a first steel rope connecting rack 302, a second steel rope connecting rack 3020 and a steel rope adjusting gear 3021 are arranged in the adjusting mechanism mounting cavity 3019, third driving pieces are arranged on the steel rope adjusting gears 3021 and are used for driving the steel rope adjusting gears 3021 to rotate, two sides of the steel rope adjusting gears 3021 are respectively connected with the first steel rope 3023 and the second steel rope 3023 in a winding mechanism mounting cavity 3010 and a winding mechanism mounting cavity 3010.

The working principle and the beneficial effects of the technical scheme are as follows: when the machine body cover adjusting mechanism 300 is used, the second driving piece drives the adjusting screw 3010 to rotate, the adjusting screw 3010 rotates to drive the connecting block 3009 to move up and down, the connecting block 3009 moves up and down to drive the adjusting rack 3008 to move up and down, the adjusting rack 3008 moves up and down to drive the second meshing wheel 3004 to rotate, the second meshing wheel 3004 rotates to drive the second belt wheel 3002 to rotate, the second belt wheel 3002 rotates to drive the first belt wheel 3001 to rotate under the action of the conveying belt 3005, the first belt wheel 3001 rotates to drive the first meshing wheel 3003 to rotate, and the first meshing wheel 3003 rotates to drive the meshing cover 3007 to move back and forth, so that the placing opening 3006 is opened and closed;

the body cover adjusting mechanism 300 is designed to facilitate the user to adjust the opening and closing states of the placement opening 3006, so that the opening and closing of the placement opening 3006 are safer and more sanitary than the conventional manual adjustment;

when the carrier net adjusting mechanism 301 is used, the third driving member drives the steel rope adjusting gear 3021 to rotate clockwise, the steel rope adjusting gear 3021 rotates clockwise to drive the first steel rope connecting rack 302 to move rightwards, meanwhile, the second steel rope connecting rack 3020 moves leftwards, the steel rope adjusting gear 3021 and the second steel rope connecting rack 3020 move to pull the adjusting steel ropes 3018, the clamping blocks 3014 connected with the steel rope adjusting gear 3028 are in a mutually clamped state with the clamping grooves 3011 under the action of the adjusting steel ropes 3018, the third elastic members 3017 are in a compressed state at the moment, then the lifting adjusting member 3013 stretches and adjusts the height of the carrier net 3012, after the height is adjusted in place, the third driving member drives the steel rope adjusting gear 3021 to rotate anticlockwise, and the clamping blocks 3014 are clamped with the clamping grooves 3011 again under the action of the third elastic members 3017, so that the height adjustment of the carrier net 3012 is completed;

The design of the carrying net adjusting mechanism 301 enables the height of the carrying net 3012 to be adjusted, the height of the carrying net 3012 is adjusted so that the cleaning machine can self-define and adjust the height of the carrying net 3012 according to the amount of cleaning liquid in the main machine body 1, and the cleaned glasses can be cleaned better.

Example 5

On the basis of the embodiment 1, the method further comprises the following steps:

the glasses drying mechanism, glasses drying mechanism installs in the host computer body 1 for after glasses washs, carry out drying process to glasses, glasses drying mechanism includes:

the heating lamp tube is used for heating the air in the main machine body 1;

the fresh air system is used for promoting the rapid circulation of air in the main machine body 1;

the system comprises a drying mechanism fault alarm system, a control system and a control system, wherein the drying mechanism fault alarm system is used for monitoring the working state of the glasses drying mechanism and giving an alarm in time when the glasses drying mechanism breaks down;

the drying mechanism fault alarm system comprises:

the humidity sensor is arranged in the main machine body 1 and is used for detecting the humidity of air in the main machine body 1;

The flow rate sensor is arranged in the main machine body 1 and is used for detecting the air flow rate in the main machine body 1;

the temperature sensor is arranged in the main machine body 1 and is used for detecting the heating temperature of the heating lamp tube in the main machine body 1;

the timer is arranged on the heating lamp tube and is used for detecting the working time of the heating lamp tube;

the controller is electrically connected with the humidity sensor, the flow rate sensor, the temperature sensor, the timer and the alarm, and the controller controls the alarm to alarm based on the humidity sensor, the flow rate sensor, the temperature sensor and the timer based on the following steps:

step one: based on the humidity sensor, the flow rate sensor and formula (1), calculating an actual effective dehumidification amount of the fresh air system:

wherein Q is _st For the actual effective dehumidification of the fresh air system (in kg/s), τ is the density of the air in the main body 1, δ ₂ For the humidity of the air in the main body 1 before the operation of the glasses drying mechanism, namely the detection value of the humidity sensor, delta ₁ For the humidity of the air in the main body 1 after the operation of the glasses drying mechanism is finished, namely, the detection value of the humidity sensor, alpha is the effective duty ratio coefficient (the value is 0.68-0.75) of the fresh air system, beta is the safety coefficient (the value is 1.01-1.13) of the fresh air system, e is a natural number, the value is 2.72,for the actual flow rate of air in the main body 1, i.e. the detection value of the flow rate sensor,/->The preset flow rate of the air in the main machine body 1;

step two: calculating an actual integrated effective dehumidification amount of the eyeglass drying mechanism based on the humidity sensor, the temperature sensor, the timer, step one, and formula (2):

wherein Q is _s Q is the actual integrated effective dehumidification amount (unit is kg/s) of the glasses drying mechanism _st For the actual effective dehumidification of the fresh air system, R is the volume in the main machine body 1, E is the effective duty ratio coefficient (the value is 0.25-0.32) of the heating lamp tube, T _st T is the detection value of the temperature sensor ₀ T is the working time of the heating lamp tube, which is the temperature of the air in the main machine body 1;

step three: the controller compares the actual comprehensive effective dehumidification amount of the glasses drying mechanism with the preset comprehensive effective dehumidification amount of the glasses drying mechanism, and if the actual comprehensive effective dehumidification amount of the glasses drying mechanism is smaller than the preset comprehensive effective dehumidification amount of the glasses drying mechanism, the controller controls the alarm to alarm.

The working principle and the beneficial effects of the technical scheme are as follows: firstly, calculating the actual effective dehumidification amount of the fresh air system based on the humidity sensor, the flow rate sensor and the formula (1), then calculating the actual comprehensive effective dehumidification amount of the glasses drying mechanism based on the humidity sensor, the temperature sensor, the timer, the step one and the formula (2), and finally, comparing the actual comprehensive effective dehumidification amount of the glasses drying mechanism with the preset comprehensive effective dehumidification amount of the glasses drying mechanism by the controller, and controlling the alarm to alarm if the actual comprehensive effective dehumidification amount of the glasses drying mechanism is smaller than the preset comprehensive effective dehumidification amount of the glasses drying mechanism by the controller;

the design of the glasses drying mechanism ensures that the glasses can be automatically dried after being cleaned, compared with the traditional direct drying mode, the glasses drying mechanism avoids the recontamination of the glasses lenses in the drying process, and meanwhile, the design of the heating lamp tube and the fresh air system increases the host on the one handThe temperature in the main body 1 increases the flow velocity of air in the main body 1, so that water drops on the glasses in the main body 1 evaporate faster, the drying efficiency of the glasses drying mechanism is improved, and the water hanging amount on the glasses cannot be directly measured, so that delta is indirectly adopted ₂ (humidity of air in the main body 1 before the operation of the glasses drying mechanism) and delta ₁ The air humidity in the main machine body 1 is replaced after the eyeglass drying mechanism works, and the effective action duty ratio coefficient of the fresh air system and the E are introduced, so that the actual effective dehumidification amount of the fresh air system and the actual comprehensive effective dehumidification amount of the eyeglass drying mechanism are calculated more accurately.

Example 6

On the basis of the embodiment 1, the method further comprises the following steps:

the secondary cleaning alarm system is used for judging the first cleaning condition of the cleaned glasses and reminding a user whether to perform secondary cleaning according to the cleaning condition of the cleaned glasses;

the secondary cleaning alarm system judges the first cleaning condition of the cleaned glasses and reminds the user of secondary cleaning as follows:

the overall longitudinal sedimentation velocity of the impurities in the cleaning liquid in the liquid reservoir 103 is calculated based on the following formula:

wherein V is _g For the overall longitudinal sedimentation velocity of the impurities in the cleaning liquid in the liquid storage tank 103, η is the overall flow velocity of the cleaning liquid in the liquid storage tank 103, g is the gravitational acceleration, d _max D is the maximum diameter of the impurity in the cleaning liquid in the liquid storage tank 103 _min Is the minimum diameter of impurities in the cleaning solution in the liquid storage tank 103, χ ₁ Molecular diffusion coefficient, χ, of impurities in the cleaning solution in the reservoir 103 ₂ For the motion diffusion coefficient of the impurities in the cleaning solution in the liquid storage tank 103, sin theta is a sine value of theta, and theta is the valueAn acute angle between the overall flow velocity direction of the cleaning liquid in the liquid storage tank 103 and the vertical direction;

when the overall longitudinal sedimentation velocity of the impurities in the cleaning solution in the liquid storage tank 103 is greater than the overall longitudinal preset sedimentation velocity of the impurities in the cleaning solution in the liquid storage tank 103, the cleaning solution for cleaning the glasses for the first time is proved to contain numerous impurities, and the glasses need to be cleaned for the second time, and at the moment, the secondary cleaning alarm system alarms to remind a user of carrying out the secondary cleaning.

The working principle and the beneficial effects of the technical scheme are as follows: the design of the re-cleaning alarm system can detect the first cleaning condition of the cleaned glasses and remind a user whether to perform secondary cleaning according to the cleaning condition of the re-cleaning alarm system, and under the condition that the cleaning liquid for cleaning the glasses for the first time contains numerous impurities, the user is reminded to perform secondary cleaning on the glasses, so that the cleanliness of the cleaned glasses is ensured, and the x is ensured ₁ Molecular diffusion coefficient and χ of impurities in the cleaning liquid in the liquid storage tank 103 ₂ The motion diffusion coefficient of the impurities in the cleaning solution in the liquid storage tank 103 enables the calculation result to be more accurate.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (6)

1. The ultrasonic cleaner is characterized by comprising a main machine body (1), wherein a liquid storage tank (103) is arranged in the main machine body (1), an installation groove (100) is formed in the bottom of the main machine body (1), a discharge port (101) and a plurality of ultrasonic transducer assemblies (102) are arranged in the installation groove (100), and the discharge port (101) is communicated with the liquid storage tank (103);

the cleaning solution mixing device comprises a main machine body (1), wherein a cleaning solution mixing mechanism (2) is arranged on the main machine body (1), the cleaning solution mixing mechanism (2) comprises a mechanism shell (200), a stirring shell (201) is arranged in the mechanism shell (200), a stirring main body (202) is arranged in the stirring shell (201), the stirring main body (202) comprises a first driving piece (2020), the output end of the first driving piece (2020) is connected with a stirring paddle (2021), an inlet (203), a first outlet (204) and a second outlet (206) are arranged on the stirring shell (201), a fluid channel (205) is arranged at the first outlet (204), a plugging plug (2005) is arranged in the second outlet (206), an auxiliary mechanism installation cavity (207) is arranged in the mechanism shell (200), and an auxiliary mechanism (208) is arranged in the auxiliary mechanism installation cavity (207).

The auxiliary mechanism (208) comprises a first through hole (2080), the first through hole (2080) is arranged on the auxiliary mechanism mounting cavity (207), a T-shaped button (2081) is sleeved in the first through hole (2080), a first elastic piece (2004) is sleeved on the T-shaped button (2081), a mechanism mounting shell (2070) is arranged in the auxiliary mechanism mounting cavity (207), a first auxiliary rack (2071), a second auxiliary rack (2072) and an auxiliary gear (2073) are arranged in the mechanism mounting shell (2070), two sides of the auxiliary gear (2073) are respectively meshed with the first auxiliary rack (2071) and the second auxiliary rack (2072), the first auxiliary rack (2071) and the second auxiliary rack (2072) are slidably connected in the mechanism mounting shell (2070), one end of the T-shaped button (2081) is positioned outside the mechanism housing (200), the other end of the T-shaped button (2081) is positioned in the mechanism mounting shell (2070), a guide groove (207) is formed in the second housing (207) and the guide groove (207) is fixedly connected with the first housing (2075) and the second housing (2074) is provided with a guide groove (2070), an L-shaped meshing tube (2078) is sleeved in the miniature transverse guide groove (2077), the L-shaped meshing tube (2078) is meshed with the cleaning gear (2076), a first electromagnet is arranged at one end of the L-shaped meshing tube (2078) positioned in the auxiliary mechanism mounting cavity (207), a second electromagnet (2003) corresponding to the first electromagnet is arranged on the inlet (203) of the stirring shell (201), an electromagnet switch (2000) is arranged on the mechanism shell (200), the electromagnet switch (2000) is electrically connected with the first electromagnet and the second electromagnet (2003) and is used for controlling the on-off of the first electromagnet and the second electromagnet, a cleaning liquid feed port (2001) is arranged on the mechanism shell (200), and the cleaning liquid feed port (2001) is communicated with the stirring shell (201) through a connecting pipe fitting (2002);

The fluid channel (205) is internally provided with a guide rail (2050) and a sliding door (2051), the guide rail (2050) is connected with a switch slide block (2052) in a sliding manner, the switch slide block (2052) is provided with a fourth driving piece, the fourth driving piece is used for driving the switch slide block (2052) to slide along the guide rail (2050), the sliding door (2051) is fixedly connected with a connecting slide block (2053), the switch slide block (2052) is hinged with a switch connecting rod (2054), one end of the switch connecting rod (2054) far away from the switch slide block (2052) is hinged with the connecting slide block (2053), the fluid channel (205) is internally provided with a flow regulating mechanism (209), and the flow regulating mechanism (209) is used for regulating the flow of the fluid channel (205).

-the fluid channel (205) outlet is located within the reservoir (103);

the flow regulating mechanism (209) comprises a flow regulating plate (2090), one end of the flow regulating plate (2090) is hinged in the mechanism shell (200), the hinge connection point of the flow regulating plate is coaxially hinged with a regulating meshing tooth (2091), a first sliding groove (2097) and a second sliding groove (2092) are arranged in the mechanism shell (200), the first sliding groove (2097) and the second sliding groove (2092) are mutually perpendicular, a first regulating rack (2093) is connected in the first sliding groove (2097) in a sliding manner, a second regulating rack (2094) is connected in the second sliding groove (2092) in a sliding manner, the regulating meshing tooth (2091) is meshed with the first regulating rack (2093) in a mutual manner, one end of the second regulating rack (2094) positioned outside the mechanism shell (200) is fixedly connected with a pressing block (2095), and a second elastic piece (6) is fixedly connected on the pressing block (2095);

An adjusting mechanism (3) is arranged in the main machine body (1), and the adjusting mechanism (3) comprises a machine body cover adjusting mechanism (300) and a bearing net adjusting mechanism (301);

the machine body cover adjusting mechanism (300) comprises a machine body cover adjusting mechanism mounting cavity (3000), a first belt pulley (3001), a second belt pulley (3002), a first meshing wheel (3003) and a second meshing wheel (3004) are rotationally connected to the machine body cover adjusting mechanism mounting cavity (3000), the first belt pulley (3001) is coaxial with the first meshing wheel (3003), the second belt pulley (3002) is coaxial with the second meshing wheel (3004), a conveyor belt (3005) is arranged between the first belt pulley (3001) and the second belt pulley (3002), a placing opening (3006) is arranged on the machine body (1), a meshing cover (3007) is slidingly connected to the machine body (1), an adjusting rack (3008) is arranged in the machine body cover adjusting mechanism mounting cavity (3000), the adjusting rack (3008) is coaxial with the second meshing wheel (3004), a driving piece (3010) is fixedly connected to the driving piece (3010), and a screw (3010) is fixedly arranged on the driving piece;

The bearing net adjusting mechanism (301) is arranged in the liquid storage groove (103), a plurality of clamping grooves (3011) are symmetrically formed in the inner wall of the liquid storage groove (103), bearing nets (3012) are clamped between the corresponding clamping grooves (3011), the clamping mechanism is arranged in the bearing nets (3012), and lifting adjusting pieces (3013) are fixedly connected to the bottoms of the bearing nets (3012);

the clamping mechanism comprises clamping blocks (3014), clamping block mounting grooves (3015) are symmetrically formed in a bearing net (3012), the clamping blocks (3014) are slidably connected in the clamping block mounting grooves (3015), sealing gaskets (3016) are arranged at the outlets of the clamping block mounting grooves (3015), third elastic pieces (3017) are fixedly connected to the clamping blocks (3014), one ends of the third elastic pieces (3017) are far away from one ends of the clamping blocks (3014) and the bottoms of the clamping block mounting grooves (3015) are fixedly connected, adjusting steel ropes (3018) are fixedly connected to the clamping blocks (3014), an adjusting mechanism mounting cavity (3019) is formed in the bearing net (3012), a first steel rope connecting rack (302), a second steel rope connecting rack (3020) and a steel rope adjusting gear (3021) are arranged in the adjusting mechanism mounting cavity (3019), third elastic pieces (3017) are arranged on the clamping block (3014) and are fixedly connected with one end of each other, the third elastic pieces are used for driving the driving racks (3020) and the driving racks (3011) and the driving racks (3013) are meshed with each other, one end, far away from the clamping block (3014), of each adjusting steel rope (3018) sequentially bypasses the first reel (3022) and the second reel (3023) and is fixedly connected with the first steel rope connecting rack (302) and the second steel rope connecting rack (3020).

2. The ultrasonic cleaner without damaging the coating film of the glasses according to claim 1, wherein,

the ultrasonic transducer assembly (102) comprises an ultrasonic generator module, an insulating sheet (1020) and a square sheet (1021), wherein the ultrasonic generator module is electrically connected with the square sheet (1021), the insulating sheet (1020) is adhered to the bottom of the liquid storage tank (103), the square sheet (1021) is adhered to the insulating sheet (1020), and the ultrasonic generator module is a switching power supply of a self-excited or separate excitation circuit and is used for automatically acquiring the optimal working frequency of the cleaning equipment to drive the square sheet (1021) to work.

3. The ultrasonic cleaner without damaging the coating film of the glasses according to claim 2, wherein,

the square sheet (1021) is cuboid and made of piezoelectric ceramic material;

the square sheet (1021) includes a length dimension, a width dimension, and a thickness dimension, one of which is used to control an output frequency of the ultrasonic transducer assembly (102), and the other of which is used to vary a power capacity of the ultrasonic transducer assembly (102).

4. The ultrasonic cleaner without damaging the coating film of the glasses according to claim 1, wherein,

The drying device comprises a main machine body (1), and is characterized in that a drying slide rail (104) is connected to the main machine body (1) in a sliding manner, a transverse adjusting slide block (105) is connected to the drying slide rail (104) in a sliding manner, a slide block driving piece is arranged on the transverse adjusting slide block (105), the slide block driving piece is used for driving the transverse adjusting slide block (105) to move along the drying slide rail (104), a longitudinal guide rod (106) is fixedly connected to the transverse adjusting slide block (105), a drying main body (107) is connected to the longitudinal guide rod (106) in a sliding manner, and a main body driving piece is arranged on the drying main body (107) and is used for driving the drying main body (107) to slide along the longitudinal guide rod (106).

5. The ultrasonic cleaning machine for a coating film of glasses without hurting the glasses according to claim 1, further comprising:

the glasses drying mechanism, the glasses drying mechanism is installed in host computer body (1) for after glasses washs, carry out drying process to glasses, the glasses drying mechanism includes:

the heating lamp tube is used for heating air in the main machine body (1);

the fresh air system is used for promoting the rapid circulation of air in the main machine body (1);

the system comprises a drying mechanism fault alarm system, a control system and a control system, wherein the drying mechanism fault alarm system is used for monitoring the working state of the glasses drying mechanism and giving an alarm in time when the glasses drying mechanism breaks down;

The drying mechanism fault alarm system comprises:

the humidity sensor is arranged in the main machine body (1) and is used for detecting the humidity of air in the main machine body (1);

the flow rate sensor is arranged in the main machine body (1) and is used for detecting the air flow rate in the main machine body (1);

the temperature sensor is arranged in the main machine body (1) and is used for detecting the heating temperature of the heating lamp tube in the main machine body (1);

the timer is arranged on the heating lamp tube and is used for detecting the working time of the heating lamp tube;

the controller is electrically connected with the humidity sensor, the flow rate sensor, the temperature sensor, the timer and the alarm, and the controller controls the alarm to alarm based on the humidity sensor, the flow rate sensor, the temperature sensor and the timer based on the following steps:

step one: based on the humidity sensor, the flow rate sensor and formula (1), calculating an actual effective dehumidification amount of the fresh air system:

wherein Q is _st For the actual effective dehumidification of the fresh air system, τ is the density, δ, of the air in the main body (1) ₂ For the humidity of the air in the main body (1) before the operation of the glasses drying mechanism, namely the detection value of the humidity sensor, delta ₁ For the humidity of the air in the main machine body (1) after the operation of the glasses drying mechanism is finished, namely the detection value of the humidity sensor, alpha is the effective duty ratio coefficient of the fresh air system,

beta is the safety coefficient of the fresh air system, e is a natural number, the value is 2.72,for the actual flow rate of the air in the main body (1), i.e. the detection value of the flow rate sensor,

the flow rate is preset for the air in the main machine body (1);

step two: calculating an actual integrated effective dehumidification amount of the eyeglass drying mechanism based on the humidity sensor, the temperature sensor, the timer, step one, and formula (2):

wherein Q is _s Q is the actual comprehensive effective dehumidifying amount of the glasses drying mechanism _st For the actual effective dehumidification of the fresh air system, R is the volume in the main machine body (1), E is the effective duty ratio coefficient of the heating lamp tube, T _st T is the detection value of the temperature sensor ₀ The temperature of the air in the main machine body (1) is the working time of the heating lamp tube;

step three: the controller compares the actual comprehensive effective dehumidification amount of the glasses drying mechanism with the preset comprehensive effective dehumidification amount of the glasses drying mechanism, and if the actual comprehensive effective dehumidification amount of the glasses drying mechanism is smaller than the preset comprehensive effective dehumidification amount of the glasses drying mechanism, the controller controls the alarm to alarm.

6. The ultrasonic cleaning machine for a coating film of glasses without hurting the glasses according to claim 1, further comprising:

the secondary cleaning alarm system is used for judging the first cleaning condition of the cleaned glasses and reminding a user whether to perform secondary cleaning according to the cleaning condition of the cleaned glasses;

the secondary cleaning alarm system judges the first cleaning condition of the cleaned glasses and reminds the user of secondary cleaning as follows:

the overall longitudinal sedimentation velocity of the impurities in the cleaning liquid in the liquid storage tank (103) is calculated based on the following formula:

wherein V is _g Is the overall longitudinal sedimentation velocity of impurities in the cleaning liquid in the liquid storage tank (103), eta is the overall flow velocity of the cleaning liquid in the liquid storage tank (103), g is the gravitational acceleration, d _max D is the maximum diameter of impurities in the cleaning liquid in the liquid storage tank (103) _min Is the minimum diameter of impurities in the cleaning solution in the liquid storage tank (103), χ ₁ Molecular amplification of impurities in the cleaning solution in the liquid storage tank (103)Coefficient of dispersion, χ ₂ The motion diffusion coefficient of impurities in the cleaning solution in the liquid storage tank (103), sin theta is a sine value of theta, and theta is an acute angle between the overall flow velocity direction and the vertical direction of the cleaning solution in the liquid storage tank (103);

When the overall longitudinal sedimentation velocity of impurities in the cleaning liquid in the liquid storage tank (103) is greater than the overall longitudinal preset sedimentation velocity of impurities in the cleaning liquid in the liquid storage tank (103), the cleaning liquid for cleaning the glasses for the first time is proved to contain numerous impurities, and the glasses need to be cleaned for the second time, and at the moment, the secondary cleaning alarm system alarms to remind a user of cleaning for the second time.