CN114019701A - Ultrasonic cleaning machine without damaging film coating of glasses - Google Patents

Abstract

The invention provides an ultrasonic cleaning machine without damaging a coated film of a glasses, which comprises a main machine body, wherein a liquid storage tank is arranged in the main machine body, an installation groove is arranged at the bottom of the main machine body, a discharge port and a plurality of ultrasonic transducers are arranged in the installation groove, and the discharge port is communicated with the liquid storage tank. The invention can solve the technical problems that most of the existing glasses cleaning is to clean the glasses by using glasses cloth, the glasses are scratched by dust due to the fact that the original dust on the glasses is often driven to move in the process of cleaning the glasses, the glasses are scratched by dust due to the fact that the glasses are cleaned by taking the glasses cloth for a long time, the sight is influenced, and meanwhile, the glasses cloth cannot clean areas such as slots.

Description

Ultrasonic cleaning machine without damaging film coating of glasses

Technical Field

The invention relates to the technical field of ultrasonic cleaning, in particular to an ultrasonic cleaning machine which does not damage a coated film of an eyeglass.

Background

When worn for extended periods of time, the lenses of the eyeglasses become saturated with dust and grease which can accumulate in the corners of the eyeglasses, including the slots between the frame and the lenses, the pad area around the nose, and the folds in the frame. Long-time accumulation can influence our use, and the lens can become fuzzy, and the clean all of present most glasses is cleaned it with glasses cloth, often can drive original dust motion on the glasses and make the lens by the dust fish tail at the in-process of cleaning the lens, takes glasses cloth clean for a long time and can lead to being covered with the mar on the lens and influence the sight, and glasses cloth is clean simultaneously can not reach areas such as the groove joint.

Disclosure of Invention

The invention provides an ultrasonic cleaning machine without damaging a film coating of glasses, which is used for solving the technical problems that most of the current glasses are cleaned by glasses cloth, the glasses are scratched by dust due to the fact that the original dust on the glasses is often driven to move in the process of cleaning the glasses, the glasses are full of scratches on the glasses due to long-term cleaning of the glasses cloth, the sight line is influenced, and meanwhile, the glasses cloth cannot clean the areas such as slots.

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

Preferably, ultrasonic transducer includes battery/commercial power supply module, supersonic generator module, insulating piece and square piece, battery/commercial power supply module, supersonic generator module with the square piece electricity is connected, the insulating piece adhesion in the liquid storage tank bottom, the square piece bond in on the insulating piece, battery/commercial power supply module is used for giving the supersonic generator module power supply, the switching power supply of supersonic generator module for auto-excitation formula or other swash formula circuit for the best operating frequency drive square piece work of automatic acquisition cleaning equipment.

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

the square plate includes a length dimension, a width dimension, and a thickness dimension, the length dimension and the width dimension, one of the dimensions being for controlling an output frequency of the ultrasonic transducer assembly and the other dimension being for varying a power capacity of the ultrasonic transducer assembly.

Preferably, sliding connection has the stoving slide rail on the host computer body, sliding connection has the horizontal adjustment slider on the stoving slide rail, be equipped with the slider driving piece on the horizontal adjustment slider, the slider driving piece is used for the drive horizontal adjustment slider is followed the stoving slide rail removes, the vertical guide arm of fixedly connected with on the horizontal adjustment slider, sliding connection has the stoving main part on the vertical guide arm, be equipped with the main part driving piece in the stoving main part, the main part driving piece is used for the drive the stoving main part is followed the vertical guide arm slides.

Preferably, a cleaning solution mixing mechanism is arranged on the main machine body and comprises a mechanism shell, a stirring shell is arranged in the mechanism shell, a stirring main body is arranged in the stirring shell and comprises a first driving piece, the output end of the first driving piece is connected with a stirring paddle, an inlet, a first outlet and a second outlet are arranged on the stirring shell, a fluid channel is arranged at the first outlet, 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 installation 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 installation shell is arranged in the auxiliary mechanism installation cavity, a first auxiliary rack, a second auxiliary rack and an auxiliary gear are arranged in the mechanism installation shell, two sides of the auxiliary gear are meshed with the first auxiliary rack and the second auxiliary rack respectively, the first auxiliary rack and the second auxiliary rack are connected in the mechanism installation shell in a sliding mode, one end of the T-shaped button is located outside the mechanism shell, the other end of the T-shaped button is located in the mechanism installation shell, a blocking block is fixedly connected to the second auxiliary rack, a blocking block guide groove is formed in the mechanism installation shell, and a cleaning gear is rotatably connected to the mechanism shell, the mechanism shell is provided with a miniature transverse guide groove, an L-shaped meshing pipe is sleeved in the miniature transverse guide groove and is meshed with the cleaning gear, one end of the L-shaped meshing pipe, which is positioned in the auxiliary mechanism mounting cavity, is provided with a first electromagnet, the inlet of the stirring shell is provided with a second electromagnet corresponding to the first electromagnet, the mechanism shell is provided with an electromagnet switch, the electromagnet switch is electrically connected with the first electromagnet and the second electromagnet and is used for controlling the on-off of the first electromagnet and the second electromagnet, the mechanism shell is provided with a cleaning solution feed inlet, and the cleaning solution feed inlet is communicated with the stirring shell through a connecting pipe fitting;

a guide rail and a sliding door are arranged in the fluid channel, a switch sliding block is connected to the guide rail in a sliding mode, a fourth driving part is arranged on the switch sliding block and used for driving the switch sliding block to slide along the guide rail, a connecting sliding block is fixedly connected to the sliding door, a switch connecting rod is connected to the switch sliding block in a hinged mode, one end, away from the switch sliding block, of the switch connecting rod is connected with the connecting sliding block in a hinged mode, a flow regulating mechanism is arranged in the fluid channel and used for regulating the flow of the fluid channel;

the fluid channel outlet is located within the reservoir.

Preferably, flow control mechanism includes flow control plate, flow control plate is located the outer one end hinged joint of fluid passage is in the mechanism casing, and coaxial hinged joint has the regulation meshing tooth on its hinged joint, be equipped with first spout and second spout in the mechanism casing, first spout with second spout mutually perpendicular, sliding connection has first regulation rack in the first spout, sliding connection has the second to adjust the rack in the second spout, adjust the meshing tooth with first regulation rack intermeshing, the second is adjusted the rack and is located the outer one end fixedly connected with of mechanism casing presses the piece, press fixedly connected with second elastic component on the piece.

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

the body cover adjusting mechanism comprises a body cover adjusting mechanism mounting cavity, a first belt wheel, a second belt wheel, a first engaging wheel and a second engaging wheel are rotationally connected in the body cover adjusting mechanism mounting cavity, the first belt wheel is coaxial with the first meshing wheel, the second belt wheel is coaxial with the second meshing wheel, a conveying belt is arranged between the first belt wheel and the second belt wheel, a placing opening is arranged on the main machine body, the main machine body is connected with an engaging cover in a sliding way, the engaging cover is engaged with the first engaging wheel, an adjusting rack is arranged in the mounting cavity of the body cover adjusting mechanism, the adjusting rack is meshed with the second meshing wheel, the adjusting rack is fixedly connected with a connecting block, one end of the connecting block, which is positioned outside the main machine body, is sleeved with an adjusting screw rod, the adjusting screw rod is provided with a second driving piece, and the second driving piece is used for driving the adjusting screw rod to rotate;

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

the clamping mechanism comprises clamping blocks, clamping block mounting grooves are symmetrically arranged in the bearing net, the clamping blocks are slidably connected in the clamping block mounting grooves, a sealing gasket is arranged at the outlet of the clamping block mounting groove, a third elastic piece is fixedly connected onto the clamping blocks, one end, far away from the clamping blocks, of the third elastic piece is fixedly connected with the bottom of the clamping block mounting groove, an adjusting steel rope is fixedly connected onto the clamping blocks, an adjusting mechanism mounting cavity is arranged 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, still be equipped with first reel and second reel in the adjustment mechanism installation cavity, two adjust the steel cable and keep away from the one end of joint piece is in proper order around first reel with the second reel with first steel cable connection rack with second steel cable connection rack fixed connection.

Preferably, the method further comprises the following steps:

glasses drying mechanism, glasses drying mechanism installs in the main part machine body for after glasses wash and finish, carry out drying process to glasses, glasses drying mechanism includes:

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

a fresh air system for promoting rapid circulation of air within the main body;

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;

drying mechanism fault alarm system includes:

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

a flow rate sensor provided in the main body for detecting an air flow rate in the main body;

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

the controller, the alarm, the controller with humidity transducer flow rate sensor temperature sensor the timer with the alarm electricity is connected, the controller is based on humidity transducer flow rate sensor temperature sensor with the timer control the alarm is reported to the police and is based on following step:

the method comprises the following steps: calculating the actual effective dehumidification amount of the fresh air system based on the humidity sensor, the flow velocity sensor and a formula (1):

wherein Q is_stTau is the density of the air in the main body delta which is the actual effective dehumidification capacity of the fresh air system₂Humidity of air in the main body before the operation of the glasses drying mechanism, that is, a detection value, delta, of the humidity sensor₁The humidity of the air in the main body after the work of the glasses drying mechanism is finished, namely the detection value of the humidity sensor, alpha is the effective action 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,

the actual flow rate of the air in the main body, namely the detection value of the flow rate sensor,

the preset flow rate of the air in the main body is set;

step two: calculating an actual integrated effective dehumidification rate for the eyewear drying mechanism based on the humidity sensor, the temperature sensor, the timer, step one, and equation (2):

wherein Q is_sFor the actual integrated effective dehumidification, Q, of said glasses drying means_stFor the actual effective dehumidification capacity of the fresh air system, R is the volume in the main body, and E is the effective action ratio coefficient of the heating lamp tube, T_stIs a value detected by the temperature sensor, T₀The temperature of the air in the main machine body is taken as t, and the working time of the heating lamp tube is taken as t;

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

Preferably, the method further comprises the following steps:

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

the re-cleaning alarm system judges the first cleaning condition of the cleaned glasses and carries out a secondary cleaning reminding process on the user as follows:

calculating the overall longitudinal settling velocity of the impurities in the cleaning liquid in the liquid storage tank based on the following formula:

wherein, V_gIs the integral longitudinal sedimentation velocity of impurities in the cleaning liquid in the liquid storage tank, eta is the integral flow velocity of the cleaning liquid in the liquid storage tank, g is the gravity acceleration, d_maxIs the maximum diameter of impurities in the cleaning liquid in the liquid storage tank, d_minIs the minimum diameter, chi, of impurities in the cleaning liquid in the liquid storage tank₁Is the molecular diffusion coefficient, chi, of impurities in the cleaning liquid in the liquid storage tank₂The motion diffusion coefficient of impurities in the cleaning liquid in the liquid storage tank is shown, sin theta is the sine value of theta, and theta is an acute angle formed by the integral flow velocity direction and the vertical direction of the cleaning liquid in the liquid storage tank;

when the whole vertical settling velocity of impurity is greater than in the cleaning solution in the reservoir the whole vertical settlement velocity of presetting of impurity in the cleaning solution in the reservoir proves that impurity is numerous in the cleaning solution of first clean glasses, need carry out the secondary cleaning to glasses, at this moment clean alarm system once more reports to the police, reminds the user to carry out the secondary cleaning.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the cleaning liquid mixing mechanism of the present invention.

Fig. 3 is a schematic structural diagram of the adjusting mechanism of the present invention.

In the figure: 1. a main body; 100. mounting grooves; 101. an outlet 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 transverse adjusting slide block; 106. a longitudinal guide bar; 107. drying the main body; 2. a cleaning liquid mixing mechanism; 200. a mechanism housing; 2000. an electromagnet switch; 2001. a cleaning liquid feed inlet; 2002. connecting pipe fittings; 2003. a second electromagnet; 2004. a first elastic member; 2005. plugging plugs; 201. stirring the shell; 202. a stirring body; 2020. a first driving member; 2021. a stirring paddle; 203. an inlet; 204. a first outlet; 205. a fluid channel; 2050. a guide rail; 2051. a sliding door; 2052. a switch slider; 2053. connecting the sliding block; 2054. a switch link; 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. a plugging block guide groove; 2076. cleaning the gear; 2077. a micro transverse guide groove; 2078. an L-shaped engaging tube; 208. an auxiliary mechanism; 2080. a first through hole; 2081. a T-shaped button; 209. a flow rate adjusting mechanism; 2090. a flow regulating plate; 2091. adjusting the meshing teeth; 2092. a second chute; 2093. a first adjusting rack; 2094. a second adjusting rack; 2095. pressing the block; 2096. a second elastic member; 2097. a first chute; 3. an adjustment mechanism; 300. a body cover adjustment mechanism; 3000. the body cover adjusting mechanism mounting cavity; 3001. a first pulley; 3002. a second pulley; 3003. a first meshing wheel; 3004. a second meshing wheel; 3005. a conveyor belt; 3006. a placement port; 3007. an engagement cover; 3008. adjusting the rack; 3009. connecting blocks; 301. a carrier net adjustment mechanism; 3010. adjusting the lead screw; 3011. a clamping groove; 3012. a carrying net; 3013. a lifting adjustment member; 3014. a clamping block; 3015. a clamping block mounting groove; 3016. a 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. a second reel.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

In addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to an order or sequence, and do not limit the present invention, but only distinguish components or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions and technical features between various embodiments can be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not be within the protection scope of the present invention.

The present invention provides the following examples:

example 1

The embodiment of the invention provides an ultrasonic cleaning machine without damaging a film coating of a glasses, which comprises a main machine body 1, wherein a liquid storage tank 103 is arranged in the main machine body 1, a mounting groove 100 is arranged at the bottom of the main machine 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 power supply module, an ultrasonic generator module, an insulating sheet 1020 and a square plate 1021, the battery/mains supply power supply module and the ultrasonic generator module are electrically connected to the square plate 1021, the insulating sheet 1020 is adhered to the bottom of the liquid storage tank 103, the square plate 1021 is adhered to the insulating sheet 1020, the battery/mains supply power 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 separately excited circuit and is used for automatically acquiring the optimal working frequency of the cleaning device to drive the square plate 1021 to work;

the square piece 1021 is a cuboid and is made of a ceramic material;

the square plate 1021 includes a length dimension, a width dimension, and a thickness dimension, one of the length dimension and the width dimension for controlling the output frequency of the ultrasound transducer assembly 102, and the other for varying the power capacity of the ultrasound transducer assembly 102.

The working principle and the beneficial effects of the technical scheme are as follows: when the cleaning machine is used, glasses to be cleaned are placed in the liquid storage tank 103, cleaning liquid is poured into the liquid storage tank 103 in the main machine body 1, then the ultrasonic transducer assembly 102 works, the ultrasonic transducer assembly 102 can convert sound energy of ultrasonic waves into mechanical vibration, the cleaning liquid is radiated by the ultrasonic waves, micro bubbles in the cleaning liquid are kept in a vibration state under the action of the ultrasonic waves, the adsorption between the glasses to be cleaned and dust and impurities on the glasses to be cleaned is damaged, the glasses are separated from each other, the cleaning liquid is discharged through the discharge port 101 after the glasses are cleaned, the design of the ultrasonic transducer assembly 102 avoids the condition that cleaning cloth scratches a spectacle lens caused by the cleaning of the glasses, meanwhile, the areas such as a slot of the glasses and the like can be cleaned, and the problem that most of the existing glasses are cleaned by the glasses cloth is solved, the original dust on the glasses is often driven to move in the process of wiping the glasses, so that the glasses are scratched by the dust, the scratches distributed on the glasses can affect the sight line due to long-term cleaning of glasses cloth, and meanwhile, the glasses cloth cannot be cleaned in areas such as slots and the like;

the square piece 1021 is a cuboid, compared with a traditional circular ceramic piece, in the plane dimension, the rectangular piezoelectric ceramic piece has two groups of resonance frequencies in the length direction and the width direction, and the circular piezoelectric ceramic piece 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 plate 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, when the width dimension of the square plate 1021 is reduced to 25mm, the frequency of the cleaning machine can be raised to about 70kHz, and when the width dimension is reduced to 20mm, the frequency can be raised to about 85kHz, and as the dimension is further reduced, the frequency of the cleaning machine can be rapidly increased. The size in the length direction is well controlled, the power required by cleaning the glasses can be ensured, meanwhile, the length of the square piece 1021 is increased, the sound field uniformity in the liquid storage tank 103 can be improved, the cleaning effect is ensured, and the phenomenon that the coated layer of the glasses is washed out due to uneven sound field is avoided.

Example 2

On the basis of above-mentioned embodiment 1, sliding connection has stoving slide rail 104 on the host computer body 1, sliding connection has horizontal adjusting slider 105 on the stoving slide rail 104, be equipped with the slider driving piece on the horizontal adjusting slider 105, the slider driving piece is used for the drive horizontal adjusting slider 105 is followed stoving slide rail 104 removes, vertical guide arm 106 of fixedly connected with on the horizontal adjusting slider 105, sliding connection has stoving main part 107 on vertical guide arm 106, be equipped with the main part driving piece on the stoving main part 107, the main part driving piece is used for the drive stoving main part 107 is followed vertical guide arm 106 slides.

The working principle and the beneficial effects of the technical scheme are as follows: when the glasses drying machine is used, the sliding block driving piece drives the transverse adjusting sliding block 105 to move along the drying sliding 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 cleaned glasses in the liquid storage tank 103 and the liquid storage tank 103, and therefore the growth of bacteria in the liquid storage tank 103 is avoided, and meanwhile, the natural drying time of the glasses is saved.

Example 3

On the basis of embodiment 1 or 2, a cleaning solution mixing mechanism 2 is arranged on the main body 1, the cleaning solution mixing mechanism 2 includes a mechanism housing 200, a stirring housing 201 is arranged in the mechanism housing 200, a stirring main body 202 is arranged in the stirring housing 201, the stirring main body 202 includes a first driving member 2020, an output end of the first driving member 2020 is connected with a stirring paddle 2021, the stirring housing 201 is provided with an inlet 203, a first outlet 204 and a second outlet 206, the first outlet 204 is provided with a fluid passage 205, the second outlet 206 is provided with a leakage blocking plug 2005, the mechanism housing 200 is provided with an auxiliary mechanism mounting cavity 207, and the auxiliary mechanism mounting cavity 207 is provided with an auxiliary mechanism 208;

the auxiliary mechanism 208 includes a first through hole 2080, the first through hole 2080 is provided on the auxiliary mechanism installation 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 installation casing 2070 is provided in the auxiliary mechanism installation cavity 207, a first auxiliary rack 2071, a second auxiliary rack 2072 and an auxiliary gear 2073 are provided in the mechanism installation casing 2070, two sides of the auxiliary gear 2073 are respectively engaged 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 the mechanism installation casing 2070 in a sliding manner, one end of the T-shaped button 2081 is located outside the mechanism casing 200, the other end of the T-shaped button 2081 is located in the mechanism installation casing 2080, a block 2074 is fixedly connected on the second auxiliary rack 2072, a block guide groove 2075 is arranged on the mechanism mounting casing 2070, a cleaning gear 2076 is rotatably connected on the mechanism casing 200, the mechanism casing 200 is provided with a micro transverse guide groove 2077, an L-shaped engaging tube 2078 is sleeved in the micro transverse guide groove 2077, the L-shaped engaging pipe 2078 is engaged with the cleaning gear 2076, a first electromagnet is arranged at one end of the L-shaped engaging pipe 2078 in the auxiliary mechanism installation 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 provided on the mechanism case 200, the electromagnet switch 2000 is electrically connected to the first electromagnet and the second electromagnet 2003, for controlling the power on and off of the first electromagnet and the second electromagnet 2003, a cleaning liquid feed opening 2001 is provided on the mechanism housing 200, the cleaning liquid feed opening 2001 is communicated with the stirring shell 201 through a connecting pipe 2002;

a guide rail 2050 and a sliding door 2051 are arranged in the fluid channel 205, the guide rail 2050 is connected with a switch slider 2052 in a sliding manner, the switch slider 2052 is provided with a fourth driving part, the fourth driving part is used for driving the switch slider 2052 to slide along the guide rail 2050, the sliding door 2051 is fixedly connected with a connecting slider 2053, the switch slider 2052 is hinged with a switch connecting rod 2054, one end of the switch connecting rod 2054, which is far away from the switch slider 2052, is hinged with the connecting slider 2053, a flow regulating mechanism 209 is arranged in the fluid channel 205, 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 rate adjusting mechanism 209 includes a flow rate adjusting plate 2090, one end of the flow rate adjusting plate 2090 located outside the fluid passage 205 is hinged inside the mechanism housing 200, and an adjusting engaging tooth 2091 is coaxially hinged on the hinged point, a first sliding groove 2097 and a second sliding groove 2092 are arranged inside 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 engaging tooth 2091 is engaged with the first adjusting rack 2093, a pressing block 2095 is fixedly connected to one end of the second adjusting rack 2094 located outside the mechanism housing 200, 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 liquid is poured into the stirring shell 201 through the cleaning liquid feeding hole 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 block 2074 to move upwards along the block guide groove 2075, the block 2074 moves upwards to block the inlet 203, meanwhile, the fourth driving part 2020 drives the switch slider 2052 to slide along the guide rail 2050, so that the sliding door 2051 blocks the first outlet 204 under the action of the connecting slider 2053 and the switch connecting rod 2054, and then the first driving part 2020 drives the stirring paddle 2021 to rotate to make the cleaning liquid in the stirring shell fully and uniformly stir, when the cleaning liquid is uniform, the fourth driving element drives the switch slider 2052 to slide along the guide rail 2050, so that the first outlet 204 is opened, and the cleaning liquid in the stirring shell 201 flows into the liquid storage tank 103 along the fluid channel 205;

when the flow rate of the cleaning liquid flowing in the fluid channel 205 needs to be adjusted, the flow rate adjusting mechanism 209 is activated, and the pressing block 2095 is pressed, 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 engaging tooth 2091 to rotate, the adjusting engaging tooth 2091 rotates 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 cleaning, the block 2074 is reset, the cleaning gear 2076 rotates to drive the output end of the L-shaped meshing pipe 2078 to be aligned with the inlet 203, then the electromagnet switch 2000 is pressed to enable the first electromagnet and the second electromagnet 2003 to be powered on, the output end of the L-shaped meshing pipe 2078 is matched with the inlet 203 under the action of electromagnetic force, then water is led into the L-shaped meshing pipe 2078, the stirring paddle 2021 can be started again to clean the inner wall of the stirring shell 201, after cleaning, the blocking plug 2005 is pulled down to enable the water to flow out from the second outlet 206, so that the effect of cleaning the inner wall of the stirring shell 201 is achieved, bacteria are prevented from breeding by cleaning the inner wall of the stirring shell 201, and 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 body 1, and the adjusting mechanism 3 comprises a body cover adjusting mechanism 300 and a bearing net adjusting mechanism 301;

organism lid adjustment mechanism 300 includes organism lid adjustment mechanism installation cavity 3000, organism lid adjustment mechanism installation cavity 3000 internal rotation is connected with first band pulley 3001, second band pulley 3002, first engaging wheel 3003, second engaging wheel 3004, first band pulley 3001 with first engaging wheel 3003 is coaxial, second band pulley 3002 with second engaging wheel 3004 is coaxial, first band pulley 3001 with be equipped with conveyer belt 3005 between the second band pulley 3002, be equipped with on the host computer body 1 and place a mouthful 3006, sliding connection covers 3007 on the host computer body 1, meshing cover 3007 with first engaging wheel 3003 intermeshing, be equipped with regulation rack 3008 in organism lid adjustment mechanism installation cavity 3000, adjust rack 3008 with second engaging wheel 3004 intermeshing, fixedly connected with connecting block 3009 on the regulation rack 3008, connecting block 3009 is located the outer pot head of the host computer body 1 is equipped with and adjusts lead screw 3010, a second driving piece is arranged on the adjusting screw 3010 and is used for driving the adjusting screw 3010 to rotate;

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

the clamping mechanism comprises a clamping block 3014, clamping block mounting grooves 3015 are symmetrically arranged in the bearing net 3012, the clamping block 3014 is slidably connected in the clamping block mounting groove 3015, a sealing pad 3016 is arranged at an outlet of the clamping block mounting groove 3015, a third elastic piece 3017 is fixedly connected to the clamping block 3014, one end of the third elastic piece 3017, which is far away from the clamping block 3014, is fixedly connected to the bottom of the clamping block mounting groove 3015, an adjusting steel rope 3018 is fixedly connected to the clamping block 3014, an adjusting mechanism mounting cavity 3019 is arranged 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, a third driving piece is arranged on the steel rope adjusting gear 3021 and is used for driving the steel rope adjusting gear 3021 to rotate, two sides of the steel rope adjusting gear 3021 are respectively engaged with the first steel rope connecting rack 302 and the second steel rope connecting rack 3020, still be equipped with first reel 3022 and second reel 3023 in the adjustment mechanism installation cavity 3019, two adjust the steel cable 3018 and keep away from first reel 3022 is walked around in proper order to the one end of joint piece 3014 with second reel 3023 with first cable connection rack 302 with second cable connection rack 3020 fixed connection.

The working principle and the beneficial effects of the technical scheme are as follows: when the 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 engaging wheel 3004 to rotate, the second engaging 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 conveyor belt 3005, the first belt wheel 3001 rotates to drive the first engaging wheel 3003 to rotate, and the first engaging wheel 3003 rotates to drive the engaging cover 3007 to move back and forth, so that the opening and closing of the placing opening 3006 are realized;

the design of the body cover adjusting mechanism 300 facilitates the user to adjust the opening and closing state of the placing opening 3006, and is safer and more sanitary compared with the conventional method of adjusting the opening and closing state of the placing opening 3006 by hand;

when the bearing 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 rope 3018, the clamping block 3014 connected with the adjusting steel rope 3018 is in a clamping state with the clamping groove 3011, the third elastic member 3017 is in a compression state when the third elastic member is in a separation state, then the lifting adjusting member 3013 telescopically adjusts the height of the bearing net 3012, when the height is adjusted in place, the third driving member drives the steel rope adjusting gear 3021 to rotate anticlockwise, the clamping block 3014 is clamped with the clamping groove 3011 again under the action of the third elastic member 3017, completing the height adjustment of the carrying net 3012;

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

Example 5

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

glasses drying mechanism, glasses drying mechanism installs in the host computer body 1 for after glasses wash and finish, 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;

a fresh air system for promoting rapid circulation of air in the main body 1;

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;

drying mechanism fault alarm system includes:

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

a flow rate sensor provided in the main body 1 for detecting an air flow rate in the main body 1;

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

the controller, the alarm, the controller with humidity transducer flow rate sensor temperature sensor the timer with the alarm electricity is connected, the controller is based on humidity transducer flow rate sensor temperature sensor with the timer control the alarm is reported to the police and is based on following step:

the method comprises the following steps: calculating the actual effective dehumidification amount of the fresh air system based on the humidity sensor, the flow velocity sensor and a formula (1):

wherein Q is_stIs the actual effective dehumidification amount (unit is kg/s) of the fresh air system, tau is the density of the air in the main machine body 1, delta₂The humidity of the air in the main body 1 before the operation of the glasses drying mechanism, that is, the detection value, delta, of the humidity sensor₁The humidity of the air in the main body 1 after the work of the glasses drying mechanism is finished, namely the detection value of the humidity sensor, and alpha is the effective action ratio coefficient (value) of the fresh air system0.68-0.75), beta is the safety coefficient of the fresh air system (the value is 1.01-1.13), e is a natural number and the value is 2.72,

the actual flow rate of the 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 rate for the eyewear drying mechanism based on the humidity sensor, the temperature sensor, the timer, step one, and equation (2):

wherein Q is_sIs the actual integrated effective dehumidification amount (unit is kg/s), Q of the glasses drying mechanism_stFor the actual effective dehumidification capacity of the fresh air system, R is the volume in the main machine body 1, and epsilon is the effective action ratio coefficient (value is 0.25-0.32) of the heating lamp tube, and T_stIs a value detected by the temperature sensor, T₀The temperature of the air in the main machine body 1 is shown, and t is the working time of the heating lamp tube;

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

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

wherein the design of glasses drying mechanism has guaranteed that glasses can be dried by automation after finishing in the cleanness, compare in the mode of traditional direct dry of wiping, has avoided wiping the in-process and has polluted once more to the glasses lens, simultaneously heating fluorescent tube with the design of new trend system has increased on the one hand the temperature in the host computer body 1, on the other hand has increased the velocity of flow of air in the host computer body 1, makes the drop of water evaporation on the glasses in the host computer body 1 is very fast, has improved glasses drying mechanism's drying efficiency because the volume of hanging on the glasses can not directly be surveyed, adopts delta indirectly₂(humidity of air in the main body 1 before the operation of the glasses drying mechanism) and delta₁(the glasses drying mechanism work back of finishing the humidity of air in the host computer body 1) replace, alpha (the effective effect of new trend system accounts for the ratio coefficient) with epsilon (the effective effect of heating tube accounts for the ratio coefficient) introduce for the actual effective dehumidification of new trend system with the calculation of the effective dehumidification of synthesizing in reality of glasses drying mechanism is more accurate.

Example 6

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

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

the re-cleaning alarm system judges the first cleaning condition of the cleaned glasses and carries out a secondary cleaning reminding process on the user as follows:

calculating the overall longitudinal settling velocity of the impurities in the cleaning liquid in the sump 103 based on the following formula:

wherein, V_gIs the overall longitudinal settling 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_maxIs the maximum diameter of impurities in the cleaning liquid in the liquid reservoir 103, d_minIs the minimum diameter, chi, of impurities in the cleaning liquid in the liquid storage tank 103₁Is the molecular diffusion coefficient, chi, of impurities in the cleaning liquid in the liquid storage tank 103₂The motion diffusion coefficient of impurities in the cleaning liquid in the liquid storage tank 103 is shown, sin theta is the sine value of theta, and theta is an acute angle formed by the whole flow velocity direction and the vertical direction of the cleaning liquid in the liquid storage tank 103;

when the integral longitudinal sedimentation velocity of the impurities in the cleaning liquid in the liquid storage tank 103 is greater than the integral longitudinal preset sedimentation velocity of the impurities in the cleaning liquid in the liquid storage tank 103, the fact that the impurities in the cleaning liquid for cleaning the glasses for the first time are numerous is proved, the glasses need to be cleaned for the second time, and at the moment, the re-cleaning alarm system gives an alarm to remind a user of cleaning for the second time.

The working principle and the beneficial effects of the technical scheme are as follows: the design of the secondary cleaning alarm system can detect the primary cleaning condition of the cleaned glasses, remind the user whether to perform secondary cleaning according to the cleaning state of the secondary cleaning alarm system, remind the user to perform secondary cleaning on the glasses under the condition that impurities in the cleaning solution for cleaning the glasses for the first time are numerous, and ensure the cleanliness, X-shaped degree and the like of the cleaned glasses₁Molecular diffusion coefficient and chi of impurities in the cleaning liquid in the liquid storage tank 103₂The motion diffusion coefficient of the impurities in the cleaning liquid in the liquid storage tank 103 makes the calculation result more accurate.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. The ultrasonic cleaning machine is characterized by comprising a main machine body (1), 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).

2. The ultrasonic cleaning machine of claim 1, wherein the ultrasonic cleaning machine is capable of cleaning the coated film without damaging the glasses,

ultrasonic transducer subassembly (102) includes supersonic generator module, insulating piece (1020) and square piece (1021), the supersonic generator module with square piece (1021) electricity is connected, insulating piece (1020) adhesion in reservoir (103) bottom, square piece (1021) bond in on insulating piece (1020), the supersonic generator module is the switching power supply of auto-excitation formula or other excitation formula circuit for the best operating frequency drive square piece (1021) work of automatic acquisition cleaning equipment.

3. The ultrasonic cleaning machine of claim 2, wherein the ultrasonic cleaning machine is capable of cleaning the coated film without damaging the glasses,

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

the square plate (1021) includes a length dimension, a width dimension, and a thickness dimension, the length dimension and the width dimension, one of the dimensions being for controlling an output frequency of the ultrasonic transducer assembly (102), the other dimension being for varying a power capacity of the ultrasonic transducer assembly (102).

4. The ultrasonic cleaning machine of claim 1, wherein the ultrasonic cleaning machine is capable of cleaning the coated film without damaging the glasses,

sliding connection has stoving slide rail (104) on the host computer body (1), sliding connection has horizontal adjusting slider (105) on stoving slide rail (104), be equipped with the slider driving piece on horizontal adjusting slider (105), the slider driving piece is used for the drive horizontal adjusting slider (105) are followed stoving slide rail (104) remove, horizontal adjusting slider (105) are gone up vertical guide arm (106) of fixedly connected with, sliding connection has stoving main part (107) on vertical guide arm (106), be equipped with the main part driving piece on stoving main part (107), the main part driving piece is used for the drive stoving main part (107) are followed vertical guide arm (106) slide.

5. The ultrasonic cleaning machine of claim 1, wherein the ultrasonic cleaning machine is capable of cleaning the coated film without damaging the glasses,

the cleaning solution mixing mechanism is characterized in that 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 leakage stopping 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 arranged on the auxiliary mechanism installation 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 installation shell (2070) is arranged in the auxiliary mechanism installation cavity (207), a first auxiliary rack (2071), a second auxiliary rack (2072) and an auxiliary gear (2073) are arranged in the mechanism installation 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 in sliding connection in the mechanism installation shell (2070), one end of the T-shaped button (2081) is located outside the mechanism shell (200), the other end of the T-shaped button (2081) is located in the mechanism mounting casing (2070), a block (2074) is fixedly connected to the second auxiliary rack (2072), a block guide groove (2075) is formed in the mechanism mounting casing (2070), a cleaning gear (2076) is connected to the mechanism casing (200) in a rotating mode, a micro transverse guide groove (2077) is formed in the mechanism casing (200), an L-shaped meshing pipe (2078) is sleeved in the micro transverse guide groove (2077), the L-shaped meshing pipe (2078) is meshed with the cleaning gear (2076), a first electromagnet is arranged at one end of the L-shaped meshing pipe (2078) located 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 casing (201), and an electromagnet switch (2000) is arranged on the mechanism casing (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 (2003), a cleaning liquid feeding hole (2001) is formed in the mechanism shell (200), and the cleaning liquid feeding hole (2001) is communicated with the stirring shell (201) through a connecting pipe fitting (2002);

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

6. The ultrasonic cleaning machine of claim 5, wherein the ultrasonic cleaning machine is used for cleaning the coated film of the glasses,

the flow regulating mechanism (209) comprises a flow regulating plate (2090), one end of the flow regulating plate (2090) positioned outside the fluid passage (205) is hinged in the mechanism shell (200), and the hinge joint point is coaxially hinged with an adjusting engaging tooth (2091), a first sliding chute (2097) and a second sliding chute (2092) are arranged in the mechanism shell (200), the first sliding groove (2097) and the second sliding groove (2092) are perpendicular to each other, a first adjusting rack (2093) is connected in the first sliding groove (2097) in a sliding mode, a second adjusting rack (2094) is connected in the second sliding groove (2092) in a sliding way, the adjusting meshing teeth (2091) are meshed with the first adjusting rack (2093), one end, located outside the mechanism shell (200), of the second adjusting rack (2094) is fixedly connected with a pressing block (2095), and a second elastic piece (2096) is fixedly connected to the pressing block (2095).

7. The ultrasonic cleaning machine of claim 1, wherein the ultrasonic cleaning machine is capable of cleaning the coated film without damaging the glasses,

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);

organism lid adjustment mechanism (300) includes organism lid adjustment mechanism installation cavity (3000), organism lid adjustment mechanism installation cavity (3000) internal rotation is connected with first band pulley (3001), second band pulley (3002), first engaging wheel (3003), second engaging wheel (3004), first band pulley (3001) with first engaging wheel (3003) are coaxial, second band pulley (3002) with second engaging wheel (3004) are coaxial, first band pulley (3001) with be equipped with conveyer belt (3005) between second band pulley (3002), be equipped with on the host computer body (1) and place mouth (3006), sliding connection has engaging cover (3007) on the host computer body (1), engaging cover (3007) with first engaging wheel (3003) intermeshing, be equipped with regulation rack (3008) in organism lid adjustment mechanism installation cavity (3000), regulation rack (3008) with second engaging wheel (3004) intermeshing, a connecting block (3009) is fixedly connected to the adjusting rack (3008), an adjusting lead screw (3010) is sleeved at one end, located outside the main body (1), of the connecting block (3009), a second driving piece is arranged on the adjusting lead screw (3010), and the second driving piece is used for driving the adjusting lead screw (3010) to rotate;

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

the clamping mechanism comprises a clamping block (3014), clamping block mounting grooves (3015) are symmetrically arranged in the bearing net (3012), the clamping block (3014) is connected in the clamping block mounting groove (3015) in a sliding manner, a sealing gasket (3016) is arranged at the outlet of the clamping block mounting groove (3015), a third elastic piece (3017) is fixedly connected to the clamping block (3014), one end, far away from the clamping block (3014), of the third elastic piece (3017) is fixedly connected with the bottom of the clamping block mounting groove (3015), an adjusting steel rope (3018) is fixedly connected to the clamping block (3014), an adjusting mechanism mounting cavity (3019) is arranged 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), a third driving piece is arranged on the steel rope adjusting gear (3021), the third driving piece is used for the drive steel cable adjusting gear (3021) rotates, steel cable adjusting gear (3021) both sides respectively with first steel cable connecting rack (302) with second steel cable connecting rack (3020) intermeshing, still be equipped with first reel (3022) and second reel (3023) in adjustment mechanism installation cavity (3019), two adjust steel cable (3018) and keep away from first reel (3022) are walked around in proper order to the one end of joint piece (3014) with second reel (3023) with first steel cable connecting rack (302) with second steel cable connecting rack (3020) fixed connection.

8. The ultrasonic cleaning machine of claim 1, further comprising:

glasses drying mechanism, glasses drying mechanism installs in the host computer body (1) for after glasses wash and finish, 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);

a fresh air system for promoting rapid circulation of air within the main body (1);

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;

drying mechanism fault alarm system includes:

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

a flow rate sensor provided in said main body (1) for detecting the air flow rate inside said main body (1);

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

the controller, the alarm, the controller with humidity transducer flow rate sensor temperature sensor the timer with the alarm electricity is connected, the controller is based on humidity transducer flow rate sensor temperature sensor with the timer control the alarm is reported to the police and is based on following step:

the method comprises the following steps: calculating the actual effective dehumidification amount of the fresh air system based on the humidity sensor, the flow velocity sensor and a formula (1):

wherein Q is_stTau is the density of the air in the main machine body (1) and delta is the actual effective dehumidification capacity of the fresh air system₂The humidity of the air in the main body (1) before the glasses drying mechanism works, namely the detection value delta of the humidity sensor₁Is a stand forAfter the glasses drying mechanism works, the humidity of the air in the main machine body (1), namely the detection value of the humidity sensor, alpha is the effective action 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,

is the actual flow rate of the air in the main body (1), namely the detection value of the flow rate sensor,

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

step two: calculating an actual integrated effective dehumidification rate for the eyewear drying mechanism based on the humidity sensor, the temperature sensor, the timer, step one, and equation (2):

wherein Q is_sFor the actual integrated effective dehumidification, Q, of said glasses drying means_stFor the actual effective dehumidification capacity of the fresh air system, R is the volume in the main machine body (1), and epsilon is the effective action ratio coefficient of the heating lamp tube, T_stIs a value detected by the temperature sensor, T₀The temperature of air in the main machine body (1) is shown, and t is the working time of the heating lamp tube;

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

9. The ultrasonic cleaning machine of claim 1, further comprising:

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

the re-cleaning alarm system judges the first cleaning condition of the cleaned glasses and carries out a secondary cleaning reminding process on the user as follows:

calculating the overall longitudinal settling velocity of the impurities in the cleaning liquid in the sump (103) based on the following formula:

wherein, V_gIs the integral longitudinal sedimentation velocity of impurities in the cleaning liquid in the liquid storage tank (103), eta is the integral flow velocity of the cleaning liquid in the liquid storage tank (103), g is the gravity acceleration, d_maxIs the maximum diameter of impurities in the cleaning liquid in the liquid storage tank (103), d_minIs the minimum diameter, chi, of impurities in the cleaning liquid in the liquid storage tank (103)₁Is the molecular diffusion coefficient, chi, of impurities in the cleaning liquid in the liquid storage tank (103)₂The motion diffusion coefficient of impurities in the cleaning liquid in the liquid storage tank (103) is shown, sin theta is the sine value of theta, and theta is an acute angle formed by the whole flow speed direction and the vertical direction of the cleaning liquid in the liquid storage tank (103);

when the whole vertical settling velocity of impurity in the cleaning fluid in reservoir (103) is greater than the whole vertical predetermined settling velocity of impurity in the cleaning fluid in reservoir (103), it is numerous to prove impurity in the cleaning fluid of first clean glasses, need carry out the secondary cleaning to glasses, clean alarm system warning once more this moment reminds the user to carry out the secondary cleaning.

Images