CN110338336A - The split type net feeder of one kind and its control method - Google Patents

Abstract

The present invention provides a kind of split type net feeder and its control methods, the net feeder includes the bucket body structure and understructure of two-piece unit setting, bucket body structure is equipped with upper gas-guiding structure, upper drive mechanism and the aeration component be connected with upper gas-guiding structure, being aerated component includes centrifugal impeller, and centrifugal impeller is connect with upper drive mechanism；Understructure includes lower gas-guiding structure, underdrive structure and the ozone generator assemblies be connected with lower gas-guiding structure, and underdrive structure is connected with electric machine assembly, and after combination, lower gas-guiding structure is connected with upper gas-guiding structure, and underdrive structure is connected with upper drive mechanism.This structure in the present invention can stablize realization high speed rotation when bucket body structure and understructure combine, generate the ozone gas that hydro jet ozone diffusion titanium plate is emerged, generate micro-nano bubble, improve rate of ozone dissolution, bucket body structure can be removed, from understructure easily again to facilitate the later period to clean and maintenance.

Description

The split type net feeder of one kind and its control method

Technical field

The present invention relates to electrical home appliances technical fields, in particular to a kind of split type net feeder and its control method.

Background technique

With the continuous development of society, requirement of the mankind to healthy diet is also higher and higher.Currently, commercially available The toxic organic compounds such as the possible residual chemical fertilizer in the surface of melon and fruit and vegetables, pesticide, various meats also have a large amount of bacteriums, therefore are eating If cannot effectively be thoroughly removed these residues with preceding, harm will be generated to human body over time.

Net feeder in the prior art is that ozone gas is directly provided into washing tube, and cleaning effect is bad, because smelly Oxygen is dissolved in water and needs certain contact area and time of contact, and direct aeration bubbles are big, and the rate of climb is fast, lead to ozone gas Small with water engaging surface product, residence time is short in water, and dissolved efficiency is not high, and ozone concentration is low, leads to sterilization and disinfection, removal agriculture The performance of medicine and fertilizer residue object is poor.In addition, the washing tube that general net feeder does not carry, in cleaning and sterilizing, Ji Yaoteng Out net feeder is placed in space, and vacating space places washing tube again, and which increases the requirement to operating space；Or it washes Wash bucket and net feeder be it is integrated, this causes follow-up equipment cleaning difficulty larger, and the maintenance of equipment of integral structure is at high cost.

Summary of the invention

Problems solved by the invention be net feeder sterilization and disinfection, removal pesticide and fertilizer residue object performance it is poor, and after Continuous equipment cleaning difficulty is big, and maintenance of equipment is at high cost.

At least one of in order to solve the above problem aspect, the present invention provide a kind of desk-top split type net feeder, including upper The bucket body structure and understructure of lower split settings, the bucket body structure be equipped with upper gas-guiding structure, upper drive mechanism and with it is described The aeration component of upper gas-guiding structure conducting, the aeration component include the centrifugal impeller for driving hydro jet ozone gas, The centrifugal impeller is connect with the upper drive mechanism；The understructure include lower gas-guiding structure, underdrive structure and with institute The ozone generator assemblies of lower gas-guiding structure conducting are stated, the underdrive structure is connected with electric machine assembly, when bucket body structure and bottom After holder structure combination, the lower gas-guiding structure is connected with the upper gas-guiding structure, the underdrive structure and the upper transmission knot Structure connection.

Preferably, the bucket body structure includes the staving ontology for holding water, and the upper gas-guiding structure includes running through institute The staving check valve of staving body bottom portion is stated, the upper drive mechanism includes the central axis and company through the staving body bottom portion Connect the second jointing seat in the lower end of the central axis；The understructure includes base body, the lower gas-guiding structure packet The bottom check valve being set in the base body is included, the underdrive structure includes be connected to the electric machine assembly upper end the One jointing seat.

Preferably, the bucket body structure further includes staving seat, and the staving seat is connect simultaneously with the lower end of the staving ontology Accommodating chamber is formed, the staving check valve and the central axis are arranged in the accommodating chamber.

Preferably, the base body is equipped with first boss and second boss, and the first boss is equipped with for installing The first boss hole of the first jointing seat is stated, the second boss is equipped with the second boss for installing the bottom check valve Hole；Staving seat bottom is equipped with the mounting hole for being set in outside the first boss and the second boss, the installation The inner wall in hole is equipped with multiple positioning convex strips, and multiple positioning convex strips are uniformly arranged on the inner wall of the mounting hole, the installation The second jointing seat and staving check valve being respectively cooperating with first jointing seat and the bottom check valve are equipped in hole.

Preferably, the base body is equipped with the recessed chamber for placing the staving seat, the side of the recessed chamber Wall is equipped with the mistake proofing location structure cooperated with the staving seat.

Preferably, the understructure further includes the microswitch component for controlling complete machine power on/off, and the fine motion is opened Closing component includes microswitch and the contact for triggering the microswitch, and the staving seat is equipped with matches with the contact The pillar of conjunction；The ozone generator assemblies include sequentially connected ozone generator and air pump, the ozone generator outside Equipped with cooling fan is used for, the gas outlet of the ozone generator is connected to the air inlet of the bottom check valve.

Preferably, the aeration component further includes that isolation cover, cover board and the ozone for generating the ozone spread titanium plate, Chamber is formed between the cover board and the staving ontology, the isolation cover is arranged in the chamber and separates the chamber For upper chamber and lower chambers；The ozone diffusion titanium plate is arranged in the bottom chamber and the lower chambers is divided into mixing chamber Disperse chamber with gas, the staving check valve is connected with gas dispersion chamber.

Preferably, the opening of the staving ontology is stamped cap structure, and the cap structure includes lid, the lid Lower surface be equipped with the spacing collar with the opening cooperation of the staving ontology, the outer wall of the spacing collar is equipped with multiple raised lines.

Preferably, the understructure further includes control assembly, and the control assembly includes key and timer.

Compared with the existing technology, the desk-top split type net feeder in the present invention, by the way that upper gas-guiding structure and lower air guide is arranged The design of structure cooperation and upper drive mechanism and the cooperation of underdrive structure, realizes the split settings of net feeder, this structure is in bucket Body structure and understructure can stablize realization high speed rotation when combining, and generate the ozone that hydro jet ozone diffusion titanium plate is emerged Gas generates micro-nano bubble, rate of ozone dissolution is improved, and bucket body structure can be easily removed from understructure, after facilitating Phase cleaning and maintenance.

Next provides a kind of control method of split type net feeder as described above, comprising steps of judging microswitch Whether connect；If the microswitch is connected, judge whether to receive enabling signal；If receiving the enabling signal, give Electrical power；Judge the conduction time of the motor；If the conduction time is more than or equal to the first preset time, sent out to ozone Raw device, air pump and fan are powered；Judge the count down time of timer；If the count down time is default less than or equal to second Between and be greater than third preset time, then control ozone generator power-off；If the count down time is less than or equal to described the Three preset times then control the motor, the air pump and the fan and power off.

Detailed description of the invention

Fig. 1 is the cross-sectional view one of desk-top split type net feeder described in the embodiment of the present invention；

Fig. 2 is the enlarged drawing in the portion A in Fig. 1；

Fig. 3 is the enlarged drawing in the portion B in Fig. 1；

Structure chart one when Fig. 4 is the fission of desk-top split type net feeder described in the embodiment of the present invention；

Fig. 5 is the partial exploded view of desk-top split type net feeder described in the embodiment of the present invention；

Structure chart two when Fig. 6 is the fission of desk-top split type net feeder described in the embodiment of the present invention；

Fig. 7 is the structure chart of bottom cover structure described in the embodiment of the present invention；

Fig. 8 is the structure chart of staving ontology described in the embodiment of the present invention；

Fig. 9 is the enlarged drawing in the portion C in Fig. 8；

Figure 10 is the structure chart of cap structure described in the embodiment of the present invention；

Figure 11 is the enlarged drawing in the portion D in Figure 10；

Figure 12 is the inside local structural graph of desk-top split type net feeder described in the embodiment of the present invention；

Figure 13 is the explosive view of electric machine assembly described in the embodiment of the present invention；

Figure 14 is the explosive view of the first jointing seat described in the embodiment of the present invention；

Figure 15 is the explosive view that component is aerated described in the embodiment of the present invention；

Figure 16 is the explosive view of the inside partial structurtes of bucket body structure described in the embodiment of the present invention；

Figure 17 is the partial exploded view of air guide mechanism described in the embodiment of the present invention；

Figure 18 is the internal structure chart of base body described in the embodiment of the present invention；

Figure 19 is the structure chart of understructure described in the embodiment of the present invention；

Figure 20 is the local structural graph of understructure described in the embodiment of the present invention；

Figure 21 is the structure chart one of base body described in the embodiment of the present invention；

Figure 22 is the structure chart two of base body described in the embodiment of the present invention；

Figure 23 is the partial exploded view of understructure described in the embodiment of the present invention；

Figure 24 is the structure chart one of microswitch component described in the embodiment of the present invention；

Figure 25 is the structure chart two of microswitch component described in the embodiment of the present invention；

Figure 26 is the cross-sectional view two of desk-top split type net feeder described in the embodiment of the present invention；

Figure 27 is the enlarged drawing in the portion E in Figure 26；

Figure 28 is the enlarged drawing in the portion F in Figure 26.

Description of symbols:

1- understructure, 11- base body, 111- first boss, 1111- first boss hole, 112- second boss, 1121- second boss hole, the recessed chamber of 113-, the first locating convex block of 1131-, the second locating convex block of 1132-, 114- third are convex Platform, 1141- third boss hole, 115- drainage hole, the first jointing seat of 12-, 121- limiting slot, 122- stop nut, 13- motor Component, 131- motor, 132- shock absorber part, bolster in 1321-, the first fixed frame of 1322-, the second fixed frame of 1323-, 14- control Component processed, 141- key, 142- timer, 15- microswitch component, 151- microswitch, 152- contact, 1521- inclination Face, 153- contact shell, 16- bottom check valve, 161- second one-way valve lid, the second gasket of 162-, the second spool of 163-, 164- second one-way valve shell, 165- second spring, the unidirectional valve seals of 166-, 17- ozone generator assemblies, 171-L type pipe, 172- ozone generator, 173- fan, 174- heat-dissipating pipe, 175- air pump；

2- bucket body structure, 21- staving ontology, the first air inlet of 211-, 2111- small through hole, 22- staving seat, 221- installation Hole, 2211- positioning convex strip, the first positioning groove of 222-, the second positioning groove of 223-, 224- pillar, 225- third positioning groove, The first foot pad of 226-, 23- basket, 24- aeration component, 241- ozone diffusion titanium plate, 242- centrifugal impeller, 243- titanium plate pressing plate, 244- isolation cover, 245- cover board, 246- the first titanium plate sealing ring, 247- chamber, 2471- upper chamber, 2472- lower chambers, 24721- mixing chamber, 24722- gas disperse chamber, 248- the second titanium plate sealing ring, 25- staving check valve, the first check valve of 251- Lid, the first gasket of 252-, the first spool of 253-, the first check-valve body of 254-, the first spring of 255-, 256- plain cushion, 26- axle sleeve Component, 261- axle sleeve, 262- oil sealing, 2621- fluorine rubber ring, the zinc-plated framework of 2622-, 263- nut, 264- sleeve sealing circle, The first bushing of 265-, the second bushing of 266-, 27- central axis, 271- circlip, 272- teflon gasket, the second connector of 28- Seat, 281- attachment base skeleton；

3- bottom cover structure, 31- bottom cover ontology, 32- filter cotton cover board, the second foot pad of 33-；

4- cap structure, 41- lid, 411- spacing collar, 412- raised line, 42- handle.

Specific embodiment

To make the above purposes, features and advantages of the invention more obvious and understandable, with reference to the accompanying drawing to the present invention Specific embodiment be described in detail.

In the description of the present invention, it is to be understood that, the orientation or positional relationship of the instructions such as term " on ", "lower" is base Orientation or positional relationship when product normal use.

Term " first ", " second " be used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance or Implicitly indicate the quantity of indicated technical characteristic." first " is defined as a result, the feature of " second " can be expressed or imply Ground includes at least one this feature.

The embodiment of the invention provides a kind of desk-top split type net feeders, in conjunction with Fig. 1, Fig. 2, Fig. 4, Fig. 5, Figure 15 and Figure 18 Shown, bucket body structure 2 and understructure 1 including two-piece unit setting, bucket body structure 2 is equipped with upper gas-guiding structure, upper transmission is tied Structure and the aeration component 24 be connected with upper gas-guiding structure, aeration component 24 include the centrifugation for driving hydro jet ozone gas Impeller 242, centrifugal impeller 242 are connect with upper drive mechanism；Understructure 1 is including lower gas-guiding structure, underdrive structure and under The ozone generator assemblies 17 of gas-guiding structure conducting, underdrive structure is connected with electric machine assembly 13, when bucket body structure 2 and pedestal knot After structure 1 combines, lower gas-guiding structure is connected with upper gas-guiding structure, and underdrive structure is connected with upper drive mechanism.

Wherein, ozone generator assemblies 17 are connected to aeration component 24, when electric machine assembly 13 works, can finally drive centrifugation Transmission is realized in the rotation of impeller 242, so that centrifugal impeller 242 drives water flow handle when ozone is transported in aeration component 24 Ozone gas is cut into small ozone bubbles being aerated in component 24, to improve the dissolution rate of ozone in water, Jin Erti The performance of the residues such as high sterilizing, removal fertilizer and pesticide.

Bucket body structure 2 and understructure 1 are that two-piece unit is arranged, in particular to bucket body structure 2 is removably attachable to bottom The top of holder structure 1, when needing to carry out net food work, bucket body structure 2 and understructure 1 interconnect, when need by When water in staving ontology 21 topples over or needs to carry out net feeder to tear open machine maintenance, bucket body structure 2 can take from understructure 1 Under.When bucket body structure 2 and understructure 1 are combined with each other, after upper gas-guiding structure and lower gas-guiding structure are connected with each other, ozone can be from Lower gas-guiding structure is transported to gas-guiding structure, to realize the air guide work of split type net feeder, upper drive mechanism and underdrive After structure is connected with each other, electric machine assembly 13 can drive underdrive structure to rotate, and underdrive structure drives upper drive mechanism rotation, from And realize the transmission work of split type net feeder.

In the present embodiment, by the way that upper gas-guiding structure and the cooperation of lower gas-guiding structure and upper drive mechanism and underdrive structure is arranged The design of cooperation realizes that the split settings of net feeder, this structure can be stablized when bucket body structure 2 and understructure 1 combine It realizes high speed rotation, generates the ozone gas that hydro jet ozone diffusion titanium plate 241 is emerged, generate micro-nano bubble, improve smelly Oxygen solubility ratio, and bucket body structure 2 can be easily removed from understructure 1, to facilitate the later period to clean and maintenance.

Preferably, in conjunction with shown in Fig. 1, Fig. 2 and Fig. 5, bucket body structure 2 includes the staving ontology 21 for holding water, is above led Depressed structure includes the staving check valve 25 through 21 bottom of staving ontology, and upper drive mechanism includes through 21 bottom of staving ontology Second jointing seat 28 of central axis 27 and the lower end for being connected to central axis 27；Understructure 1 includes base body 11, lower air guide Structure includes the bottom check valve 16 in the base body 11, and underdrive structure includes be connected to 13 upper end of electric machine assembly the One jointing seat 12.

Wherein, bottom check valve 16 and staving check valve 25 can prevent ozone from flowing backwards, the lower end of bottom check valve 16 with The connection of ozone generator assemblies 17, upper end are connected to the lower end of staving check valve 25, the upper end of staving check valve 25 and aeration group Part 24 is connected to, and the ozone gas that ozone generator generates successively is discharged into bucket body structure 2 from bottom check valve 16, staving check valve 25 Water in.

As shown in figure 16, the upper end of the first jointing seat 12 is equipped with multiple grooves, and the lower end of the second jointing seat 28 is equipped with The claw cooperated with the groove of the first jointing seat 12, when bucket body structure 2 and the intercombination of understructure 1, the first connector Claw of the groove of seat 12 also with the second jointing seat 28 is mutually inserted, and the two mutually limits, and prevents 12 He of the first jointing seat Second jointing seat 28 moves each other, and the rotation of centrifugal impeller 242 can be finally driven when electric machine assembly 13 works, real Now it is driven.

In conjunction with shown in Fig. 2 and Figure 16, attachment base skeleton 281 is equipped in the second jointing seat 28, the second jointing seat 28 is logical Attachment base skeleton 281 is crossed to connect with the lower end of central axis 27, attachment base skeleton 281 and 28 integrated injection molding of the second jointing seat at Attachment base skeleton 281 is arranged in type, facilitates the resistance to deformation intensity for enhancing the second jointing seat 28.Attachment base skeleton 281 and center It is connected through a screw thread between axis 27, structure is simple, easy for installation.

In conjunction with shown in Figure 13 and Figure 14, it is equipped with limiting slot 121 in the middle part of the lower end of the first jointing seat 12, in limiting slot 121 Stop nut 122 is installed, the upper end of the motor shaft of motor 131 is threadedly coupled with stop nut 122；Outside stop nut 122 Wall is equipped with the first limit rib, and the inner wall of limiting slot 121 is equipped with the second limit rib cooperated with the first limit rib, mutually limits after assembling Position nut 122 cannot occur mutually to move each other with limiting slot 121, to guarantee the transmission performance of transmission mechanism.Stop nut 122 lower section is connected with motor shaft sleeve 133, is used to support the first jointing seat 12, makes the operation of the first jointing seat 12 more Add stabilization.

In conjunction with shown in Figure 17 to Figure 19, ozone generator assemblies 17 include sequentially connected ozone generator 172, heat-dissipating pipe 174 and air pump 175, the air inlet of air pump 175 is connected with the filter cotton for filtering outside air, 172 outside of ozone generator It is connected to equipped with the gas outlet for cooling fan 173, ozone generator 172 with the air inlet of bottom check valve 16.Ozone hair It is connected with L-type pipe 171 at the gas outlet of raw device 172, to facilitate the air inlet of ozone generator 172 and bottom check valve 16 can be suitable Benefit connection.

In conjunction with shown in Fig. 2 and Figure 16, bucket body structure 2 further includes sleeve assembly 26, central axis 27 by sleeve assembly 26 with Staving ontology 21 connects, and central axis 27 can rotate in sleeve assembly 26, and setting sleeve assembly 26 helps to improve central axis 27 Transmission efficiency, and can prevent the water in staving ontology 21 from leaking into the other component of net feeder from central axis 27, guarantee net The safety that feeder uses.

Sleeve assembly 26 includes axle sleeve 261, oil sealing 262 and sleeve sealing circle 264, and axle sleeve 261 is locked at by nut 263 On staving ontology 21, oil sealing 262 is tightly disposed between axle sleeve 261 and central axis 27, and sleeve sealing circle 264 is tightly disposed in axis Between set 261 and staving ontology 21.

Wherein, sleeve sealing circle 264 can prevent the water in staving ontology 21 from leaking out from axle sleeve 261；Oil sealing 262 includes fluorine Glue cushion rubber 2621 and zinc-plated framework 2622, zinc-plated framework 2622 are mounted in fluorine glue cushion rubber 2621, to enhance oil sealing 262 Leakproofness.

The upper end of central axis 27 and axle sleeve 261 are mutual in the axial direction by teflon gasket 272 and circlip 271 It is fixed, effectively limit the position of central axis 27 in the up-down direction.In addition, being additionally provided between central axis 27 and axle sleeve 261 The lower section of oil sealing 262 is arranged in one bushing 265 and the second bushing 266, the first bushing 265 and the second bushing 266, prevents central axis 27 outer wall is directly contacted with axle sleeve 261, the abrasion of axle sleeve 261 is reduced, to extend the service life of axle sleeve 261.

In conjunction with shown in Fig. 5 and Fig. 2, bucket body structure 2 further includes staving seat 22, the lower end company of staving seat 22 and staving ontology 21 Accommodating chamber is connect and is formed, staving check valve 25 and central axis 27 are arranged in accommodating chamber.Staving seat 22 is set, staving can removed Facilitate bucket body structure 2 to put on the table when ontology 21, also can by the components such as staving check valve 25 and central axis 27 and it is extraneous every From preventing outside agencies from damaging the components such as staving check valve 25 and central axis 27.As shown in figure 20, the lower surface of staving seat 22 is set There is the first foot pad 226, the first foot pad 226 protrudes from lower surface, has anti-skidding effect, enables bucket body structure is stable to be placed on It on desktop, and is placed on Shi Nengyu base body 1 on base body 11 and keeps certain gap, ponding is facilitated to flow.

As shown in figure 17, staving check valve 25 includes the first unidirectional valve deck 251 and the first check-valve body 254, and first is single It is connected with each other and is formed cavity to valve deck 251 and the first check-valve body 254, is equipped with sequentially connected first gasket in cavity 252, the first spool 253 and the first spring 255, the first gasket 252 block at the air inlet of staving check valve 25, the first spring 255 abut with the first check-valve body 254.When logical ozone, ozone pushes the first gasket 252 to move up so that ozone from The air inlet of first unidirectional valve deck 251 enters in the chamber of staving check valve 25, then from the gas outlet of the first check-valve body 254 Discharge, effectively prevents gas backflow, and structure is simply small and exquisite, will not occupy excessive installation space.Specifically, the first spring 255 possess the ability of accumulation of energy, and when ozone flows back to chamber, the first spring 255 is in extended state to push the first gasket 252 move down, and the air inlet of the first unidirectional valve deck 251 are blocked, to prevent gas backflow；When ozone is from the first unidirectional valve deck 251 Air inlet enter in staving check valve 25, the first spring 255 by after the upwards thrust effect of the first gasket 252 in contraction-like State, to guide ozone to enter chamber.

As shown in figure 17, bottom check valve 16 includes second one-way valve lid 161 and second one-way valve shell 164, and second is single It is connected with each other and is formed cavity to valve deck 161 and second one-way valve shell 164, is equipped with sequentially connected second gasket in cavity 162, the second spool 163 and second spring 165, the second gasket 162 block at the air inlet of bottom check valve 16, second spring 165 abut with second one-way valve shell 164, and working principle is similar with above-mentioned staving check valve 25.

As shown in figure 17, the junction of the air inlet of the air outlet of bottom check valve 16 and staving check valve 25 is equipped with unidirectional Valve seals 166, the junction that can effectively prevent bottom check valve 16 and staving check valve 25 are leaked out.Base body 1 is equipped with single To the fixed part of valve seals 166, the side walls of unidirectional valve seals 166 is wave, the good airproof performance of this structure, even if There is deviation in a certain range of position, also can guarantee that it does not leak out.

In conjunction with shown in Fig. 3, Fig. 8, Fig. 9,21 bottom of staving ontology is equipped with the be connected to the gas outlet of staving check valve 25 One air inlet 211, the first air inlet 211 are equipped with multiple small through hole 2111, and ozone squeezes into gas dispersion chamber from small through hole 2111 In 24722.The present embodiment small through hole 2111 is two.And two small through hole 2111 are symmetrical arranged, using small through hole 2111 Design, pressure when ozone can be made to enter gas dispersion chamber 24722 is larger, to improve the flow rate of ozone.Wherein, such as Shown in Figure 17, the junction of the gas outlet of staving check valve 25 and the first air inlet 211 is equipped with plain cushion 256, can prevent gas from Junction leakage.

In conjunction with shown in Figure 12 and Figure 13, electric machine assembly 13 includes motor 131 and the shock absorber part for being wrapped in 131 outer wall of motor 132, setting shock absorber part 132 helps to weaken the vibration sense of motor 131, to reduce the abnormal sound when work of net feeder.Wherein, Shock absorber part 132 includes interior bolster 1321, the first fixed frame 1322 and the second fixed frame 1323, and 1321 are tightly attached to electricity between interior buffering The outer wall of machine 131, to reduce the vibration of motor 131；First fixed frame 1322 and the second fixed frame 1323 wrap up after being combined with each other Outside motor 131, on the one hand play the role of cushioning effect, on the other hand plays fixed motor 131.

In conjunction with shown in Fig. 3 and Figure 15, aeration component 24 further includes that isolation cover 244, cover board 245 and ozone spread titanium plate 241, Chamber 247 is formed between cover board 245 and staving ontology 21, isolation cover 244 is arranged in chamber 247 and is divided into chamber 247 Upper chamber 2471 and lower chambers 2472；Ozone diffusion titanium plate 241 is arranged in lower chambers 2472 and is divided into lower chambers 2472 Mixing chamber 24721 and gas disperse chamber 24722, and staving check valve 25 and gas dispersion chamber 24722 are connected.Centrifugal impeller 242 is set It sets in mixing chamber 24721, the ozone gas for driving hydro jet ozone diffusion titanium plate 241 to generate enables ozone to fill Divide and is dissolved in the water.

Inlet and outlet are provided on chamber 247, water inlet is connected with upper chamber 2471, water outlet and mixing chamber 24721 are connected, and the edge of isolation cover 244 is provided with interior circulation port, realize water circulation；The water of staving ontology 21 is full of chamber 247, ozone generator blasts ozone in gas dispersion chamber 24722, and ozone is formed by the diffusion hole that ozone spreads titanium plate 241 Bubble, motor 131 drive 242 high-speed rotation of centrifugal impeller, and centrifugal impeller 242 drives water flow movement to form the expansion of high pressure waterjet ozone The bubble in titanium plate 241 is dissipated, the bubble made, which does not become larger also, to be just stripped, and forms micro-nano bubble, improves connecing for ozone and water Contacting surface product, improves the solubility of ozone；High-speed rotating centrifugal impeller 242 drives water flow to follow in staving ontology 21 simultaneously Ring, the water in staving ontology 21 is entered by water inlet is mixed to form Ozone Water with ozone, and the Ozone Water of generation passes through water outlet It is discharged, by constantly recycling, so that water in container becomes the Ozone Water of high concentration, to the cleaning of instant food and disappear Poison.

In conjunction with shown in Fig. 3 and Figure 15, set respectively inside and outside gas dispersion chamber 24722 with the junction of staving ontology 21 There are the second titanium plate sealing ring 248 and the first titanium plate sealing ring 246, for preventing the ozone in gas dispersion chamber 24722 from connection Place's leakage.

In conjunction with shown in Fig. 1 to Fig. 3, aeration component 24 further includes titanium plate pressing plate 243, and ozone diffusion titanium plate 241 passes through titanium plate Pressing plate 243 is fixed in staving ontology 21, and ozone, which is spread, is equipped with the first titanium plate sealing ring between titanium plate 241 and titanium plate pressing plate 243 246, the first titanium plate sealing ring 246 is set, and the water that can effectively prevent in staving ontology 21 is leaked out from ozone diffusion titanium plate 241, again It can prevent the ozone in gas dispersion chamber 24722 from leaking out from titanium plate pressing plate 243 and ozone diffusion 241 junction of titanium plate.

In conjunction with shown in Fig. 1 and Fig. 4, it is additionally provided with the basket 23 for holding food in staving ontology 21, user is facilitated to take Food.As shown in fig. 7, the lower surface of bottom cover ontology 31 is equipped with the second foot pad 33, the second foot pad 33 protrudes from lower surface, has anti- Sliding effect, enable the stable placement of net feeder on the table.

In conjunction with shown in Fig. 6, Fig. 7 and Figure 18, the lower end of understructure 1 is connected with bottom cover structure 3, and bottom cover structure 3 includes bottom Lid ontology 31 and the filter cotton cover board 32 being detachably connected on bottom cover ontology 31, filter cotton cover board 32 are used to fix filter cotton, For filtering outside air, filter cotton is arranged at the air inlet of air pump 175 filter cotton.

In conjunction with shown in Fig. 1, Fig. 6, Figure 10 and Figure 11, the opening of staving ontology 21 is stamped cap structure 4, cap structure 4 Including lid 41, the lower surface of lid 41 is equipped with the spacing collar 411 with the opening cooperation of staving ontology 21, spacing collar 411 it is outer Wall is equipped with multiple raised lines 412, and multiple boss 412 are evenly distributed on spacing collar 411.The design of this set raised line 412, be for Air pressure inside and outside balance staving ontology 21, avoids the danger of explosion, in addition can slow down the evaporation rate of ozone again, so that The dissolution rate of ozone is higher.Handle 42 is additionally provided on lid 41, to be conveniently used for removing cap structure 4.

In conjunction with shown in Figure 19 to Figure 22, base body 11 is equipped with first boss 111 and second boss 112, first boss 111 Equipped with the first boss hole 1111 for installing the first jointing seat 12, second boss 112, which is equipped with, is used for mounting seat check valve 16 second boss hole 1121；22 bottom of staving seat is equipped with the installation for being set in outside first boss 111 and second boss 112 The inner wall in hole 221, mounting hole 221 is equipped with multiple positioning convex strips 2211, and multiple positioning convex strips 2211 are uniformly arranged on mounting hole 221 Inner wall, the second jointing seat 28 being respectively cooperating with the first jointing seat 12 and bottom check valve 16 is equipped in mounting hole 221 With staving check valve 25.

Wherein, the bucket body structure 2 and understructure 1 of split settings will realize the smooth delivery of power of ozone gas each other, must It need guarantee that position precision when bottom check valve 16 and staving check valve 25 are combined with each other wants high, in addition to realize the biography of kinetic energy Dynamic, then position precision when the first jointing seat 12 and the second jointing seat 28 being required to be combined with each other wants high.In conjunction with Figure 26 and figure Shown in 28, is assembled using a mounting hole 221 and first boss 111 and second boss 112, bucket body structure 2 and pedestal can be limited 1 mutual alignment of structure and the mutual alignment of the first jointing seat 12 and the second jointing seat 28；First boss 111 and second boss 112 be all circular configuration, and positioning convex strip 2211 is arranged in mounting hole 221, is able to achieve first boss 111 and second boss 112 It is centrally positioned in mounting hole 221, substantially increases setting accuracy.

In the present embodiment, the structure that design mounting hole 221 and first boss 111 and second boss 112 cooperate can be accurately real The positioning of existing 1 mutual alignment of bucket body structure 2 and understructure, ensure that the smooth installation of bucket body structure 2, and be able to achieve staving knot The conveying of structure 2 and the mutual ozone of understructure 1 and the transmission of kinetic energy, moreover it is possible to easily remove bucket body structure from understructure 1 2, to facilitate the later period to clean and maintenance.Under the premise of guaranteeing that net feeder can realize seperated design, solve bucket body structure 2 and bottom When holder structure 1 reconfigures, install location difficulty, it is bad so as to cause ventilatory effect, cleaning dynamics it is not strong the problems such as.

Preferably, first boss 111 and second boss 112 are mutually closely arranged, and are integrally in the figure of eight, first boss 111 round diameter is bigger than the round diameter of second boss 112, and mounting hole 221 is tightly attached to first boss 111 and second boss 112 outer walls are designed, and can play the role of mistake proofing, guarantee that bottom check valve 16 is only able to cooperate with staving check valve 25, and first Jointing seat 12 only cooperates with the second jointing seat 28.This structure, on the one hand plays the role of positioning, prevents positioning from occurring wrong Position, on the other hand plays fixed effect, so that situations such as bucket body structure 2 is not in shaking during operation.

Base body 11 is equipped with the recessed chamber 113 for placing staving seat 22, and the side wall of recessed chamber 113 is equipped with and bucket The mistake proofing location structure that housing 22 cooperates, the effect of the placement staving seat 22 not only acted as in this way, while playing to staving seat 22 Positioning and mistake proofing effect, moreover it is possible to the circumferential direction of staving seat 22 is supported, it is therefore prevented that staving seat 22 in recessed chamber 113 in Shake, thus prevent ventilatory effect it is bad, lose heart leak the problems such as.In addition, recessed chamber 113 not only acts as containment drum housing 22 Effect, and the water that bucket body structure 2 leaks out can also be collected into designated position.

Mistake proofing location structure includes the first locating convex block 1131 and the second locating convex block 1132 in mutually different shapes, staving It is fixed that seat 22 is equipped with the first positioning groove 222 and second being respectively cooperating with the first locating convex block 1131 and the second locating convex block 1132 Position groove 223, this structure is simple, positions convenient and reliable.

Wherein, the first locating convex block 1131, the second locating convex block 1132, the first positioning groove 222 and the second positioning groove 223 be vertical streaky shape composition, and in order to which staving seat 22 is inserted vertically into recessed chamber 113, and dismounting also facilitates.Except this Except, the first locating convex block 1131, the second locating convex block 1132, the first positioning groove 222 and the second positioning groove 223 can be with For the shapes such as triangle, trapezoidal.

First locating convex block 1131 and the second locating convex block 1132 are mutually diagonally positioned, can not only improve positioning effect in this way Fruit, and ensure that staving seat 22 and the mutual connective stability of base body 11, it ensure that ozone gas can be more smoothly It is transported in bucket body structure 2, and the efficiency of kinetic energy transmission is also higher.

Preferably, base body 11 is equipped with the drainage hole 115 for the ponding on base body 11 to be discharged, so that ponding It can be discharged to designated position by drainage hole 115, to guarantee the normal operation of machine.Wherein, drainage hole 115 is located at recessed chamber The lowest part of 113 bottom surfaces, so that recessed chamber 113 can be smoothly discharged.

In conjunction with shown in Figure 23 to Figure 27, understructure 1 further includes the microswitch component 15 for controlling complete machine power on/off, Microswitch component 15 include microswitch 151 and the contact 152 for triggering microswitch 151, staving seat 22 be equipped with The pillar 224 that contact 152 cooperates.When pillar 224 pushes down contact 152, circuitry conducting is realized using this design Bucket body structure 2, which combines Shi Caineng with understructure 1, makes complete machine be powered, after bucket body structure 2 is taken out from understructure 1, complete machine It powers off, ensure that net feeder safety in utilization.Microswitch 151 is played by the pressure touch switch of pillar 224 to circuit System automatically controls and the effect of safeguard protection.

Preferably, microswitch component 15 further includes contact shell 153, and contact 152 is hinged on contact shell 153 On, contact 152 is equipped with the inclined surface 1521 cooperated with pillar 224, and bucket body structure 2 contacts when mutually assembling with understructure 1 The rotation triggering microswitch 151 of part 152, can guarantee that contact 152 can be on contact shell by the way of articulated connection It is freely rotated, thus the movement of more flexible control microswitch.

Preferably, as shown in figure 21, base body 11 is additionally provided with third boss 114, and third boss 114 is equipped with and pillar The third boss holes 1141 of 224 cooperations, contact 152 are located at the underface of third boss hole 1141, and staving seat 22 is equipped with the The third positioning groove 225 of three boss 114 cooperation, pillar 224 are arranged in third positioning groove 225.Third boss 114 is set Meter, on the one hand plays the positioning action to pillar 224, so that the position between pillar 224 and microswitch 151 is more accurate, On the other hand it prevents ponding from flowing on microswitch 151 from third boss hole 1141, guarantees equipment safety in utilization.

In conjunction with shown in Fig. 1, Fig. 4 and Figure 18, understructure 1 further includes control assembly 14, and control assembly 14 includes key 141 With timer 142, key 141 is knob button or touch key-press, for for user input selection information, which to include cleaning Type selection and environment temperature selection, which includes fruits and vegetables, meat, fish, five cereals and tableware etc., which includes T1≤18℃,18℃<T2>28℃,T3≥28℃.Timer 142 is used to be automatically stopped the work of net feeder after cleaning.

The embodiment of the invention also provides a kind of control methods of split type net feeder as described above, comprising steps of

S10, judges whether microswitch is connected, if microswitch is connected, thens follow the steps S20, and otherwise net feeder maintains Status；

S20 judges whether to receive enabling signal, if receiving enabling signal, thens follow the steps S30, otherwise net feeder It maintains the statusquo；

S30 gives electrical power；

S40 judges the conduction time of motor, if conduction time is more than or equal to the first preset time, thens follow the steps S50, Otherwise step S30 is continued to execute；

S50 is powered to ozone generator, air pump and fan；

S60 judges the count down time of timer, if count down time is less than or equal to the second preset time and is greater than third Preset time thens follow the steps S70, if count down time be less than or equal to third preset time, then follow the steps S80, otherwise after It is continuous to execute step S50；

S70, control ozone generator power-off；

S80, control motor, air pump and fan power off.

In the present embodiment, the first preset time is 3 seconds, and the second preset time is 10 seconds, and third preset time is 0 second.Tool Body, using the on-off of microswitch, signal is provided, connects after starting and works, disconnects and not working after starting；Work after starting When making, electrical power is first given, after 3 seconds, is powered immediately to ozone generator, air pump and fan after waiting motors the operation is stable, when When countdown only has 10 seconds, first close ozone generator, countdown when being zero second wholly off power supply, work terminate.

Although the disclosure discloses as above, the protection scope of the disclosure is not limited only to this.Those skilled in the art are not Under the premise of being detached from spirit and scope of the present disclosure, it can make various changes and modify, these changes will fall into this with modification The protection scope of invention.

Claims (10)

1. a kind of desk-top split type net feeder, which is characterized in that bucket body structure (2) and understructure including two-piece unit setting (1), the bucket body structure (2) is equipped with upper gas-guiding structure, upper drive mechanism and the aeration component be connected with the upper gas-guiding structure (24), the aeration component (24) includes for driving the centrifugal impeller of hydro jet ozone gas (242), the centrifugal impeller (242) it is connect with the upper drive mechanism；The understructure (1) include lower gas-guiding structure, underdrive structure and with it is described under The ozone generator assemblies (17) of gas-guiding structure conducting, the underdrive structure are connected with electric machine assembly (13), work as bucket body structure (2) and after understructure (1) combination, the lower gas-guiding structure is connected with the upper gas-guiding structure, the underdrive structure and institute State drive mechanism connection.

2. desk-top split type net feeder according to claim 1, which is characterized in that the bucket body structure (2) includes being used for The staving ontology (21) of water is held, the upper gas-guiding structure includes the staving check valve through staving ontology (21) bottom (25), the upper drive mechanism includes running through the central axis (27) of staving ontology (21) bottom and being connected to the central axis (27) the second jointing seat (28) of lower end；The understructure (1) includes base body (11), the lower gas-guiding structure packet The bottom check valve (16) being set in the base body (11) is included, the underdrive structure includes being connected to the electric machine assembly (13) the first jointing seat (12) of upper end.

3. desk-top split type net feeder according to claim 2, which is characterized in that the bucket body structure (2) further includes bucket Housing (22), the staving seat (22) connect and are formed accommodating chamber with the lower end of the staving ontology (21), and the staving is unidirectional Valve (25) and the central axis (27) are arranged in the accommodating chamber.

4. desk-top split type net feeder according to claim 3, which is characterized in that the base body (11) is equipped with first Boss (111) and second boss (112), the first boss (111) are equipped with for installing first jointing seat (12) First boss hole (1111), the second boss (112) are equipped with the second boss hole for installing the bottom check valve (16) (1121)；Staving seat (22) bottom is equipped with for being set in the first boss (111) and the second boss (112) outside Mounting hole (221), the inner wall of the mounting hole (221) is equipped with multiple positioning convex strips (2211), multiple positioning convex strips (2211) it is uniformly arranged on the inner wall of the mounting hole (221), is equipped with and first jointing seat in the mounting hole (221) (12) and the bottom check valve (16) the second jointing seat (28) and staving check valve (25) that are respectively cooperating with.

5. desk-top split type net feeder according to claim 4, which is characterized in that the base body (11) is equipped with and is used for The recessed chamber (113) of the staving seat (22) is placed, the side wall of the recessed chamber (113) is equipped with and the staving seat (22) The mistake proofing location structure of cooperation.

6. desk-top split type net feeder according to claim 3, which is characterized in that the understructure (1) further includes using In the microswitch component (15) of control complete machine power on/off, the microswitch component (15) includes microswitch (151) and uses In the contact (152) for triggering the microswitch (151), the staving seat (22) is equipped with to be cooperated with the contact (152) Pillar (224)；The ozone generator assemblies (17) include sequentially connected ozone generator (172) and air pump (175), institute It states and is equipped on the outside of ozone generator (172) for cooling fan (173), the gas outlet of the ozone generator (172) and institute State the air inlet connection of bottom check valve (16).

7. desk-top split type net feeder according to claim 2, which is characterized in that the aeration component (24) further include every Spread titanium plate (241) from cover (244), cover board (245) and ozone for generating the ozone, the cover board (245) with it is described Chamber (247) are formed between staving ontology (21), the isolation cover (244) setting is in the chamber (247) and by the chamber Room (247) is divided into upper chamber (2471) and lower chambers (2472)；Ozone diffusion titanium plate (241) is arranged in the lower chambers (2472) mixing chamber (24721) and gas dispersion chamber (24722), the staving list are divided into and by the lower chambers (2472) It is connected to valve (25) and gas dispersion chamber (24722).

8. desk-top split type net feeder according to claim 2, which is characterized in that the opening of the staving ontology (21) It is stamped cap structure (4), the cap structure (4) includes lid (41), and the lower surface of the lid (41) is equipped with and the bucket The spacing collar (411) of the opening cooperation of body ontology (21), the outer wall of the spacing collar (411) are equipped with multiple raised lines (412).

9. desk-top split type net feeder according to claim 1-8, which is characterized in that the understructure (1) It further include control assembly (14), the control assembly (14) includes key (141) and timer (142).

10. a kind of control method of such as described in any item split type net feeders of claim 1-9, which is characterized in that including step It is rapid:

Judge whether microswitch is connected；

If the microswitch is connected, judge whether to receive enabling signal；

If receiving the enabling signal, electrical power is given；

Judge the conduction time of the motor；

If the conduction time is more than or equal to the first preset time, it is powered to ozone generator, air pump and fan；

Judge the count down time of timer；

If the count down time is less than or equal to the second preset time and is greater than third preset time, controls the ozone and occur Device power-off；

If the count down time is less than or equal to the third preset time, the motor, the air pump and the wind are controlled Fan powers off.