CN108529566B - ozone generator - Google Patents

Abstract

the invention discloses an ozone generator, which comprises a shell with an opening at the front end, an ozone generating pipe and a cooling and drying pipe, wherein the ozone generating pipe and the cooling and drying pipe are arranged in the shell; the cooling drying tube comprises a drying tube body, a refrigerating sheet mounting seat fixedly arranged on the inner wall of the shell and positioned below the drying tube body, and a motor mounting seat fixedly arranged on the inner wall of the shell and positioned above the drying tube body; the semiconductor refrigerating sheets which are vertically arranged are fixedly connected in the refrigerating sheet mounting seat; a second partition board which is vertically arranged is formed in the drying pipe body; a cover plate is fixedly arranged at the upper part of the drying pipe body; the space between the drying pipe body and the cover plate is filled with water-absorbent resin; this ozone generator can realize initiatively cooling and dry air supply, improves ozone production efficiency and promotes the ozone quality, simultaneously, can dry hydrous water-absorbent resin when getting ozone, consequently is used for dry water-absorbent resin can recycle, need not to change.

Description

Ozone generator

Technical Field

The invention belongs to the field of household appliances, and particularly relates to an ozone generator.

Background

The mop is used for cleaning the polluted ground, which takes a lot of time and consumes excessive physical strength of a user; although the automatic floor mopping machine exists in the market, the cleaning cloth for mopping the floor is a whole block and repeatedly rubs against the floor, so that stains on the floor are repeatedly accumulated on the cleaning cloth to dirty the cleaning cloth, and the cleaning cloth cannot effectively clean the uncleaned floor; moreover, when the floor wiping machine is used, clear water is needed, and if the floor is cleaned by using domestic water, the utilization rate of water resources can be improved.

disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects in the prior art, the ozone generator is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: an ozone generator comprises a shell with an opening at the front end, an ozone generating pipe and a cooling and drying pipe which are arranged in the shell;

The front end of the shell is detachably connected with a cylinder cover; a first air outlet joint is fixedly arranged on the side wall of the shell; an upper air outlet is formed at the upper end of the shell, and a lower air inlet is formed at the lower end of the shell;

The cooling drying tube comprises a drying tube body, a refrigerating sheet mounting seat fixedly mounted on the inner wall of the shell and positioned below the drying tube body, and a motor mounting seat fixedly mounted on the inner wall of the shell and positioned above the drying tube body; the drying tube body is in a cylindrical shape with the lower end closed and the upper end opened; a vertically arranged semiconductor refrigerating sheet is fixedly connected in the refrigerating sheet mounting seat, a heat absorption aluminum seat is fixedly connected on the cold surface of the semiconductor refrigerating sheet, and a heat dissipation aluminum seat is fixedly connected on the hot surface of the semiconductor refrigerating sheet; a plurality of first air inlets which are uniformly distributed are formed in the lower bottom surface of the refrigerating sheet mounting seat;

The lower end of the drying tube body is respectively abutted against the upper ends of the heat absorption aluminum seat and the heat dissipation aluminum seat;

A plurality of second air inlets which are uniformly distributed are formed in the lower bottom surface of the drying pipe body; a second partition board which is vertically arranged and used for separating air heated by the heat absorption aluminum seat and cooled by the heat dissipation aluminum seat is formed in the drying tube body;

A cover plate is fixedly arranged at the upper part of the drying pipe body, and a plurality of uniformly distributed air outlets are formed in the upper end surface of the cover plate;

The space between the drying pipe body and the cover plate is filled with water-absorbent resin;

A motor with an output shaft facing downwards is installed in the motor installation seat, and a transmission hole matched and spliced with the output shaft is formed in the middle of the upper end of the second partition plate;

A second through hole is formed in the position, opposite to the transmission hole, of the cover plate;

A horizontally arranged supporting plate is formed on the inner wall of the motor mounting seat, and a first through hole for an output shaft of the motor to penetrate through is formed in the middle of the supporting plate; the side wall of the motor mounting seat, which corresponds to one side of the heat absorption aluminum seat, is positioned below the supporting plate and is fixedly connected with a second air outlet joint, and a heat dissipation air outlet is formed in the supporting plate, which corresponds to one side of the heat dissipation aluminum seat; a first partition plate is formed at the lower end of the supporting plate in a position corresponding to the second partition plate, and the heat dissipation air outlet is positioned on one side of the partition plate;

An air pump and a transformer are fixedly arranged in the shell; a circuit board is arranged in the shell;

Fans are fixedly arranged at positions above the ozone generating pipe and the cooling drying pipe in the shell respectively, and the fans above the cooling drying pipe are in sealing contact with the upper end of the motor mounting seat; a filter screen is fixedly arranged in the shell at a position below the cooling drying pipe;

The air outlet end of the air pump is connected with the air inlet end of the ozone generating tube through a hose; the ozone outlet end is connected with the air inlet end of the first air outlet joint through a hose;

The motor, the input end of the transformer, the fan and the semiconductor refrigerating sheet are respectively electrically connected with the circuit board, and the output end of the transformer is electrically connected with the ozone generating tube.

Compared with the prior art, the invention has the beneficial effects that: when the ozone generator is started, the fan located above the cooling drying pipe starts to work, negative pressure is formed in the cooling drying pipe, air enters from the lower air inlet, the air temperature is reduced through filtering of the filter screen and the heat absorption aluminum seat, low-temperature drying air is formed after the air passes through the water-absorbent resin, the air pump sucks the low-temperature drying air into the ozone generating pipe to generate ozone, and then the air containing the ozone flows out from the first air outlet connector. After a set time, the motor drives the drying tube body to rotate 180 degrees, and the water-containing water-absorbent resin is transferred to the upper part of the heat-absorbing aluminum seat from the upper part of the heat-absorbing aluminum seat; because the temperature above the heat dissipation aluminum seat is higher, the water in the water-containing water-absorbent resin can be evaporated to form dry water-absorbent resin; the evaporated water vapor is discharged from the heat dissipation air outlet and the upper air outlet; and then, the motor drives the drying tube body to rotate by 180 degrees within the same set time, and the dried water-absorbent resin formed after water evaporation moves to the upper part of the heat-absorbing aluminum seat again to continuously dry air for the reaction of the ozone generating tube.

This ozone generator can realize initiatively cooling and dry air supply, improves ozone production efficiency and promotes the ozone quality, simultaneously, can dry hydrous water-absorbent resin when getting ozone, consequently is used for dry water-absorbent resin can recycle, need not to change.

Drawings

Fig. 1 and 2 are schematic structural diagrams of the present invention.

Fig. 3 is a schematic exploded view of the present invention.

figure 4 is a schematic view of the installation of the cleaning assembly.

Fig. 5 is a schematic view of the structure of the cleaning assembly.

Fig. 6 is a schematic view of the structure of the mounting baseplate.

Fig. 7 is a schematic structural view of the top case.

Fig. 8 is a schematic sectional structure view of the filter.

Fig. 9 is an exploded view of the filter.

Fig. 10 is a schematic view of the structure of the cartridge cover.

Fig. 11 is a schematic structural view of the driving device.

Fig. 12 is an exploded view of the cover, the upper rotating base, and the driving device.

Fig. 13 and 14 are schematic structural diagrams of the first filter element assembly.

fig. 15 is a schematic structural view of the upper rotating base.

Fig. 16 is a schematic structural view of a water wheel.

fig. 17 is a schematic structural diagram of a reduction gear.

Fig. 18 is a schematic structural view of the spacer.

Fig. 19 is a schematic structural view of the first transmission rubber wheel.

Fig. 20 is a schematic structural view of the base.

fig. 21 is an internal structural view of the ozone generator.

Fig. 22 is an exploded view of the cool-down drying duct.

Fig. 23 is a schematic structural view of a motor mount.

Figure 24 is a schematic view of the construction of the cold plate mount.

Fig. 25 is a schematic view of a drying tube.

Fig. 26 is a schematic structural view of the cover plate.

1. A top shell; 11. an upper top shell; 111. a top cover; 12. a lower top shell; 121. an infrared ranging sensor; 122. a cover plate; 1221. a sink placement port; 13. a storage battery; 14. a main control circuit board; 2. mounting a bottom plate; 21. a base plate; 211. a bottom plate limit cover; 212. an opening; 213. a sink baffle; 2131. a magnet; 22. a vertical plate; 221. a first synchronizing wheel mounting hole; 222. a first roller shaft mounting hole; 223. a first sink limiting plate; 23. a seal mounting ring; 24. a nozzle; 241. a spray head; 251. a purified water connecting pipe; 252. a sewage connecting pipe; 253. a sewage discharge pipe; 261. a first water pump; 262. a second water pump; 27. an extension tube; 3. a cleaning assembly; 31. a cleaning belt; 32. a synchronizing wheel; 331. a first roller shaft; 332. a second roller shaft; 333. a third roller shaft; 334. a fourth roller shaft; 341. a driven synchronizing wheel; 342. driving a synchronizing wheel; 35. a synchronous belt; 4. installing a frame; 41. a rear frame plate; 42. a side frame plate; 43. a front frame plate; 44. a frame bottom limiting block; 45. a slide bar; 451. a sliding groove; 46. a forward motor; 47. a forward wheel; 5. an end plate; 51. a second synchronizing wheel mounting hole; 52. a second roller mounting hole; 53. a nozzle mounting hole; 54. an end plate mounting leg; 55. a second sink limiting plate; 6. a drive motor; 7. a water tank; 71. a sink handle; 72. a stainless steel plate;

8. A filter; 81. a barrel; 811. a sewage outlet joint; 82. a cylinder cover; 821. a purified water outlet port; 822. a water inlet interface; 8221. a water jet; 823. a water wheel mounting groove; 824. positioning a rod; 825. positioning a groove; 826. an upper rotating seat mounting groove; 827. a first water inlet interface; 828. a first locating tab; 829. a water flow channel; 820. a second water inlet interface; 83. a base; 831. a water discharge tank; 832. a lower rotary seat mounting groove; 833. rotating the interface; 834. a second positioning joint; 841. a first filter element assembly; 8411. a ceramic filter element; 8412. an upper end cover; 8413. a lower end cover; 8414. a drive head; 8415. a purified water outlet joint; 8416. rotating the plug; 8417. an upper ring magnet; 8418. a lower ring magnet; 842. a second filter element assembly; 85. a drive device; 851. a water wheel; 8511. rotating the rod; 85111. an interface; 8512. a water wheel body; 8513. a connecting rod; 8514. a driving gear; 852. a speed reducing wheel; 8520. a transmission gear; 8521. a drive wheel; 8522. sleeving a hole; 8523. an upper convex portion; 8524. a connecting portion; 8531. a first transmission rubber wheel; 85311. a filter element sleeving part; 85312. perforating; 85313. a polygonal transmission hole; 85314. a rubber rack; 8532. a second transmission rubber wheel; 854. a positioning frame; 8541. an outer connecting ring; 8542. positioning the projection; 8543. a connecting rod; 8544. an inner connecting ring; 8545. a gear lever; 8546. an opening lever; 8547. a U-shaped rod; 855. a locking ring; 856. a screw; 861. an upper rotating seat; 8611. rotating the head; 86111. a water outlet; 8612. sleeving a joint; 86121. a water inlet; 862. a lower rotating base; 871. a spring.

9. An ozone generator; 90. a first air outlet joint; 91. a housing; 92. a cover body; 93. a cooling and drying pipe; 931. a motor mounting seat; 9312. a first separator; 9313. a first perforation; 9314. a support plate; 9316. a second air outlet joint; 9317. a heat dissipation air outlet; 932. a refrigerating sheet mounting seat; 9321. a first air inlet; 933. drying the tube body; 9331. a second air inlet; 9332. a second separator; 9333. a drive bore; 934. a semiconductor refrigeration sheet; 935. a cover plate; 9351. an air outlet; 9352. a second perforation; 936. a motor; 94. an ozone generating tube; 95. an air pump; 96. a transformer; 97. a filter screen; 98. a fan; 99. a circuit board.

Detailed Description

example 1

As shown in fig. 1 to 8, the floor cleaning robot of the present embodiment includes a vertically disposed rectangular mounting frame 4, a mounting base plate 2 slidably connected in the mounting frame, a cleaning assembly 3 mounted on the mounting base plate, and a top shell 1 sleeved on the mounting frame.

the cleaning assembly comprises a columnar synchronizing wheel 32 and an end-to-end cleaning belt 31 in meshed transmission connection with the synchronizing wheel; a first roller 331 and a second roller 332 which are arranged up and down are arranged on the inner surface of the cleaning belt far away from the synchronous wheel; the second roller shaft is positioned below the first roller shaft; the first roller shaft and the second roller shaft are abutted against the inner surface of the cleaning belt, so that the cleaning belt between the first roller shaft and the second roller shaft forms a vertical surface; a third roller shaft 333 which is abutted against the outer surface of the cleaning belt is arranged between the synchronizing wheel and the second roller shaft; the horizontal position of the second roll shaft is lower than that of the third roll shaft, so that an acute angle is formed among the first roll shaft, the second roll shaft and the third roll shaft; a fourth roller 334 which is abutted against the outer surface of the cleaning belt is arranged on the outer surface of the cleaning belt corresponding to the first roller; the fourth roller and the first roller press the cleaning belt; the axes of the synchronizing wheel, the first roll shaft, the second roll shaft, the third roll shaft and the fourth roll shaft are parallel to each other; the inner surface of the cleaning belt is formed with gear teeth meshed with the synchronizing wheel, and the outer surface of the cleaning belt is fixedly connected with cleaning cloth used for cleaning a plane.

The mounting bottom plate comprises a horizontally arranged rectangular bottom plate 21 and a vertical plate 22 which is integrally formed at the upper end of the bottom plate and is arranged along the front-back direction; the cleaning assembly is arranged on one side of the vertical plate; four first roller shaft mounting holes 222 for mounting roller shafts are formed on the vertical plate corresponding to the roller shafts; a first synchronizing wheel mounting hole 221 for mounting the synchronizing wheel is formed on the vertical plate corresponding to the synchronizing wheel; one side of the vertical plate, which is far away from the synchronizing wheel and is positioned outside the vertical surface of the cleaning belt, is fixedly connected with a spray pipe 24; a plurality of spray heads 241 which are equidistantly distributed along the length direction of the spray pipe are formed on the spray pipe; the spray head is oriented towards the cleaning belt; the cleaning belt wound on the synchronizing wheel passes through the bottom plate.

A trapezoidal end plate 5 used for mounting the other end of the cleaning component is arranged on the bottom plate far away from the vertical plate; four second roller shaft mounting holes 52 for mounting roller shafts are formed in the end plates corresponding to the roller shafts; a second synchronizing wheel mounting hole 51 for mounting the synchronizing wheel is formed at the position of the end plate corresponding to the synchronizing wheel; a spray pipe mounting hole 53 for mounting the spray pipe is formed on the end plate corresponding to the spray pipe; end plate mounting feet 54 used for fixedly connecting the end plate to one end of the bottom plate are formed at the front end and the rear end of the end plate; and one end of the spray pipe, which is far away from the vertical plate, is closed and is inserted and connected onto the end plate. The vertical plate and the end plate fix the position of the cleaning assembly.

A driving motor 6 for driving the cleaning assembly is arranged at one end of the cleaning assembly on the bottom plate; the output shaft of the driving motor and one synchronizing wheel close to the driving motor penetrate through the vertical plate to be fixedly connected with a driving synchronizing wheel 342 and a driven synchronizing wheel 341 respectively; a synchronous belt 35 is connected between the driving synchronous wheel and the driven synchronous wheel in a meshing transmission manner. The driving motor works to drive the driving synchronous wheel to rotate and is driven to the synchronous wheel coaxial with the driven synchronous wheel through the synchronous belt, so that the cleaning belt meshed with the synchronous wheel rotates around the synchronous wheel.

A water tank 7 is detachably arranged on the bottom plate below the vertical surface of the cleaning belt and the spray pipe; the middle of the water tank is fixedly connected with two water tank handles 71 for placing the water tank; one side of the water tank close to the synchronizing wheel is fixedly connected with a stainless steel plate 72.

A water tank baffle 213 for limiting the transverse position of the water tank is vertically arranged on one side, close to the stainless steel plate, of the bottom plate; the water tank baffle is provided with a magnet 2131 which is mutually attracted with the stainless steel; a first water tank limiting plate 223 used for limiting the position of the water tank in the vertical direction is fixedly connected to the position, corresponding to the upper end face of the water tank, of the vertical plate; and a second water tank limiting plate 55 used for limiting the position of the water tank in the vertical direction is fixedly connected to the position, corresponding to the upper end face of the water tank, of the end plate. Through the mutual attraction of the stainless steel and the magnet and the limitation of the first water tank limiting plate and the second water tank limiting plate to the position of the water tank, the position of the water tank in the work process can be fixed.

and a filter 8 and an ozone generator 9 are arranged on one side, away from the cleaning assembly, of the vertical plate on the bottom plate.

The filter comprises a cylinder body 81 and a cylinder cover 82 fixedly connected to the upper end of the cylinder body; the lower part of the side wall of the cylinder body is fixedly connected with a sewage outlet joint 811 communicated with the inside of the cylinder body; a purified water outlet port 821 and a water inlet port 822 are formed on the side wall of the cylinder cover.

one side of the vertical plate, which is far away from the cleaning component, is fixedly connected with a sewage connecting pipe 252 and a sewage discharging pipe 253 which are communicated with the water tank respectively; a clean water connecting pipe 251 communicated with the spray pipe is fixedly connected to one side, far away from the cleaning assembly, of the vertical plate; the purified water connecting pipe is connected with a first water pump 261; the sewage connecting pipe is connected with a second water pump 262; the first water pump and the second water pump are arranged on the vertical plate; the position where the sewage connecting pipe is communicated with the water tank is positioned in the water tank and is provided with a filter screen; two sealing mounting rings 23 are respectively and fixedly connected to the side face of the vertical plate facing the water tank, corresponding to the sewage connecting pipe and the sewage discharge pipe; the sealing mounting ring is connected with an L-shaped extension pipe 27 with an opening extending into the water tank in a sealing and rotating way.

The water purifying connecting pipe is connected with a water purifying outlet port of the filter through a pipeline; the sewage connecting pipe is connected with a water inlet interface of the filter through a pipeline; the sewage discharge pipe is connected with a sewage outlet joint of the filter through a pipeline; the outlet of the ozone generator is connected with an electromagnetic valve and is communicated with the purified water connecting pipe through a pipeline. Water in the water tank is pumped into the filter through the second water pump, the filtered water is pumped into the spray pipe from the purified water outlet port through the first water pump, and water flow is sprayed to the cleaning belt above the spray pipe through the spray pipe and then enters the water tank again; when the cleaning belt needs to be sterilized and disinfected, the ozone generator is operated, the electromagnetic valve is opened, and the generated ozone enters the water purification connecting pipe and then is sprayed to the cleaning belt through the spray pipe, so that the sterilization and disinfection work is finished; the sewage containing impurities after being filtered by the filter enters the water tank again through the sewage outlet joint and the sewage discharge pipe. When water flow is sprayed to the cleaning belt through the spray pipe to wash stains, water left on the cleaning belt is extruded to the cleaning belt through the first roller shaft and the fourth roller shaft, so that the water on the cleaning belt is reduced, the extruded water flows downwards through the vertical surface of the cleaning belt, the part of the cleaning belt which is not washed can be wetted in the process, and part of the stains which are easy to dissolve in water are dissolved, so that the washing is more effective; when the squeezed water flows along the cleaning belt to the outer surface of the cleaning belt abutting against the second roller shaft, the water at the squeezed position drops from the cleaning belt to the water tank because the third roller shaft is at a higher level than the second roller shaft.

The mounting frame comprises a front frame plate 43 and a rear frame plate 41 which are parallel to each other, and two side frame plates 42 are fixedly connected to the same two ends of the front frame plate and the rear frame plate respectively; a plurality of advancing wheels 47 for moving are arranged on the outer sides of the two side frame plates; a plurality of advancing motors 46 for driving the advancing wheels are arranged on the inner side of the side frame plate corresponding to the advancing wheels; a plurality of frame bottom limiting blocks 44 are formed inwards at the bottom end of the front frame plate; two sliding strips 45 for limiting the position of the vertical plate are respectively formed on the front frame plate corresponding to the two sides of the vertical plate; a sliding groove 451 for the vertical plate to be connected in a sliding manner is formed between the two sliding strips; the structure of the rear frame plate is symmetrical to that of the front frame plate; four openings 212 are formed in the bottom plate at the two sides of the vertical plate corresponding to the sliding strips; the upper end of the bottom plate is fixedly connected with a plurality of bottom plate limiting covers 211 with the upper ends closed corresponding to the frame bottom limiting blocks, and a gap exists between the bottom plate limiting covers and the frame bottom limiting blocks during operation. The mounting bottom plate is connected with the sliding groove in a sliding manner through the vertical plate so as to be capable of sliding in the mounting frame; the lowest part of the mounting bottom plate, which slides, is limited between the frame bottom limiting block and the bottom plate limiting cover; when the cleaning device works, the mounting bottom plate can descend to the lowest position through dead weight without being limited by the height of the advancing wheel due to the gap between the bottom plate limiting cover and the frame bottom limiting block, and the cleaning belt wound on the synchronizing wheel penetrates through the bottom plate and can be effectively contacted with a cleaned plane.

The top shell comprises an upper top shell 11 and a lower top shell 12 which are fixedly connected up and down; the top shell is sleeved on the mounting frame through the lower top shell; the lower top shell is fixedly connected with a front frame plate and a rear frame plate of the mounting frame; a cover plate 122 which is abutted against the mounting frame is formed at the upper end of the mounting frame of the lower top shell; a water tank placing opening 1221 for placing a water tank is formed in the position, corresponding to the water tank, of the cover plate; the front part and the rear part of the inner side of the lower top shell are respectively provided with a main control circuit board 14 and a storage battery 13; the front end of the outer side of the lower top shell is provided with an infrared distance measuring sensor 121; the upper top shell is rotatably connected with a top cover 111 corresponding to the water tank placing opening. Because the mounting frame with top shell fixed connection down, the upper end of mounting plate is restricted by top shell down to the gliding highest point of mounting plate has been restricted.

The driving motor, the advancing motor, the first water pump, the second water pump, the ozone generator, the electromagnetic valve and the infrared distance measuring sensor are electrically connected with the main control circuit board.

Before use, the top cover is opened, the two extension pipes are rotated through the water tank placing opening to enable the extension pipes to be in the horizontal direction, then the extension pipes are rotated to be positioned above the water tank, the water tank handle is held at the moment to transversely pull out the water tank, then the water tank is taken out from the mounting bottom plate through the water tank placing opening to be added with domestic water, and the water tank is placed on the mounting bottom plate and fixed; when cleaning, the robot is placed on the ground to be cleaned, the main control circuit board controls the forward motor to work to enable the robot to move forward, the driving motor is controlled to work, the rotating direction of the driving motor is the same as that of the forward wheel when the robot moves forward, the rotating speed of the driving motor is controlled to control the speed of friction between the cleaning belt and the ground to control the intensity of the cleaning belt when cleaning, and when the speed of friction between the cleaning belt and the ground is increased, the intensity of the cleaning ground is increased; meanwhile, the main control circuit board controls the first water pump and the second water pump to work, domestic water enters the filter through the second water pump, and the filtered purified water is sprayed out of the spray head of the spray pipe towards the cleaning belt to wash the outer surface of the vertical position of the cleaning belt; the cleaning belt at the synchronous wheel is contacted with the ground, rotates to the vertical direction along with the driving motor and is washed by water flushed from the spray head to clean; during cleaning, the distance detected by the infrared distance measuring sensor is fed back to the main control circuit board so as to control the advancing or pausing of the robot and the like to adjust the advancing route; when the cleaning belt needs to be washed more effectively, the ozone generator is controlled to work through the main control circuit board, and meanwhile, the electromagnetic valve is opened to sterilize and disinfect the cleaning belt; the residual water after the sewage is filtered is used for a long time due to the increase of the impurity concentration, and then the water tank is taken out from the mounting bottom plate and the internal sewage is poured out.

The invention cleans the ground by filtering domestic water through the filter, thereby improving the utilization rate of water resources; the cleaning belt circularly cleans the ground through the space between the synchronizing wheel and the roller shaft, and the cleaned cleaning belt is washed clean by clean water sprayed by the internal spray head, so that the cleaning cloth is prevented from being dirty due to the fact that the cleaning cloth is used for repeatedly wiping the ground; the water tank is taken out from the mounting bottom plate, so that the water adding amount can be visually controlled when water is added, and the water tank can be cleaned independently; the cleaning belt is cleaned more thoroughly by the cleaning effect of the ozone generated by the ozone generator; the cleaning operation of different degrees is carried out on different ground by controlling the rotating speed of the driving motor, and the cleaning efficiency is improved.

Example 2

As shown in fig. 9 to 20, the present embodiment is modified from embodiment 1 as follows: the filter comprises a cylinder body 81 and a cylinder cover 82 fixedly connected to the upper end of the cylinder body; the lower part of the side wall of the cylinder body is fixedly connected with a sewage outlet joint 811 communicated with the inside of the cylinder body; a purified water outlet port 821 and a water inlet port 822 are formed on the side wall of the cylinder cover.

Fixedly connected with base 83 on the bottom surface in the barrel, the cover with lie in rotationally install first filter element subassembly 841 and second filter element subassembly 842 in the barrel between the base, the cover sub-unit connection has and is used for driving first filter element subassembly and second filter element subassembly pivoted drive arrangement 85.

The first filter element assembly comprises a ceramic filter element 8411, an upper end cover 8412 fixedly connected to the upper end of the ceramic filter element, and a lower end cover 8413 fixedly connected to the lower end of the ceramic filter element; the outer sides of the upper end cover and the lower end cover are respectively fixedly connected with an upper annular magnet 8417 and a lower annular magnet 8418; the outer diameters of the upper annular magnet and the lower annular magnet are smaller than the outer diameter of the ceramic filter element; a transmission head 8414 is formed in the middle of the upper end cover and is of a polygonal prism structure; a purified water outlet joint 8415 communicated with the inner cavity of the ceramic filter element is fixedly connected to the upper end of the transmission head; a rotary plug 8416 is formed in the middle of the lower end cover.

The upper end cover and the lower end cover are integrally formed by plastic respectively.

The second filter element component has the same structure as the first filter element component; the upper annular magnet of the first filter element component is magnetically attracted with the upper annular magnet of the second filter element component, and the lower annular magnet of the first filter element component is magnetically attracted with the lower annular magnet of the second filter element component; the upper annular magnet and the lower annular magnet enable the outer wall of the ceramic filter element of the first filter element assembly and the outer wall of the ceramic filter element of the second filter element assembly to be kept in an abutting state.

A second positioning joint 834 and a lower rotary seat mounting groove 832 are formed on the base; a rotary interface 833 is formed on one side of the bottom surface of the lower rotary base mounting groove; a drainage channel 831 is formed on the base at the position corresponding to the sewage outlet joint.

A first positioning joint 828 is formed on the bottom surface of the cylinder cover at a position corresponding to the second positioning joint, and an upper rotating seat mounting groove 826 is formed on the bottom surface of the cylinder cover at a position corresponding to the lower rotating seat mounting groove; a first water inlet interface 827 is formed on the inner top surface of the upper rotating seat mounting groove at a position corresponding to the rotating interface; a second water inlet joint 820 is formed in the middle of the first positioning joint; a water flow channel 829 which is communicated with the first water inlet interface 827, the second water inlet interface and the purified water outlet interface is formed in the cylinder cover.

An upper rotating seat 861 and a lower rotating seat 862 are respectively connected in the upper rotating seat mounting groove and the lower rotating seat mounting groove.

A rotating head 8611 is formed at one end of the upper end surface of the upper rotating seat, and a water outlet 86111 is formed in the middle of the rotating head; a sleeve joint 8612 is formed at one end of the lower end surface of the upper rotating seat, which is far away from the transmission head, and a water inlet 86121 is formed in the middle of the sleeve joint; the water outlet and the water inlet are communicated with the inner cavity of the upper rotating seat.

The upper rotating seat and the lower rotating seat have the same structure; the rotating head of the upper rotating base is connected with the first water inlet interface in a sealing and rotating mode, and the rotating head of the lower rotating base is connected with the rotating interface in a rotating mode.

the purified water outlet joint of the first filter element assembly is in sealed rotary connection with the second water inlet joint, and the rotary plug joint of the first filter element assembly is in rotary connection with the second positioning joint; the water purification play water swivel joint of second filter element group spare is connected with the bell and spigot joint sealed rotation of last rotation seat, and the rotation bayonet joint of second filter element group spare rotates with the bell and spigot joint of lower rotation seat to be connected.

The driving device comprises a water wheel 851, and a first transmission rubber wheel 8531 and a second transmission rubber wheel 8532 which are in transmission connection with the water wheel, wherein the first transmission rubber wheel is sleeved outside the sleeve joint, and the second transmission rubber wheel is sleeved outside the first positioning joint; the water wheel includes a transmission rod 8511, a water wheel body 8512 fixedly connected to the upper portion of the transmission rod, and a driving gear 8514 fixedly connected to the lower end of the transmission rod.

The first transmission rubber wheel and the second transmission rubber wheel have the same structure; a through hole 85312 is formed in the middle of the first transmission rubber wheel, and a filter element sleeving part 85311 is formed at the lower end of the first transmission rubber wheel and positioned at the periphery of the through hole; a polygonal transmission hole 85313 which is matched and sleeved with the transmission head is formed in the inner side wall of the filter element sleeving part; because the perforation cover of first transmission rubber wheel is established in the outside of first positioning joint, the perforation cover of second transmission rubber wheel is established in the outside of cup jointing, and the spring supports two transmission rubber wheels on the drive wheel simultaneously for drive wheel and transmission rubber wheel keep the transmission connected state always, during the installation, lift first filter element group spare and second filter element group spare off, and two transmission rubber wheels also can not drop.

the speed reducing wheel is connected between the water wheel and the first transmission rubber wheel and the second transmission rubber wheel and comprises a transmission gear 8520 in meshing transmission connection with the driving gear, a connecting part 8524 fixedly connected to the lower end of the transmission gear and a driving wheel 8521 fixedly connected to the lower end of the connecting part, and the upper end face of the driving wheel is in transmission connection with the lower end faces of the first transmission rubber wheel and the second transmission rubber wheel through friction force; the diameter of the transmission gear is larger than that of the driving gear, so that the speed of the transmission gear is smaller than that of the driving gear, the rotating speed of the ceramic filter element is reduced, and the service life of the ceramic filter element is prolonged.

Springs 87 are respectively sleeved on the outer sides of the first positioning joint and the sleeve joint of the upper rotating seat; the upper end of a spring outside the first positioning joint is abutted against the cylinder cover, and the lower end of the spring is abutted against the upper end of the second transmission rubber wheel; the upper end of a spring outside the second positioning joint is abutted against the cylinder cover, and the lower end of the spring is abutted against the upper end of the first transmission rubber wheel; the spring makes first transmission rubber wheel and second transmission rubber wheel keep the counterbalance state with the drive wheel always, has increased the frictional force between first transmission rubber wheel, second transmission rubber wheel and the drive wheel, improves transmission efficiency.

A water wheel mounting groove 823 for mounting a water wheel is formed in the lower portion of the cylinder cover, a water spraying port 8221 for driving the water wheel to rotate is formed in the side wall of the water wheel mounting groove, and the water spraying port is communicated with a water inlet connector.

the upper end shaping of transfer line has interface 85111, and the locating lever 824 of the cooperation location of waterwheel mounting groove intermediate position fixedly connected with and interface.

A positioning frame 854 which is rotationally connected with the transmission rod is fixedly connected in the water wheel mounting groove; a gear rod 8545 rotationally connected with the transmission gear is formed on the side wall of the positioning frame; the lower end of the gear rod is connected with a screw used for positioning the transmission gear on the gear rod; the water wheel mounting groove is positioned at the lower end of the positioning frame and is in threaded connection with a locking ring 855.

A connecting rod 8513 is formed on the transmission rod and adjacent to the upper end of the driving gear, and the diameter of the connecting rod is smaller than that of the transmission rod; the positioning frame is rotatably connected with the connecting rod.

The positioning frame comprises an outer connecting ring 8541 and an inner connecting ring 8544; more than two connecting rods 8543 are formed between the inner connecting ring and the outer connecting ring; a U-shaped rod 8547 is formed on the outer side wall of the inner connecting ring; a pair of opening rods 8546 are formed at one end, far away from the U-shaped rod, between the inner connecting ring and the outer connecting ring; the U-shaped rod, the inner connecting ring, the opening rod and the outer connecting ring jointly form an opening for the connecting rod to be clamped into the inner connecting ring, and the connecting rod is clamped into the inner connecting ring and then attached to the opening rod.

The gear rod is positioned on one side of the outer connecting ring far away from the opening rod; and positioning bulges 8542 are uniformly formed on the outer wall of the outer connecting ring along the circumferential direction.

The lower end of the side wall of the water wheel mounting groove is provided with a positioning groove 825 matched and positioned with the positioning bulge. Because the diameter of the connecting rod is smaller than that of the transmission rod, when the positioning frame is installed, the position of the hand-held outer connecting ring close to the spreading rod is outwards pulled, and when the connecting rod is completely installed in the inner connecting ring, the position of the hand-held outer connecting ring close to the spreading rod is inwards pressed, so that the water wheel and the positioning frame are longitudinally fixed.

An upper convex portion 8523 is fixedly connected to the middle of the upper end of the transmission gear, and a sleeving hole 8522 connected with the gear rod in a rotating mode is formed in the middle of the transmission gear.

the outer end position of the lower end face of the first transmission rubber wheel is evenly provided with a plurality of rubber racks 85314 along the circumferential direction, and the periphery of the upper end face of the driving wheel is provided with annular teeth connected with the rubber racks.

During the use, inside water flowed into the barrel from water inlet interface, filtered the back through ceramic filter core, flowed through water purification water connectors, rivers passageway and water purification water outlet interface.

The water flowing in from the water inlet port is sprayed out along the tangential direction of the water wheel through the water spraying port, and the impact force is applied to the water wheel body, so that the water wheel body, the transmission rod and the driving gear rotate as a whole; the driving gear is in meshing transmission with the transmission gear, so that a driving wheel fixedly connected to the lower end of the transmission gear is in transmission connection with the first transmission rubber wheel and the second transmission rubber wheel through friction force respectively to drive the first transmission rubber wheel and the second transmission rubber wheel to rotate in the same direction; polygonal transmission holes which are matched with the transmission heads at the upper parts of the ceramic filter cores for transmission are formed between the first transmission rubber wheel and the second transmission rubber wheel, so that the first filter core component and the second filter core component are driven to rotate in the same direction; because the outer walls of the two ceramic filter elements are abutted, when the two ceramic filter elements rotate in the same direction, the movement directions of the abutted positions are opposite, so that the outer walls attached with impurities can be mutually abraded, and the outer walls of the ceramic filter elements are prevented from being blocked; the water mixed with impurities flows out through the sewage outlet joint.

Because the upper end and the lower end of the first ceramic filter element and the second ceramic filter element are respectively and fixedly connected with the upper annular magnet and the lower annular magnet, the two adjacent annular magnets attract each other; when the ceramic filter elements are worn, the outer diameters of the ceramic filter elements are reduced, and the two ceramic filter elements can always keep an abutting state under the magnetic force generated by the annular magnet.

when the ceramic filter element is abraded to the outer diameter equal to the outer diameter of the annular magnet, the annular magnet is abutted, the ceramic filter element is not abraded any more, when a user opens the faucet, the water outlet interface of the purified water is found to have no water outflow, and the side wall of the ceramic filter element is completely blocked by impurities and needs to be replaced.

and the filter does not need a brush component, and is convenient to disassemble and assemble when the filter element is replaced.

example 3

As shown in fig. 21 to 26, the present embodiment is modified from embodiment 1 as follows: the ozone generator comprises a shell 91 with an opening at the front end, an ozone generating pipe 94 and a cooling and drying pipe 93 which are arranged in the shell.

The front end of the housing is detachably connected with a cover body 92; a first air outlet joint 90 is fixedly arranged on the side wall of the shell; an upper air outlet is formed at the upper end of the shell, and a lower air inlet is formed at the lower end of the shell.

the cooling and drying tube comprises a drying tube body 933, a refrigerating sheet mounting seat 932 fixedly arranged on the inner wall of the shell and positioned below the drying tube body, and a motor mounting seat 931 fixedly arranged on the inner wall of the shell and positioned above the drying tube body; the drying tube body is in a cylindrical shape with the lower end closed and the upper end opened; a vertically arranged semiconductor refrigerating sheet 934 is fixedly connected in the refrigerating sheet mounting seat, a heat absorption aluminum seat is fixedly connected to the cold surface of the semiconductor refrigerating sheet, and a heat dissipation aluminum seat is fixedly connected to the hot surface of the semiconductor refrigerating sheet; the bottom surface shaping has a plurality of evenly distributed's first air intake 9321 under the refrigeration piece mount pad.

The lower end of the drying tube body is respectively abutted against the upper ends of the heat absorption aluminum seat and the heat dissipation aluminum seat.

A plurality of second air inlets 9331 which are uniformly distributed are formed in the lower bottom surface of the drying tube body; and a second partition plate 9332 which is vertically arranged and used for separating air heated by the heat absorption aluminum seat and cooled by the heat dissipation aluminum seat is formed in the drying tube body.

The upper part of the drying pipe body is fixedly provided with a cover plate 935, and the upper end surface of the cover plate is provided with a plurality of air outlets 9351 which are uniformly distributed.

and the space between the drying pipe body and the cover plate is filled with water-absorbent resin.

A motor 936 with a downward output shaft is installed in the motor installation seat, and a transmission hole matched and spliced with the output shaft is formed in the middle of the upper end of the second partition plate.

The cover plate is formed with a second through hole 9352 at a position opposite to the transmission hole.

A horizontally arranged supporting plate 9314 is formed on the inner wall of the motor mounting seat, and a first through hole 9313 for an output shaft of a motor to pass through is formed in the middle of the supporting plate; a second air outlet joint 9316 is fixedly connected to the side wall of the motor mounting seat corresponding to one side of the heat absorption aluminum seat and positioned below the support plate, and a heat dissipation air outlet 9317 is formed in the support plate corresponding to one side of the heat dissipation aluminum seat; a first partition plate 9312 is formed at the position, opposite to the second partition plate, of the lower end of the supporting plate, and the heat dissipation air outlet is located on one side of the partition plate.

An air pump 95 and a transformer 96 are fixedly arranged in the shell; a circuit board 99 is mounted within the housing.

fans are fixedly arranged at positions above the ozone generating pipe and the cooling drying pipe in the shell respectively, and the fans above the cooling drying pipe are in sealing contact with the upper end of the motor mounting seat; a filter screen 97 is fixedly arranged at the lower position of the cooling drying pipe in the shell.

The second air outlet joint is connected with the air inlet end of the air pump through a hose; the air outlet end of the air pump is connected with the air inlet end of the ozone generating tube through a hose; the ozone outlet end is connected with the air inlet end of the first air outlet joint through a hose.

the motor, the input end of the transformer, the fan and the semiconductor refrigerating sheet are respectively electrically connected with the circuit board, and the output end of the transformer is electrically connected with the ozone generating tube.

When the ozone generator is started, the fan located above the cooling drying pipe starts to work, negative pressure is formed in the cooling drying pipe, air enters from the lower air inlet, the air temperature is reduced through filtering of the filter screen and the heat absorption aluminum seat, low-temperature drying air is formed after the air passes through the water-absorbent resin, the air pump sucks the low-temperature drying air into the ozone generating pipe to generate ozone, and then the air containing the ozone flows out from the first air outlet connector. After a set time, the motor drives the drying tube body to rotate 180 degrees, and the water-containing water-absorbent resin is transferred to the upper part of the heat-absorbing aluminum seat from the upper part of the heat-absorbing aluminum seat; because the temperature above the heat dissipation aluminum seat is higher, the water in the water-containing water-absorbent resin can be evaporated to form dry water-absorbent resin; the evaporated water vapor is discharged from the heat dissipation air outlet and the upper air outlet; and then, the motor drives the drying tube body to rotate by 180 degrees within the same set time, and the dried water-absorbent resin formed after water evaporation moves to the upper part of the heat-absorbing aluminum seat again to continuously dry air for the reaction of the ozone generating tube.

This ozone generator can realize initiatively cooling and dry air supply, improves ozone production efficiency and promotes the ozone quality, simultaneously, can dry hydrous water-absorbent resin when getting ozone, consequently is used for dry water-absorbent resin can recycle, need not to change.

Claims (1)

1. An ozone generator, characterized by: comprises a shell with an opening at the front end, an ozone generating pipe and a cooling and drying pipe which are arranged in the shell;

The front end of the shell is detachably connected with a cylinder cover; a first air outlet joint is fixedly arranged on the side wall of the shell; an upper air outlet is formed at the upper end of the shell, and a lower air inlet is formed at the lower end of the shell;

The cooling drying tube comprises a drying tube body, a refrigerating sheet mounting seat fixedly mounted on the inner wall of the shell and positioned below the drying tube body, and a motor mounting seat fixedly mounted on the inner wall of the shell and positioned above the drying tube body; the drying tube body is in a cylindrical shape with the lower end closed and the upper end opened; a vertically arranged semiconductor refrigerating sheet is fixedly connected in the refrigerating sheet mounting seat, a heat absorption aluminum seat is fixedly connected on the cold surface of the semiconductor refrigerating sheet, and a heat dissipation aluminum seat is fixedly connected on the hot surface of the semiconductor refrigerating sheet; a plurality of first air inlets which are uniformly distributed are formed in the lower bottom surface of the refrigerating sheet mounting seat;

the lower end of the drying tube body is respectively abutted against the upper ends of the heat absorption aluminum seat and the heat dissipation aluminum seat;

a plurality of second air inlets which are uniformly distributed are formed in the lower bottom surface of the drying pipe body; a second partition board which is vertically arranged and used for separating air heated by the heat absorption aluminum seat and cooled by the heat dissipation aluminum seat is formed in the drying tube body;

A cover plate is fixedly arranged at the upper part of the drying pipe body, and a plurality of uniformly distributed air outlets are formed in the upper end surface of the cover plate;

The space between the drying pipe body and the cover plate is filled with water-absorbent resin;

A motor with an output shaft facing downwards is installed in the motor installation seat, and a transmission hole matched and spliced with the output shaft is formed in the middle of the upper end of the second partition plate;

A second through hole is formed in the position, opposite to the transmission hole, of the cover plate;

a horizontally arranged supporting plate is formed on the inner wall of the motor mounting seat, and a first through hole for an output shaft of the motor to penetrate through is formed in the middle of the supporting plate; the side wall of the motor mounting seat, which corresponds to one side of the heat absorption aluminum seat, is positioned below the supporting plate and is fixedly connected with a second air outlet joint, and a heat dissipation air outlet is formed in the supporting plate, which corresponds to one side of the heat dissipation aluminum seat; a first partition plate is formed at the lower end of the supporting plate in a position corresponding to the second partition plate, and the heat dissipation air outlet is positioned on one side of the partition plate;

An air pump and a transformer are fixedly arranged in the shell; a circuit board is arranged in the shell;

Fans are fixedly arranged at positions above the ozone generating pipe and the cooling drying pipe in the shell respectively, and the fans above the cooling drying pipe are in sealing contact with the upper end of the motor mounting seat; a filter screen is fixedly arranged in the shell at a position below the cooling drying pipe;

The air outlet end of the air pump is connected with the air inlet end of the ozone generating tube through a hose; the ozone outlet end is connected with the air inlet end of the first air outlet joint through a hose;

The motor, the input end of the transformer, the fan and the semiconductor refrigerating sheet are respectively electrically connected with the circuit board, and the output end of the transformer is electrically connected with the ozone generating tube.