CN116253405A

CN116253405A - Negative ion drinking water purifying device

Info

Publication number: CN116253405A
Application number: CN202310012415.XA
Authority: CN
Inventors: 张红凯
Original assignee: Shanghai Liang Liang Bio Technology Co ltd
Current assignee: Shanghai Liang Liang Bio Technology Co ltd
Priority date: 2023-01-05
Filing date: 2023-01-05
Publication date: 2023-06-13
Anticipated expiration: 2043-01-05
Also published as: CN116253405B

Abstract

The invention discloses an anion drinking water purifying device, which belongs to the technical field of water treatment and comprises a bottom plate, wherein a purifying component, a shelving component, a separating component and a cleaning component are arranged on the bottom plate, the purifying component comprises a transferring main shaft, 5 purifying and installing ring frames are movably arranged on the transferring main shaft, different purifying modules are respectively arranged on the purifying and installing ring frames, the purifying paths inside two semicircular shells are arranged, the purifying path of water body is increased, the purifying degree of drinking water is improved, the anion content in the water body is improved through an anion generator, the separating component and the cleaning component are arranged, the separation of the purifying component and the shell body can be realized quickly, the cleaning and the overhauling of the inside of the shell body are facilitated, and the shelving component and the purifying component are mutually matched, so that the replacement and the overhauling of the purifying modules are facilitated.

Description

Negative ion drinking water purifying device

Technical Field

The invention relates to the technical field of water treatment, in particular to an anion drinking water purifying device.

Background

Water is a main component of body fluids, and is an important substance constituting cells, interstitial fluid, plasma, and the like. The water is taken as the medium of all chemical reactions in the body, is a platform for transporting various nutrients and substances, the water resource shortage and the water pollution situation are increasingly severe, the water quality of most areas is reduced, the domestic water of residents is influenced, some residents close to the water source directly take water from the water sources to drink, the disease rate of the residents is easy to become high, and the pollution of the city in real life is large, the negative ion content in the outer space of the city is low, and the purification cleanliness of the existing drinking water purification device is low due to the short purification path.

The chinese patent application with publication number CN211069238U discloses a drinking water purifying device, which comprises a fixing shell, filtering mechanism, scraping mechanism, demolishing mechanism, fixed door and backup pad, filtering mechanism sets up in the inside of fixed shell, scraping mechanism sets up in the left side of fixed shell, demolish the quantity of mechanism and be two and the symmetry is provided with filtering mechanism on, the fixed door sets up on the right side of fixed shell, the bottom at the fixed shell is installed to the backup pad, filtering mechanism includes activated carbon net, non-woven fabrics filter screen and meticulous filter screen, the fixed block is all installed at the top of activated carbon net, the top of non-woven fabrics filter screen and the top of meticulous filter screen, the top of fixed block runs through the fixed shell and extends to the outside of fixed shell, and the top of three fixed block passes through diaphragm fixed connection, and the purification to drinking water can be accomplished to above-mentioned patent, but the water purification route is shorter, and the purification degree is lower, also inconvenient to the change of filter layer, still is inconvenient to overhaul the inside the casing, so the invention provides a negative ion drinking water purifying device.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the negative ion drinking water purifying device, which solves the problems that the water purifying path is short, the purifying degree is low, the filter layer is inconvenient to replace, and the inside of the shell is inconvenient to overhaul.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an anion drinking water purification device, including the bottom plate, be provided with the purification subassembly on the bottom plate and shelve the subassembly, the purification subassembly is including shifting the main shaft, the activity is provided with 5 purification installation ring framves on the main shaft, be provided with different purification module on the purification installation ring frame respectively, shelve the subassembly and shelve the base including shelve, sliding mounting has 5 on the base and shelve the bottom plate, shelve the bottom plate and be used for placing purification installation ring frame, still be provided with separation subassembly and cleaning subassembly on the bottom plate, separation subassembly includes two semicircle shells, two semicircle shell symmetrical sliding mounting is on the bottom plate, cleaning subassembly is including cleaning the bottom plate, the arc rack is installed in the rotation on the cleaning bottom plate, the brush roller is installed in the rotation on the arc rack, the brush roller is used for the inside clearance of semicircle shell.

Further, the purification assembly further comprises a transverse adjusting sliding plate which is slidably arranged on the bottom plate, the bottom plate is rotatably provided with a transverse adjusting screw rod, the transverse adjusting sliding plate and the transverse adjusting screw rod form a screw pair, the transverse adjusting sliding plate is slidably provided with a lifting base, the transverse adjusting sliding plate is rotatably provided with a lifting belt wheel, the lifting base is fixedly provided with a positioning motor and a lifting screw rod, an output shaft of the positioning motor is fixedly connected with the transferring main shaft, and the lifting screw rod and the lifting belt wheel form the screw pair.

Further, a trapezoid groove is formed in the transfer main shaft, a plurality of fan-shaped grooves are further formed in the transfer main shaft, a cleaning bottom plate and 2 limiting concave blocks are fixedly arranged on the purification installation ring frame, the cleaning bottom plate is in sliding fit with the trapezoid groove of the transfer main shaft, and the cleaning bottom plate is in running fit with the fan-shaped grooves of the transfer main shaft.

Further, the shelving assembly further comprises a shelving sliding frame which is slidably arranged on the bottom plate, the shelving sliding frame is slidably matched with the shelving bottom plate, the shelving screw rod is rotatably arranged on the bottom plate, the shelving screw rod and the shelving sliding frame form a screw pair, the tail end of the shelving bottom plate is fixedly provided with an auxiliary handle, and the shelving bottom plate is symmetrically provided with limiting convex blocks which are slidably matched with the limiting concave blocks.

Further, the separation assembly comprises a separation driving push plate which is symmetrically and slidably arranged on the semicircular shell, the separation driving push plate is in sliding fit with the bottom plate, a separation screw rod is symmetrically and rotatably arranged on the bottom plate, the separation screw rod and the separation driving push plate form a spiral pair, a strip-shaped groove plate I is fixedly arranged on the separation driving push plate, an auxiliary sliding rack and an auxiliary sliding seat are respectively arranged on two sides of the two semicircular shells, the auxiliary sliding rack and the auxiliary sliding seat are fixedly arranged on the bottom plate, a following sliding plate is slidably arranged on the same side of the auxiliary sliding seat, a fixed rotating plate is rotatably arranged on the following sliding plate, two notches are formed in the lower end of the transfer main shaft, and the fixed rotating plate is jointed with the transfer main shaft.

Further, a second strip-shaped groove plate is slidably mounted on the auxiliary sliding rack, a separation sliding column is fixedly arranged on the second strip-shaped groove plate, the separation sliding column is in sliding fit with the first strip-shaped groove plate, a fixed rack is fixedly arranged on the second strip-shaped groove plate close to the fixed rotating plate, a fixed column gear is fixedly arranged on the fixed rotating plate, the fixed rack and the fixed column gear form a gear pair, and a torsion spring is arranged between the fixed rotating plate and the following sliding plate.

Further, a strip-shaped groove plate III is symmetrically and fixedly arranged on the following slide plate, the strip-shaped groove plate III is in sliding fit with the cleaning bottom plate, a cleaning slide column is symmetrically and fixedly arranged on the cleaning bottom plate, and the cleaning slide column is in sliding fit with the strip-shaped groove plate II.

Further, the cleaning assembly further comprises symmetrical cleaning post gears which are rotatably arranged on the cleaning bottom plate, and the cleaning post gears and the arc racks form a gear-rack pair.

Further, limiting plates are arranged on two sides of the two semicircular shells, the limiting plates are fixedly arranged on the bottom plate and used for limiting the moving positions of the semicircular shells, 5 purifying interlayer layers are arranged in the semicircular shells, and the axis of a water inlet and the axis of a water outlet of the same interlayer layer are symmetrically arranged.

Compared with the prior art, the invention has the beneficial effects that: (1) The invention increases the water purification path by setting the purification paths inside the two semicircular shells, improves the drinking water purification degree, and improves the anion content in the water body through the anion generator. (2) According to the invention, the separation assembly and the cleaning assembly are arranged, so that the separation of the purification assembly and the shell can be realized rapidly, and the interior of the shell is convenient to clean and overhaul. (2) The invention can be matched with the purification assembly by arranging the shelving assembly, thereby being convenient for replacing and overhauling the purification module.

Drawings

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

FIG. 2 is a schematic view of the structure of the decontamination module and the shelving module of the present invention.

Fig. 3 is an enlarged partial schematic view at a in fig. 2.

Fig. 4 is a partially enlarged schematic view at B in fig. 2.

Fig. 5 is an enlarged partial schematic view at C in fig. 2.

Fig. 6 is a partially enlarged schematic view of fig. 2D.

Fig. 7 is a schematic view of the structure of the separation assembly of the present invention.

Fig. 8 is a partially enlarged schematic illustration at E in fig. 7.

Fig. 9 is a partially enlarged schematic view of fig. 7 at F.

Fig. 10 is a partially enlarged schematic view at G in fig. 7.

Fig. 11 is a schematic structural view of a transfer spindle according to the present invention.

FIG. 12 is a schematic view of a cleaning assembly according to the present invention.

Fig. 13 is a partially enlarged schematic view of H in fig. 12.

Fig. 14 is a schematic view of the structure of the trailing slide plate of the present invention.

Fig. 15 is a partially enlarged schematic view of fig. 14 at I.

Fig. 16 is an enlarged partial schematic view at J in fig. 14.

Fig. 17 is a schematic view of the structure of the semicircular shell of the present invention.

FIG. 18 is a top view of the purge mounting ring frame of the present invention.

FIG. 19 is a cross-sectional view of a purification assembly of the present invention.

Reference numerals: 101-a bottom plate; 102-a semicircular shell; 103-purifying the mounting ring frame; 104-transferring a main shaft; 105-a positioning motor; 106, lifting the screw rod; 107-lifting the base; 108-limiting the concave block; 109-resting floor; 110-limiting the bump; 111-lifting the belt pulley; 112-lateral adjustment slide; 113-a transverse adjusting screw rod; 114-a transverse adjustment motor; 115-a rest base; 116-resting carriage; 117-resting the screw rod; 118-rest motor; 119-separating a screw rod; 120-separating the motor; 121-separating the active push plate; 122-limiting plates; 123-granular activated carbon sheet; 124-auxiliary carriage; 125-first strip-shaped groove plate; 126-a second strip-shaped groove plate; 127-separating slide column; 128-a fixed rack; 129-follow-up slide; 130-a strip-shaped groove plate III; 131-cleaning the bottom plate; 132-cleaning the slide column; 133-fixing the rotating plate; 134-fixed column gear; 135-brush roller; 136-arc rack; 137-cleaning the post gear; 138-cleaning the motor; 139-auxiliary slide carriage; 140-a negative ion generator; 141-a water inlet; 142-water outlet; 143-an activated carbon plate; 144-hollow ultrafiltration membrane; 145-an anion layer; 146-PP cotton.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: referring to fig. 1-19, an anion drinking water purifying device comprises a bottom plate 101, a purifying component is arranged on the bottom plate 101, the purifying component comprises a transferring main shaft 104, 5 purifying installation ring frames 103 are movably arranged on the transferring main shaft 104, different purifying modules are respectively arranged on the purifying installation ring frames 103, the purifying modules are respectively an active carbon plate 143, a hollow ultrafiltration membrane 144, an anion layer 145, PP cotton 146 and a granular active carbon plate 123, the active carbon plates 143, the hollow ultrafiltration membrane 144, the anion layer 145, the PP cotton 146 and the granular active carbon plate 123 are sequentially arranged on the transferring main shaft 104 from top to bottom, the active carbon plates 143, the hollow ultrafiltration membrane 144, the PP cotton 146 and the granular active carbon plate 123 are respectively and fixedly installed on the purifying installation ring frames 103 at corresponding positions, the active carbon plates 143 comprise two anion generators 140, and the anion generators 140 are fixedly installed on the purifying installation ring frames 103 at corresponding positions.

The bottom plate 101 is provided with a transverse adjusting slide plate 112 in a sliding mode, the bottom plate 101 is provided with a transverse adjusting screw 113 in a rotating mode, the transverse adjusting slide plate 112 and the transverse adjusting screw 113 form a screw pair, the bottom plate 101 is fixedly provided with a transverse adjusting motor 114, an output shaft of the transverse adjusting motor 114 is fixedly connected with the transverse adjusting screw 113, the transverse adjusting slide plate 112 is provided with a lifting base 107 in a sliding mode, the transverse adjusting slide plate 112 is also provided with an auxiliary belt wheel in a rotating mode, the transverse adjusting slide plate 112 is provided with a lifting belt wheel 111 in a rotating mode, a conveying belt is arranged between the auxiliary belt wheel on the transverse adjusting slide plate 112 and the lifting belt wheel 111, the lower surface of the transverse adjusting slide plate 112 is fixedly provided with an auxiliary motor, an output shaft of the auxiliary motor on the lower surface of the transverse adjusting slide plate 112 is fixedly connected with the auxiliary belt wheel on the transverse adjusting slide plate 112, the lifting base 107 is fixedly provided with a positioning motor 105 and a lifting screw 106, and the output shaft of the positioning motor 105 is fixedly connected with a transfer main shaft 104, and the lifting screw 106 form the screw pair.

The transfer main shaft 104 is provided with a trapezoid groove, the transfer main shaft 104 is also provided with a plurality of fan-shaped grooves, the cleaning base plate 131 and 2 limiting concave blocks 108 are fixedly arranged on the cleaning installation ring frame 103, the cleaning base plate 131 is in sliding fit with the trapezoid groove of the transfer main shaft 104, the cleaning base plate 131 is in rotating fit with the fan-shaped groove of the transfer main shaft 104, and the cleaning installation ring frame 103 is fixedly installed on the transfer main shaft 104 under the action of the cleaning base plate 131 and the fan-shaped grooves of the transfer main shaft 104.

The bottom plate 101 is provided with a shelving component, the shelving component comprises a shelving base 115, the shelving base 115 is fixedly arranged on the bottom plate 101, 5 shelving bottom plates 109 are slidably arranged on the shelving base 115, the shelving bottom plates 109 are used for placing the purification installation ring frame 103, the bottom plate 101 is slidably provided with a shelving sliding frame 116, the shelving sliding frame 116 is slidably matched with the shelving bottom plates 109, the shelving sliding frame 116 is provided with a notch, the bottom plate 101 is rotatably provided with a shelving screw rod 117, the shelving screw rod 117 and the shelving sliding frame 116 form a screw pair, the bottom plate 101 is fixedly provided with a shelving motor 118, an output shaft of the shelving motor 118 is fixedly connected with the shelving screw rod 117, an auxiliary handle is fixedly arranged at the tail end of the shelving bottom plate 109, the shelving bottom plates 109 are symmetrically provided with limiting convex blocks 110, and the limiting convex blocks 110 are slidably matched with the limiting concave blocks 108.

When the purification module on the purification installation ring frame 103 needs to be replaced, an auxiliary motor on the lower surface of the transverse adjustment slide plate 112 is started, the lifting belt pulley 111 is driven to rotate, then the transfer main shaft 104 is enabled to move upwards under the action of the lifting screw rod 106, namely, all the purification installation ring frames 103 are enabled to move upwards, the transfer main shaft 104 is enabled to avoid other components, the transverse adjustment motor 114 is started again, the transverse adjustment slide plate 112 is driven to move under the action of the transverse adjustment screw rod 113, namely, the transfer main shaft 104 is enabled to move, the purification installation ring frames 103 are placed on the placing base plate 109 under the action of the auxiliary motor on the lower surface of the transverse adjustment slide plate 112, the transverse adjustment motor 114 and the positioning motor 105, and the axes of the two limiting concave blocks 108 and the axes of the corresponding limiting convex blocks 110 are on the same line, namely, the limiting convex blocks 110 are engaged with the limiting concave blocks 108, at the moment, the positioning motor 105 is restarted, the transfer main shaft 104 is driven to rotate, and at the moment, the purification installation ring frame 103 cannot rotate under the action of the placing base plate 109, therefore, the base plate 131 on the purification installation ring frame 103 is enabled to be disengaged from the groove of the transfer main shaft 104, the step-down plate 131 is enabled to move, the step-down adjustment motor is enabled to place the cleaning main shaft 104, the step down plate 104 is enabled to move, the step down, the cleaning motor is enabled to move upwards, the main shaft 104, and the step down and the main shaft 104 is enabled to move upwards, and the step down and move step down, and the movement motor is enabled to move.

And starting a shelving motor 118 according to the required replaced purification module, and adjusting the position of the shelving carriage 116 under the action of a shelving screw rod 117, so that a notch of the shelving carriage 116 moves to the corresponding shelving bottom plate 109, namely the shelving carriage 116 is separated from being engaged with the shelving bottom plate 109, and pulling an auxiliary handle of the shelving bottom plate 109 to pull out the purification mounting ring frame 103, thereby facilitating the replacement of the purification module on the purification mounting ring frame 103.

The bottom plate 101 is further provided with a separation assembly, the separation assembly comprises two semicircular shells 102, the two semicircular shells 102 are symmetrically and slidably arranged on the bottom plate 101, a separation driving push plate 121 is symmetrically and slidably arranged on the semicircular shells 102, a spring is arranged between the bottom plate 101 and the separation driving push plate 121, the separation driving push plate 121 is slidably matched with the bottom plate 101, a separation screw rod 119 is symmetrically and rotatably arranged on the bottom plate 101, the separation screw rod 119 and the separation driving push plate 121 form a spiral pair, a separation motor 120 is fixedly arranged on the bottom plate 101, an output shaft of the separation motor 120 is fixedly connected with one of the separation screw rods 119, belt pulleys are fixedly arranged at the ends of the two separation screw rods 119, a conveying belt is arranged between the belt pulleys of the two separation screw rods 119, a strip-shaped groove plate one 125 is fixedly arranged on the separation driving push plate 121, a limiting plate 122, an auxiliary carriage 124 and an auxiliary carriage 139 are fixedly arranged on two sides of the two semicircular shells 102, the limiting plate 122 is used for limiting the moving position of the semicircular shells 102, a following slide plate 129 is slidably arranged on the same side auxiliary 139, a transfer plate 129 is rotatably arranged on the following slide plate 129, a transfer plate is fixedly arranged on the transfer plate 129, a transfer plate 104 is fixedly arranged on the two transfer plates 104 and a main shaft 133 is fixedly connected with a main shaft 133, and the transfer plate 104 is fixedly connected with the transfer plate 133.

The auxiliary carriage 124 is provided with a second bar-shaped groove plate 126 in a sliding manner, a spring is arranged between the auxiliary carriage 124 and the second bar-shaped groove plate 126, a separation slide column 127 is fixedly arranged on the second bar-shaped groove plate 126, a fixing rack 128 is fixedly arranged on the second bar-shaped groove plate 126 close to the fixing rotating plate 133 in a sliding manner, a fixing column gear 134 is fixedly arranged on the fixing rotating plate 133, the fixing rack 128 and the fixing column gear 134 form a gear pair, a torsion spring is arranged between the fixing rotating plate 133 and the following slide plate 129, one end of the torsion spring is fixedly connected to the following slide plate 129, the other end of the torsion spring is fixedly connected to the fixing rotating plate 133, a third bar-shaped groove plate 130 is symmetrically and fixedly arranged on the following slide plate 129, a cleaning bottom plate 131 is slidably arranged on the third bar-shaped groove plate 130, a cleaning slide column 132 is symmetrically and fixedly arranged on the cleaning bottom plate 131, and the cleaning slide column 132 is slidably matched with the second bar-shaped groove plate 126.

Referring to fig. 19, 5 purification interlayers are disposed in the semicircular shell 102, the axis of the water inlet and the axis of the water outlet of the same interlayer are symmetrically disposed, so that a purification path is increased, the purification dryness is improved, the water outlet 142 is fixedly disposed at the lower end of the semicircular shell 102 on the left side, the water inlet 141 is fixedly disposed on the semicircular shell 102 on the right side, and in a normal position, two semicircular shells 102, 5 purification installation ring frames 103, 5 purification modules and a transfer main shaft 104 together form a closed chamber to form a purification channel.

Water is injected from the water inlet 141 through the water pump, enters the hollow ultrafiltration membrane 144 layer through the active carbon plate 143 layer from the left channel of the semicircular shell 102, enters the negative ion layer 145 layer through the right channel of the semicircular shell 102, enters the PP cotton 146 layer through the left channel of the semicircular shell 102, enters the granular active carbon plate 123 layer through the right channel of the semicircular shell 102, and finally flows out from the water outlet 142.

By starting the separation motor 120, the two separation screw rods 119 are driven to rotate, so that 4 separation driving pushing plates 121 are driven to slide, under the action of springs between the separation driving pushing plates 121 and the semicircular shell 102, the two semicircular shells 102 move towards a direction away from the center of the circle of the transfer spindle 104, finally, the semicircular shell 102 is enabled to contact the limiting plate 122, namely, the semicircular shell 102 cannot move, the groove end of the first strip-shaped groove plate 125 is enabled to contact the separation sliding column 127, at the moment, the separation driving pushing plates 121 continue to move, the springs between the semicircular shell 102 and the separation driving pushing plates 121 are compressed, the separation sliding column 127 is driven to slide synchronously under the action of the first strip-shaped groove plate 125, namely, the second strip-shaped groove plate 126 is driven to slide on the third strip-shaped groove plate 130, and when the cleaning bottom plate 131 moves to the middle position of the third strip-shaped groove plate 130, the fixed rack 128 is enabled to contact the fixed column gear 134 at the moment, the fixed column gear 134 cannot be driven to rotate, the second strip-shaped groove plate 126 continues to slide under the action of the separation driving plate 121, the fixed column gear 134 is enabled to rotate, and the fixed rack 128 is enabled to move, so that the transfer spindle 104 is enabled to be disengaged from the main spindle 104, namely, the main spindle is released.

Before the cleaning floor 131 does not slide relative to the cleaning floor 131, the transfer spindle 104 moves upward, and the following slide 129 is driven to move upward by the fixed rotating plate 133.

The cleaning assembly is further arranged on the bottom plate 101 and comprises an arc-shaped rack 136, the arc-shaped rack 136 is rotatably arranged on the cleaning bottom plate 131, a brush roller 135 is rotatably arranged on the arc-shaped rack 136, the brush roller 135 is used for cleaning the inside of the semicircular shell 102, cleaning post gears 137 are symmetrically rotatably arranged on the cleaning bottom plate 131, the cleaning post gears 137 and the arc-shaped rack 136 form a gear rack pair, belt wheels are fixedly arranged on the cleaning post gears 137, a conveyor belt is arranged between the belt wheels of the two cleaning post gears 137, a cleaning motor 138 is fixedly arranged at the lower end of the cleaning bottom plate 131, and the cleaning motor 138 is fixedly connected with one of the cleaning post gears 137.

When the cleaning bottom plate 131 moves to the center position of the strip-shaped groove plate III 130, at this time, the end part of the brush roller 135 contacts the inner side wall of the semicircular shell 102, the axial lead of the arc-shaped rack 136 and the axial lead of the semicircular shell 102 at this time are on the same straight line, the cleaning motor 138 is started to drive the cleaning post gear 137 to rotate, so that the arc-shaped rack 136 rotates, even if the brush roller 135 cleans the inside of the semicircular shell 102, the arc-shaped rack 136 moves up and down under the action of the transfer main shaft 104, the cleaning motor 138 folds the brush roller 135 after cleaning one layer of inside, the cleaning bottom plate 131 moves towards the center direction of the transfer main shaft 104 to give way, the transfer main shaft 104 moves upwards, and the cleaning of 5 cleaning interlayer can be completed by repeating the steps.

Working principle: water is injected from the water inlet 141 through the water pump, enters the hollow ultrafiltration membrane 144 layer from the left channel of the semicircular shell 102 through the activated carbon plate 143 layer, enters the negative ion layer 145 layer through the right channel of the semicircular shell 102, and under the action of the negative ion generator 140, the negative ion content in the water is increased, the peculiar smell and impurities in the water are removed, the abundant negative ions can also quickly make people feel comfortable, considerable air negative ions are inhaled from the research surface, diseases such as asthma, hypertension, neurasthenia, emphysema and coronary heart disease can also be removed, the air negative ions enter the PP cotton 146 layer through the left channel of the semicircular shell 102, enter the granular activated carbon plate 123 layer through the right channel of the semicircular shell 102, and finally flow out from the water outlet 142, and the purification procedure is completed.

When the semicircular shells 102 need to be cleaned, the separation motor 120 is started to enable the two semicircular shells 102 to move, the position of the cleaning bottom plate 131 is adjusted through the action of the first strip-shaped groove plate 125 on the second strip-shaped groove plate 126, the position of the cleaning bottom plate 131 is adjusted under the action of the transfer main shaft 104, and therefore cleaning of 5 cleaning interlayers of the semicircular shells 102 is completed under the action of the brush roller 135.

When the purification module on the purification installation ring frame 103 needs to be replaced, the fixed rotating plate 133 is enabled to loosen the restriction on the transfer main shaft 104 through the action of the separation driving push plate 121, then the placement of the purification installation ring frame 103 and the detachment of the transfer main shaft 104 are completed under the action of the auxiliary motor, the transverse adjustment motor 114 and the positioning motor 105 on the lower surface of the transverse adjustment slide plate 112, the shelving motor 118 is started again to adjust the position of the shelving carriage 116, the shelving bottom plate 109 is pulled out through the auxiliary handle of the shelving bottom plate 109 corresponding to the purification module needing to be replaced, the replacement of the purification module is completed, and after the replacement is completed, the recovery can be completed by reversing the steps.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims

1. An anion drinking water purification device, includes bottom plate (101), its characterized in that:

the purification assembly comprises a transfer main shaft (104), 5 purification installation ring frames (103) are movably arranged on the transfer main shaft (104), different purification modules are respectively arranged on the purification installation ring frames (103), the shelving assembly comprises a shelving base (115), 5 shelving base plates (109) are slidably arranged on the shelving base (115), and the shelving base plates (109) are used for placing the purification installation ring frames (103);

the cleaning device is characterized in that a separation assembly and a cleaning assembly are further arranged on the base plate (101), the separation assembly comprises two semicircular shells (102), the two semicircular shells (102) are symmetrically and slidably arranged on the base plate (101), the cleaning assembly comprises a cleaning base plate (131), an arc-shaped rack (136) is rotatably arranged on the cleaning base plate (131), a brush roller (135) is rotatably arranged on the arc-shaped rack (136), and the brush roller (135) is used for cleaning the inside of the semicircular shells (102).

2. The apparatus according to claim 1, wherein: the purification assembly further comprises a transverse adjusting sliding plate (112) which is slidably mounted on the bottom plate (101), the bottom plate (101) is rotatably provided with a transverse adjusting screw rod (113), the transverse adjusting sliding plate (112) and the transverse adjusting screw rod (113) form a screw pair, the transverse adjusting sliding plate (112) is slidably provided with a lifting base (107), the transverse adjusting sliding plate (112) is rotatably provided with a lifting belt wheel (111), the lifting base (107) is fixedly provided with a positioning motor (105) and a lifting screw rod (106), an output shaft of the positioning motor (105) is fixedly connected with the transfer main shaft (104), and the lifting screw rod (106) and the lifting belt wheel (111) form the screw pair.

3. The apparatus according to claim 2, wherein: the cleaning device is characterized in that trapezoid grooves are formed in the transfer main shaft (104), a plurality of fan-shaped grooves are further formed in the transfer main shaft (104), a cleaning bottom plate (131) and 2 limiting concave blocks (108) are fixedly arranged on the cleaning installation ring frame (103), the cleaning bottom plate (131) is in sliding fit with the trapezoid grooves of the transfer main shaft (104), and the cleaning bottom plate (131) is in rotating fit with the fan-shaped grooves of the transfer main shaft (104).

4. A negative ion drinking water purifying apparatus according to claim 3, wherein: the assembly further comprises a shelving sliding frame (116), the shelving sliding frame (116) is slidably mounted on the bottom plate (101), the shelving sliding frame (116) is slidably matched with the shelving bottom plate (109), the shelving screw rod (117) is rotatably mounted on the bottom plate (101), the shelving screw rod (117) and the shelving sliding frame (116) form a screw pair, an auxiliary handle is fixedly arranged at the tail end of the shelving bottom plate (109), limiting protruding blocks (110) are symmetrically arranged on the shelving bottom plate (109), and the limiting protruding blocks (110) are slidably matched with the limiting concave blocks (108).

5. The apparatus according to claim 4, wherein: the separation assembly comprises a separation driving push plate (121) which is symmetrically and slidably arranged on a semicircular shell (102), the separation driving push plate (121) is in sliding fit with a bottom plate (101), a separation screw rod (119) is symmetrically and rotatably arranged on the bottom plate (101), the separation screw rod (119) and the separation driving push plate (121) form a spiral pair, a strip-shaped groove plate I (125) is fixedly arranged on the separation driving push plate (121), an auxiliary sliding frame (124) and an auxiliary sliding seat (139) are respectively arranged on two sides of the two semicircular shells (102), the auxiliary sliding frame (124) and the auxiliary sliding seat (139) are fixedly arranged on the bottom plate (101), a following sliding plate (129) is slidably arranged on the same-side auxiliary sliding seat (139), a fixed rotating plate (133) is rotatably arranged on the following sliding plate (129), two notches are formed in the lower end of the transfer main shaft (104), and the fixed rotating plate (133) is jointed with the transfer main shaft (104).

6. The apparatus according to claim 5, wherein: the auxiliary sliding frame is characterized in that a second strip-shaped groove plate (126) is slidably mounted on the auxiliary sliding frame (124), a separation sliding column (127) is fixedly arranged on the second strip-shaped groove plate (126), the separation sliding column (127) and the first strip-shaped groove plate (125) are slidably matched, a fixed rack (128) is fixedly arranged on the second strip-shaped groove plate (126) close to the fixed rotating plate (133), a fixed column gear (134) is fixedly arranged on the fixed rotating plate (133), the fixed rack (128) and the fixed column gear (134) form a gear pair, and a torsion spring is arranged between the fixed rotating plate (133) and the following sliding plate (129).

7. The apparatus of claim 6, wherein the apparatus further comprises: the cleaning device is characterized in that a third strip-shaped groove plate (130) is symmetrically and fixedly arranged on the following sliding plate (129), the third strip-shaped groove plate (130) is in sliding fit with the cleaning bottom plate (131), a cleaning sliding column (132) is symmetrically and fixedly arranged on the cleaning bottom plate (131), and the cleaning sliding column (132) is in sliding fit with the second strip-shaped groove plate (126).

8. The apparatus of claim 7, wherein: the cleaning assembly further comprises cleaning post gears (137) which are symmetrically and rotatably arranged on the cleaning bottom plate (131), and the cleaning post gears (137) and the arc racks (136) form a gear-rack pair.

9. The apparatus according to claim 8, wherein: limiting plates (122) are arranged on two sides of the two semicircular shells (102), the limiting plates (122) are fixedly arranged on the bottom plate (101), the limiting plates (122) are used for limiting the moving positions of the semicircular shells (102), 5 purifying interlayer layers are arranged in the semicircular shells (102), and the axial lead of a water inlet and the axial lead of a water outlet of the same interlayer layer are symmetrically arranged.