CN112390421A

CN112390421A - Tap water auxiliary sterilizing equipment

Info

Publication number: CN112390421A
Application number: CN202011284278.8A
Authority: CN
Inventors: 周远琴
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-17
Filing date: 2020-11-17
Publication date: 2021-02-23

Abstract

The invention relates to auxiliary disinfection equipment, in particular to tap water auxiliary disinfection equipment which comprises a drainage mechanism, a medicament mixing mechanism and a water outlet mechanism, wherein the equipment can accelerate water flow while filtering, can add a disinfectant, can improve the contact efficiency of the disinfectant and water, can realize the addition of a disinfectant raw material by utilizing water flow power, and is connected with the medicament mixing mechanism, the medicament mixing mechanism is connected with the water outlet mechanism, and the drainage mechanism is connected with the water outlet mechanism.

Description

Tap water auxiliary sterilizing equipment

Technical Field

The invention relates to auxiliary disinfection equipment, in particular to tap water auxiliary disinfection equipment.

Background

In the process of disinfecting tap water, some impurities are easy to be mixed, and the filtering can slow down the water flow speed and reduce the disinfection efficiency, so the tap water auxiliary disinfection equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the tap water auxiliary disinfection equipment, the equipment can accelerate water flow while filtering, the equipment can be added with disinfectant, the equipment can improve the contact efficiency of the disinfectant and water, and the equipment can realize the addition of disinfectant raw materials by utilizing water flow power.

In order to solve the technical problems, the invention relates to auxiliary disinfection equipment, in particular to tap water auxiliary disinfection equipment which comprises a drainage mechanism, a medicament mixing mechanism and a water outlet mechanism, wherein the equipment can accelerate water flow while filtering, can add a disinfectant, can improve the contact efficiency of the disinfectant and water, and can realize the addition of a disinfectant raw material by utilizing water flow power.

The drainage mechanism is connected with the medicament mixing mechanism, the medicament mixing mechanism is connected with the water outlet mechanism, and the drainage mechanism is connected with the water outlet mechanism.

As a further optimization of the technical scheme, the drainage mechanism of the tap water auxiliary disinfection equipment comprises a motor, a coupling, a box body, a water inlet, a supporting seat, a movable seat, a screw rod, a belt pulley, a belt, a mixing box, a bearing seat, a long gear with a shaft, a coupling I, a servo motor, a movable gear, a threaded feeding cylinder, an output pipe, a water inlet one-way valve, a servo motor I, a motor belt pulley, a water outlet pipe, a connecting rod, a scraper blade, a rotating shaft, a filtering circular plate, an accelerating impeller, a stirring wheel and a feeding cavity, wherein the motor is connected with the rotating shaft through the coupling, the box body is provided with the water inlet, the supporting seat is connected with the box body in a sliding manner, the supporting seat is rotationally connected with the screw rod, the two screw rods are respectively connected with the belt pulley and the motor belt pulley, the, mixing box links to each other with the bearing frame, the bearing frame links to each other with servo motor, servo motor passes through shaft coupling I with the tape spool pinion and links to each other, the tape spool pinion rotates with the bearing frame to be connected, the tape spool pinion rotates with mixing box to be connected, the tape spool pinion meshes with the removal gear mutually, the removal gear links to each other with threaded feeding section of thick bamboo, threaded feeding section of thick bamboo and mixing box threaded connection, be equipped with the output tube on the mixing box, be equipped with into water check valve in the output tube, servo motor I links to each other with motor pulley, servo motor I links to each other with the supporting seat, the outlet pipe sets up on the box, the connecting rod links to each other with the sliding seat, the connecting rod links to each other with the scraper blade, the scraper blade contacts with filtering plectane, filtering plectane all sets.

As a further optimization of the technical scheme, the medicament mixing mechanism of the auxiliary tap water disinfection equipment comprises a base, a seat with a supporting leg, a connecting bent pipe, a premixing box, a communicating pipe, a raw material box, a threaded plug, a supporting leg I, a bearing seat I, a pushing seat, a square column, a spring, a stirring wheel I, a gear A with a shaft, a sliding support, a piston, a rack, a matching groove and a raw material liquid inlet one-way valve On the premixing box, a stirring wheel I is connected with a gear A with a shaft, the gear A with the shaft is rotatably connected with a sliding support, the sliding support is arranged on a piston, the piston is slidably connected with the premixing box, the piston is connected with a square column, racks are symmetrically arranged on the inner walls of two sides of the premixing box, the racks are meshed with the gear A with the shaft, the racks are slidably connected with a matching groove, the matching groove is arranged on the piston, and a stock solution inlet check valve is arranged in a communicating pipe.

As a further optimization of the technical scheme, the water outlet mechanism of the tap water auxiliary disinfection equipment comprises a water outlet box I, an inlet pipe A, a flywheel, a belt pulley with a shaft, a belt A, a bearing seat II, a belt B, a belt pulley A, a belt cam, a belt pulley B, a long shaft, a belt pulley C, a total outlet and an impeller with a groove, wherein a base is connected with the water outlet box I and the bearing seat II, the inlet pipe A is arranged on one side of the water outlet box I, the total outlet is arranged on the symmetrical side of the water outlet box I, the flywheel is connected with the belt pulley with a shaft, the belt pulley with a shaft is rotationally connected with the water outlet box I, the belt A is frictionally connected with the belt pulley C, the belt pulley C is connected with the long shaft, the long shaft is connected with the belt pulley B, the belt pulley B is frictionally connected with the belt B, the belt B is frictionally connected with the belt pulley A, the belt, the cam with shaft is contacted with the pushing seat, and the impeller with slot is connected with the belt pulley with shaft.

As a further optimization of the technical scheme, the number of the stirring wheels I of the tap water auxiliary sterilization equipment is two.

The auxiliary tap water disinfection equipment has the beneficial effects that:

according to the auxiliary tap water disinfection equipment, the equipment can accelerate water flow while filtering, disinfectants can be added into the equipment, the contact efficiency of the disinfectants and water can be improved, and the equipment can realize the addition of disinfectant raw materials by utilizing water flow power.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a tap water auxiliary disinfection device of the present invention.

Fig. 2 is a schematic structural diagram of a tap water auxiliary disinfection device of the present invention.

Fig. 3 is a schematic structural diagram three of an auxiliary tap water disinfection device according to the present invention.

Fig. 4 is a fourth schematic structural view of an auxiliary tap water disinfection apparatus according to the present invention.

Fig. 5 is a first structural schematic diagram of a drainage mechanism 1 of a tap water auxiliary disinfection device of the present invention.

Fig. 6 is a schematic structural diagram of a drainage mechanism 1 of the tap water auxiliary disinfection device of the invention.

Fig. 7 is a third schematic structural view of the drainage mechanism 1 of the tap water auxiliary disinfection device of the present invention.

Fig. 8 is a fourth schematic structural diagram of the drainage mechanism 1 of the tap water auxiliary disinfection device of the present invention.

Fig. 9 is a fifth structural schematic view of the drainage mechanism 1 of the tap water auxiliary disinfection device of the present invention.

Fig. 10 is a first structural schematic diagram of a chemical mixing mechanism 2 of a tap water auxiliary disinfection apparatus according to the present invention.

Fig. 11 is a second schematic structural diagram of the chemical mixing mechanism 2 of the tap water auxiliary disinfection apparatus of the present invention.

Fig. 12 is a third schematic structural diagram of a chemical mixing mechanism 2 of a tap water auxiliary disinfection apparatus according to the present invention.

Fig. 13 is a first structural schematic diagram of a water outlet mechanism 3 of the auxiliary tap water disinfection apparatus of the present invention.

Fig. 14 is a second schematic structural diagram of the water outlet mechanism 3 of the auxiliary tap water disinfection apparatus of the present invention.

In the figure: a drainage mechanism 1; a motor 1-1; 1-2 of a coupler; 1-3 of a box body; 1-4 of a water inlet; 1-5 parts of a supporting seat; 1-6 of a movable seat; 1-7 parts of a screw rod; 1-8 of belt pulleys; 1-9 parts of a belt; 1-10 parts of a mixing box; 1-11 of a bearing seat; 1-12 of long gear with shaft; a coupler I1-13; servo motors 1 to 14; moving gears 1-15; 1-16 of a threaded feed cylinder; an output pipe 1-17; 1-18 water inlet one-way valves; servo motors I1-19; 1-20 parts of a motor belt pulley; water outlet pipes 1 to 21; connecting pipes 1-22; connecting rods 1-23; 1-24 of a scraper; 1-25 of a rotating shaft; filter disks 1-26; accelerating impellers 1-27; 1-28 parts of a stirring wheel; a feeding cavity 1-29; a drug mixing mechanism 2; a base 2-1; 2-2 with a leg base; connecting the bent pipe 2-3; 2-4 of a premixing box; 2-5 of a communicating pipe; 2-6 parts of a raw material box; 2-7 parts of a threaded plug; leg I2-8; bearing seat I2-9; 2-10 of a pushing seat; 2-11 parts of square column; 2-12 parts of a spring; a stirring wheel I2-13; gear with shaft A2-14; 2-15 of a sliding support; 2-16 of a piston; racks 2-17; 2-18 of matching groove; 2-19 of a stock solution inlet check valve; a water outlet mechanism 3; a water outlet tank I3-1; an inlet pipe A3-2; 3-3 of a flywheel; belt pulley 3-4 with shaft; belt A3-5; bearing seat II 3-6; belt B3-7; pulley A3-8; 3-9 of cam with shaft; pulley B3-10; the long axis is 3-11; pulley C3-12; a total outlet 3-13; with grooved impellers 3-14.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, the present invention relates to an auxiliary disinfection apparatus, and more specifically, to an auxiliary tap water disinfection apparatus, which includes a drainage mechanism 1, a chemical mixing mechanism 2, and a water outlet mechanism 3, and the apparatus can accelerate water flow while filtering, and can add a disinfectant, and the apparatus can improve contact efficiency between the disinfectant and water, and can use water flow power to realize adding a disinfectant raw material.

Drainage mechanism 1 link to each other with medicament mixing mechanism 2, medicament mixing mechanism 2 links to each other with water outlet mechanism 3, drainage mechanism 1 links to each other with water outlet mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the embodiment further describes the embodiment, where the flow guide mechanism 1 includes a motor 1-1, a coupling 1-2, a box body 1-3, a water inlet 1-4, a support seat 1-5, a movable seat 1-6, a lead screw 1-7, a belt pulley 1-8, a belt 1-9, a mixing box 1-10, a bearing seat 1-11, a long gear with a shaft 1-12, a coupling I1-13, a servo motor 1-14, a moving gear 1-15, a feeding cylinder with a thread 1-16, an output pipe 1-17, a water inlet check valve 1-18, a servo motor I1-19, 1-20 parts of motor belt pulley, 1-21 parts of water outlet pipe, 1-22 parts of connecting pipe, 1-23 parts of connecting rod, 1-24 parts of scraper, 1-25 parts of rotating shaft, 1-26 parts of filtering circular plate, 1-27 parts of accelerating impeller, 1-28 parts of stirring wheel and 1-29 parts of feeding cavity, wherein the motor 1-1 part is connected with the rotating shaft 1-25 part through a coupling 1-2 part, 1-3 parts of box body are provided with water inlet 1-4 parts, 1-5 parts of supporting seat are connected with 1-3 parts of box body, 1-6 parts of movable seat are connected with 1-3 parts of box body in sliding way, 1-5 parts of supporting seat are connected with 1-7 parts of leading screw, 1-7 parts of two leading screws are respectively connected with 1-8 parts of belt pulley and 1-20 parts of motor belt, the mixing box 1-10 is connected with the box body 1-3 through a connecting pipe 1-22, the mixing box 1-10 is connected with a bearing seat 1-11, the bearing seat 1-11 is connected with a servo motor 1-14, the servo motor 1-14 is connected with a long gear with a shaft 1-12 through a coupling I1-13, the long gear with a shaft 1-12 is rotationally connected with the bearing seat 1-11, the long gear with a shaft 1-12 is rotationally connected with the mixing box 1-10, the long gear with a shaft 1-12 is engaged with a moving gear 1-15, the moving gear 1-15 is connected with a feeding cylinder with screw thread 1-16, the feeding cylinder with screw thread 1-16 is connected with the mixing box 1-10 through screw thread, an output pipe 1-17 is arranged on the mixing box 1-10, a water inlet one-way valve 1-18 is arranged in the output pipe 1-17, the servo motor I1-19 is connected with the motor belt pulley 1-20, the servo motor I1-19 is connected with the supporting seat 1-5, the water outlet pipe 1-21 is arranged on the box body 1-3, the connecting rod 1-23 is connected with the movable seat 1-6, the connecting rod 1-23 is connected with the scraper 1-24, the scraper 1-24 is contacted with the filtering circular plate 1-26, the filtering circular plate 1-26 and the accelerating impeller 1-27 are both arranged on the rotating shaft 1-25, the stirring wheel 1-28 and the feeding cavity 1-29 are both arranged on the feeding cylinder 1-16 with screw thread, the water inlet 1-4 is externally connected with the water inlet pipe needing to be disinfected, thus the water can flow into the box body 1-3 from the water inlet 1-4, the running motor 1-1 drives the coupler 1-2 to rotate, the coupler 1-2 can drive the rotating shaft 1-25 to rotate, the rotating shaft 1-25 can drive the filtering circular plate 1-26 and the accelerating impeller 1-27 to synchronously rotate, the filtering circular plate 1-26 can filter water, the accelerating impeller 1-27 can accelerate the water to form forward rotational flow, the water speed reduced when the filtering circular plate 1-26 is filtered is increased again, the filtering circular plate 1-26 can scrape the filtered dirt onto the scraper plate 1-24 during rotation, the servo motor I1-19 can be operated after more garbage is accumulated on the scraper plate 1-24, the servo motor I1-19 can drive the motor belt pulley 1-20 to rotate, the motor belt pulley 1-20 can drive the belt pulley 1-8 to synchronously rotate through the belt 1-9, so as to drive the two lead screws 1-7 to synchronously rotate and drive the movable seat 1-6 to move upwards, therefore, the scraping plates 1-24 are lifted up, the cleaning is convenient, the servo motors I1-19 are reversely operated to drive the scraping plates 1-24 to reset after the cleaning is finished, the servo motors 1-14 operate to drive the couplers I1-13 to rotate, the couplers I1-13 drive the long gears 1-12 with shafts to rotate, the long gears 1-12 with shafts drive the movable gears 1-15 to rotate when rotating, the movable gears 1-15 drive the feeding cylinders 1-16 with threads to rotate, the feeding cylinders 1-16 with threads drive the feeding cylinders 1-10 with threads to move downwards when rotating, the disinfectant stored in the feeding cavities 1-29 can descend along with the feeding cavities in the rotating process, and the disinfectant can be mixed into water when penetrating into the box bodies 1-3, the water flow accelerated by the accelerating impellers 1-27 is mixed into the water rapidly for disinfection.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the present embodiment further describes the present embodiment, where the drug mixing mechanism 2 includes a base 2-1, a seat with a leg 2-2, a connecting elbow 2-3, a premix tank 2-4, a communicating pipe 2-5, a raw material tank 2-6, a screw plug 2-7, a leg I2-8, a seat I2-9, a pushing seat 2-10, a square column 2-11, a spring 2-12, a stirring wheel I2-13, a gear with a shaft a2-14, a sliding support 2-15, a piston 2-16, a rack 2-17, a mating groove 2-18, a raw material liquid inlet check valve 2-19, a base 2-1, a motor 1-1, a connecting rod 2-4, a connecting rod, The box bodies 1-3 are all connected, the base 2-1 is connected with the base with the supporting legs 2-2, the base with the supporting legs 2-2 is connected with the premixing box 2-4, the connecting elbow 2-3 is used for communicating the premixing box 2-4 with the output pipe 1-17, the premixing box 2-4 is communicated with the raw material box 2-6 through the communicating pipe 2-5, the raw material box 2-6 is in threaded connection with the threaded plug 2-7, the supporting leg I2-8 is connected with the raw material box 2-6, the supporting leg I2-8 is connected with the premixing box 2-4, the premixing box 2-4 is connected with the bearing seat I2-9, the pushing seat 2-10 is connected with the square column 2-11, the square column 2-11 is in sliding connection with the premixing box 2-4, the spring 2-12 is sleeved on the square column 2-11, and two ends of the spring are connected with, On a premixing box 2-4, a stirring wheel I2-13 is connected with a gear A2-14 with a shaft, a gear A2-14 with a shaft is rotatably connected with a sliding support 2-15, the sliding support 2-15 is arranged on a piston 2-16, the piston 2-16 is slidably connected with the premixing box 2-4, the piston 2-16 is connected with a square column 2-11, racks 2-17 are symmetrically arranged on the inner walls of two sides of the premixing box 2-4, the racks 2-17 are meshed with the gear A2-14 with a shaft, the racks 2-17 are slidably connected with matching grooves 2-18, the matching grooves 2-18 are arranged on the piston 2-16, and a stock solution inlet check valve 2-19 is arranged in a communicating pipe 2-5.

The fourth concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, the present embodiment further illustrates the present embodiment, wherein the water outlet mechanism 3 includes a water outlet tank I3-1, an inlet pipe A3-2, a flywheel 3-3, a pulley with shaft 3-4, a belt A3-5, a bearing seat II3-6, a belt B3-7, a pulley A3-8, a cam with shaft 3-9, a pulley B3-10, a long shaft 3-11, a pulley C3-12, a total outlet 3-13, a grooved impeller 3-14, a base 2-1 is connected with the water outlet tank I3-1 and a bearing seat II3-6, an inlet pipe A3-2 is arranged on one side of the water outlet tank I3-1, and a total outlet 3-13 is arranged on a symmetrical side, a flywheel 3-3 is connected with a belt shaft pulley 3-4, the belt shaft pulley 3-4 is rotationally connected with a water outlet tank I3-1, the belt shaft pulley 3-4 is frictionally connected with a belt A3-5, the belt A3-5 is frictionally connected with a belt pulley C3-12, the belt pulley C3-12 is connected with a long shaft 3-11, the long shaft 3-11 is connected with a belt pulley B3-10, the belt pulley B3-10 is frictionally connected with a belt B3-7, the belt B3-7 is frictionally connected with a belt pulley A3-8, the belt pulley A3-8 is connected with a belt shaft cam 3-9, the belt shaft cam 3-9 is rotationally connected with a bearing seat I2-9, the belt shaft cam 3-9 is contacted with a pushing seat 2-10, a grooved impeller 3-14 is connected with the belt shaft pulley 3-4, the mixed water can enter the water outlet tank I3-1, and due to the structure of the grooved impeller 3-14, the water can rotate and accelerate and simultaneously the passing of water flow is not influenced, so that the uniform mixing of the disinfectant in the water can be accelerated when the water passes through the grooves of the grooved impeller 3-14; the device can utilize water flow power to realize the addition of disinfectant raw materials, the grooved impeller 3-14 can drive the flywheel 3-3 to rotate when rotating, the flywheel 3-3 can store kinetic energy, the belt pulley 3-4 with a shaft can rotate, the belt pulley 3-4 with a shaft can drive the belt cam 3-9 to rotate through the belt A3-5, the belt pulley C3-12, the long shaft 3-11, the belt pulley B3-10, the belt B3-7 and the transmission belt of the belt pulley A3-8, the belt cam 3-9 with a shaft can drive the pushing seat 2-10 to reciprocate through the cooperation with the spring 2-12, the pushing seat 2-10 can drive the piston 2-16 to reciprocate, the piston 2-16 can cause the pressure change in the premixing box 2-4 during reciprocating motion, the disinfectant in the premixing box 2-4 can be pressurized and flushed into the water check valve 1 when the pressure is increased 18 enter the mixing box 1-10, when the pressure is reduced, stock solution in the raw material box 2-6 enters the premixing box 2-4 through the stock solution inlet check valve 2-19, simultaneously, the piston 2-16 drives the shaft-provided gear A2-14 to reciprocate in the reciprocating motion, the shaft-provided gear A2-14 drives the shaft-provided gear A2-14 to rotate in the relative motion with the rack 2-17, and thus, the shaft-provided gear A2-14 drives the stirring wheel I2-13 to rotate in a reciprocating mode, and the pre-stirring effect is achieved.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the present embodiment further describes the first embodiment in which the number of the agitating wheels I2-13 is two.

The working principle of the device is as follows: the equipment can accelerate water flow while filtering, a water inlet 1-4 is externally connected with an inlet pipe of water to be disinfected, so that the water can flow into the box body 1-3 from the water inlet 1-4, the running motor 1-1 drives the coupler 1-2 to rotate, the coupler 1-2 drives the rotating shaft 1-25 to rotate, the rotating shaft 1-25 drives the filtering circular plate 1-26 and the accelerating impeller 1-27 to synchronously rotate, the filtering circular plate 1-26 can filter the water, the accelerating impeller 1-27 can accelerate the water into forward rotational flow, the water speed reduced when the filtering circular plate 1-26 is filtered is increased again, the filtering circular plate 1-26 can scrape filtered dirt onto the scraping plate 1-24 during rotation, the servo motor I1-19 can be operated after more garbage is accumulated on the scraping plate 1-24, the servo motors I1-19 can drive the motor belt pulleys 1-20 to rotate, the motor belt pulleys 1-20 can drive the belt pulleys 1-8 to synchronously rotate through the belts 1-9, so that the two screw rods 1-7 are driven to synchronously rotate to drive the movable seats 1-6 to move upwards, so that the scrapers 1-24 are lifted up, the scrapers are convenient to clean, and the servo motors I1-19 are reversely operated to drive the scrapers 1-24 to reset after the cleaning is finished; the device can be added with disinfectant, the coupler I1-13 is driven to rotate by the operation of the servo motor 1-14, the coupler I1-13 drives the long gear with shaft 1-12 to rotate, the long gear with shaft 1-12 drives the moving gear 1-15 to rotate when rotating, the moving gear 1-15 drives the feeding cylinder with screw thread 1-16 to rotate, the feeding cylinder with screw thread 1-16 drives the feeding cylinder with screw thread to move downwards by the screw thread connection relation with the mixing box 1-10 during rotation, the disinfectant stored in the feeding cavity 1-29 descends along with the feeding cylinder with the screw thread in the rotating process, and when the disinfectant goes deep into the box body 1-3, the disinfectant can be mixed into water, and the disinfectant can be quickly mixed into the water to be disinfected just along with the water flow accelerated by the accelerating impeller 1-27; the equipment can improve the contact efficiency of the disinfectant and water, the mixed water can enter the water outlet tank I3-1, and due to the structure of the grooved impeller 3-14, the water can rotate and accelerate the water without influencing the passing of water flow, so that the uniform mixing of the disinfectant in the water can be accelerated when the water passes through the groove of the grooved impeller 3-14; the device can utilize water flow power to realize the addition of disinfectant raw materials, the grooved impeller 3-14 can drive the flywheel 3-3 to rotate when rotating, the flywheel 3-3 can store kinetic energy, the belt pulley 3-4 with a shaft can rotate, the belt pulley 3-4 with a shaft can drive the belt cam 3-9 to rotate through the belt A3-5, the belt pulley C3-12, the long shaft 3-11, the belt pulley B3-10, the belt B3-7 and the transmission belt of the belt pulley A3-8, the belt cam 3-9 with a shaft can drive the pushing seat 2-10 to reciprocate through the cooperation with the spring 2-12, the pushing seat 2-10 can drive the piston 2-16 to reciprocate, the piston 2-16 can cause the pressure change in the premixing box 2-4 during reciprocating motion, the disinfectant in the premixing box 2-4 can be pressurized and flushed into the water check valve 1 when the pressure is increased 18 enter the mixing box 1-10, when the pressure is reduced, stock solution in the raw material box 2-6 enters the premixing box 2-4 through the stock solution inlet check valve 2-19, simultaneously, the piston 2-16 drives the shaft-provided gear A2-14 to reciprocate in the reciprocating motion, the shaft-provided gear A2-14 drives the shaft-provided gear A2-14 to rotate in the relative motion with the rack 2-17, and thus, the shaft-provided gear A2-14 drives the stirring wheel I2-13 to rotate in a reciprocating mode, and the pre-stirring effect is achieved.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a supplementary disinfecting equipment of running water, includes drainage mechanism (1), medicament mixing mechanism (2), goes out water mechanism (3), its characterized in that: drainage mechanism (1) link to each other with medicament mixing mechanism (2), medicament mixing mechanism (2) link to each other with water outlet mechanism (3), drainage mechanism (1) links to each other with water outlet mechanism (3).

2. The auxiliary tap water disinfection apparatus of claim 1, wherein: the drainage mechanism (1) comprises a motor (1-1), a coupler (1-2), a box body (1-3), a water inlet (1-4), a supporting seat (1-5), a movable seat (1-6), a lead screw (1-7), a belt pulley (1-8), a belt (1-9), a mixing box (1-10), a bearing seat (1-11), a long gear with a shaft (1-12), a coupler I (1-13), a servo motor (1-14), a movable gear (1-15), a threaded feeding cylinder (1-16), an output pipe (1-17), a water inlet one-way valve (1-18), a servo motor I (1-19), a motor belt pulley (1-20), a water outlet pipe (1-21), a connecting pipe (1-22), The device comprises connecting rods (1-23), scrapers (1-24), rotating shafts (1-25), filtering circular plates (1-26), accelerating impellers (1-27), stirring wheels (1-28) and feeding cavities (1-29), wherein motors (1-1) are connected with the rotating shafts (1-25) through couplers (1-2), water inlets (1-4) are formed in box bodies (1-3), supporting seats (1-5) are connected with the box bodies (1-3), movable seats (1-6) are connected with the box bodies (1-3) in a sliding mode, the supporting seats (1-5) are connected with lead screws (1-7) in a rotating mode, the two lead screws (1-7) are respectively connected with belt pulleys (1-8) and motor belt pulleys (1-20), and belt pulleys (1-8), The motor belt pulleys (1-20) are in friction connection with the belts (1-9), the mixing boxes (1-10) are connected with the box bodies (1-3) through connecting pipes (1-22), the mixing boxes (1-10) are connected with bearing seats (1-11), the bearing seats (1-11) are connected with servo motors (1-14), the servo motors (1-14) are connected with long gears with shafts (1-12) through couplers I (1-13), the long gears with shafts (1-12) are in rotary connection with the bearing seats (1-11), the long gears with shafts (1-12) are in rotary connection with the mixing boxes (1-10), the long gears with shafts (1-12) are meshed with moving gears (1-15), the moving gears (1-15) are connected with threaded feeding cylinders (1-16), a feeding cylinder (1-16) with screw thread is connected with a mixing box (1-10) by screw thread, an output pipe (1-17) is arranged on the mixing box (1-10), a water inlet one-way valve (1-18) is arranged in the output pipe (1-17), a servo motor I (1-19) is connected with a motor belt pulley (1-20), the servo motor I (1-19) is connected with a supporting seat (1-5), a water outlet pipe (1-21) is arranged on a box body (1-3), a connecting rod (1-23) is connected with a movable seat (1-6), the connecting rod (1-23) is connected with a scraper (1-24), the scraper (1-24) is contacted with a filtering circular plate (1-26), the filtering circular plate (1-26) and an accelerating impeller (1-27) are both arranged on a rotating shaft (1-25), the stirring wheels (1-28) and the feeding cavities (1-29) are arranged on the feeding cylinders (1-16) with the threads.

3. The auxiliary tap water disinfection apparatus of claim 1, wherein: the medicament mixing mechanism (2) comprises a base (2-1), a seat with supporting legs (2-2), a connecting bent pipe (2-3), a premixing box (2-4), a communicating pipe (2-5), a raw material box (2-6), a threaded plug (2-7), supporting legs I (2-8), a bearing seat I (2-9), a pushing seat (2-10), a square column (2-11), a spring (2-12), a stirring wheel I (2-13), a gear A with a shaft (2-14), a sliding support (2-15), a piston (2-16), a rack (2-17), a matching groove (2-18) and a stock solution inlet one-way valve (2-19), wherein the base (2-1) is connected with a motor (1-1) and a box body (1-3), the base (2-1) is connected with the base with the supporting legs (2-2), the base with the supporting legs (2-2) is connected with the premixing box (2-4), the connecting bent pipe (2-3) is used for communicating the premixing box (2-4) with the output pipe (1-17), the premixing box (2-4) is communicated with the raw material box (2-6) through the communicating pipe (2-5), the raw material box (2-6) is in threaded connection with the threaded plug (2-7), the supporting legs I (2-8) are connected with the raw material box (2-6), the supporting legs I (2-8) are connected with the premixing box (2-4), the premixing box (2-4) is connected with the bearing seat I (2-9), the pushing seat (2-10) is connected with the square column (2-11), the square column (2-11) is in sliding connection with the premixing box (2-4), springs (2-12) are sleeved on square columns (2-11), two ends of each spring are connected to a pushing seat (2-10) and a premixing box (2-4), a stirring wheel I (2-13) is connected with a gear A (2-14) with a shaft, the gear A (2-14) with the shaft is rotatably connected with a sliding support (2-15), the sliding support (2-15) is arranged on a piston (2-16), the piston (2-16) is slidably connected with the premixing box (2-4), the piston (2-16) is connected with the square columns (2-11), racks (2-17) are symmetrically arranged on the inner walls of two sides of the premixing box (2-4), the racks (2-17) are meshed with the gear A (2-14) with the shaft, the racks (2-17) are slidably connected with matching grooves (2-18), the matching groove (2-18) is arranged on the piston (2-16), and the stock solution inlet one-way valve (2-19) is arranged in the communicating pipe (2-5).

4. The auxiliary tap water disinfection apparatus of claim 1, wherein: the water outlet mechanism (3) comprises a water outlet box I (3-1), an inlet pipe A (3-2), a flywheel (3-3), a belt pulley with a shaft (3-4), a belt A (3-5), a bearing seat II (3-6), a belt B (3-7), a belt pulley A (3-8), a cam with a shaft (3-9), a belt pulley B (3-10), a long shaft (3-11), a belt pulley C (3-12), a total outlet (3-13) and an impeller with a groove (3-14), wherein a base (2-1) is connected with the water outlet box I (3-1) and the bearing seat II (3-6), the inlet pipe A (3-2) is arranged on one side of the water outlet box I (3-1) and the total outlet (3-13) is arranged on the symmetrical side, the flywheel (3-3) is connected with the belt pulley with the shaft (3-4), a belt pulley (3-4) with a shaft is rotationally connected with a water outlet box I (3-1), the belt pulley (3-4) with the shaft is in frictional connection with a belt A (3-5), the belt A (3-5) is in frictional connection with a belt pulley C (3-12), the belt pulley C (3-12) is connected with a long shaft (3-11), the long shaft (3-11) is connected with a belt pulley B (3-10), the belt pulley B (3-10) is in frictional connection with a belt B (3-7), the belt pulley B (3-7) is in frictional connection with a belt pulley A (3-8), the belt pulley A (3-8) is connected with a cam with the shaft (3-9), the cam with the shaft (3-9) is rotationally connected with a bearing seat I (2-9), the cam with the shaft (3-9) is in contact with a pushing seat (2-10), the grooved impeller (3-14) is connected with the belt pulley (3-4).

5. The auxiliary tap water disinfecting device of claim 3, wherein: the number of the stirring wheels I (2-13) is two.