CN219098873U - Drinking water medicine adding and sterilizing feeder - Google Patents

Abstract

The utility model relates to the technical field of drinking water dosing treatment, in particular to a drinking water dosing disinfection dosing device, which comprises a reservoir, wherein a ground seat is fixedly arranged on the outer side of the reservoir, a lifting mechanism is fixedly arranged at the top of the ground seat, a lifting platform is arranged at the top of the lifting mechanism, a cantilever telescopic mechanism is arranged at the top of the lifting platform, a medicine storage unit is arranged at the front end of the cantilever telescopic mechanism, a medicine feeding driving mechanism is connected below the medicine storage unit, and the medicine feeding driving mechanism is connected with a medicine dispersing mechanism below the medicine feeding driving mechanism. The chemical dosing device is mainly used for realizing the regular quantitative adding and purifying and sterilizing of the open type reservoir, and can control the height of a chemical dispersing mechanism and the horizontally extending position in the reservoir when in chemical dosing treatment according to the need in the process of chemical dosing treatment, thereby effectively realizing the chemical dosing in the reservoir areas at different positions.

Description

Drinking water medicine adding and sterilizing feeder

Technical Field

The utility model relates to the technical field of drinking water dosing treatment, in particular to an improved dosing device structure capable of realizing rapid dosing of drinking water in an open pond place, and especially relates to a drinking water dosing disinfection dosing device.

Background

Tap water generally contains a small amount of impurities, sediment, rust and the like, and meanwhile, bacteria, viruses and the like which are harmful to the body cannot be seen.

In the water treatment industry, disinfection of drinking water is an essential link for reducing harmful substances such as bacteria in water and preventing infectious diseases such as intestinal tracts.

At present, the drinking water disinfection modes mainly comprise sodium hypochlorite disinfection, chlorine dioxide disinfection, ozone disinfection, ultraviolet disinfection and the like, wherein the disinfection modes of adding sodium hypochlorite and chlorine dioxide in a dosing mode are most widely used.

The safety of the sodium hypochlorite solution is much higher than that of liquid chlorine at normal temperature, so that the sodium hypochlorite solution is more convenient to transport and store. The disinfection mechanism of chlorine dioxide mainly penetrates the outer layer of the microorganism cells to enter the interior of the cells, and damages enzyme and DNA so as to kill the microorganism, and the disinfection mechanism also has good disinfection effect.

At present, when sodium hypochlorite and chlorine dioxide are utilized to disinfect drinking water, a dosing device is generally utilized to quantitatively put a proportioning solution containing the chemical medicaments into the drinking water, so that the purposes of fully mixing the medicinal liquid with the drinking water and realizing disinfection and sterilization are achieved.

There are also some administration instruments in the prior art that perform the administration process. For example, in the patent document CN201920137734.2, a full-automatic drinking water dosing device is disclosed, the main structure of which comprises a mixing system for mixing the medicine and the drinking water; a dosing system for adding a drug to the mixing system; a water supply line for providing potable water into the mixing system; the control system is used for detecting the flow rate of the drinking water supplied to the mixing system by the water supply pipeline and adjusting the mass of the medicines added to the mixing system according to the flow rate of the drinking water; the control system is connected with the mixing system, the dosing system and the water supply pipeline.

It can be seen from the disclosure of the above patent that the above full-automatic drinking water and medicine adding device mainly uses the auger to convey the medicine in the medicine hopper, and this mode of conveying medicine materials by the auger driven by the motor can achieve better effect when conveying granule materials and powder materials, but the problem of material leakage exists when directly conveying solution medicines, and in addition, the medicine conveyed by the above device directly drops into the mixing container, and can enter the subsequent pipeline after being mixed in the mixing container, so the whole conveying and medicine adding process is complicated, and is not suitable for places such as open ponds and is only suitable for use in the conveying pipeline.

Therefore, the utility model aims at improving the problems of inconvenient dosing and poor dosing effect in the prior art, and provides an improved dosing device structure capable of realizing rapid dosing of drinking water in an open pond place so as to better solve the problems in the prior art.

Disclosure of Invention

The utility model aims to solve one of the technical problems, and adopts the following technical scheme: the utility model provides a drinking water dosing disinfection feeder, includes a cistern the outside fixed mounting of cistern has a ground seat the top fixed mounting of ground seat has a elevating system installs an elevating platform elevating system's top install a cantilever telescopic machanism's front end is installed the medicine storage unit, the below of medicine storage unit is connected with the drive mechanism that adds medicine, the drive mechanism that adds medicine is connected with the medicine mechanism that looses of below, the top entrance connection of medicine mechanism that looses the bottom exit end of medicine storage unit.

In any of the above schemes, preferably, the lifting mechanism is composed of two vertical electric cylinders arranged at intervals, the two vertical electric cylinders are in synchronous lifting motion during motion, the top parts of piston rods of the two vertical electric cylinders are fixedly arranged at the bottom of the lifting platform, and the bottom parts of cylinder barrels of the two vertical electric cylinders are fixed at the top parts of the ground connecting seats.

In any of the above schemes, preferably, the cantilever telescopic mechanism includes two horizontal cantilever electric cylinders fixed at the top of the lifting platform at intervals, the end parts of the piston rods of the two horizontal cantilever electric cylinders are fixedly provided with the medicine storage unit, and the two horizontal cantilever electric cylinders drive the horizontal displacement of the medicine storage unit through synchronous telescopic movement.

In any of the above-described aspects, preferably, a main tank is fixedly placed on the ground outside the lifting mechanism, the main tank is connected with the medicine storage unit through a hose line, and a precision supply pump is installed on the hose line.

In any of the above schemes, preferably, the medicine storage unit includes a mounting seat fixedly mounted at the end parts of the piston rods of the two horizontal cantilever electric cylinders, a temporary medicine storage bin is fixedly mounted at the top of the mounting seat, the top of the temporary medicine storage bin is connected with the outlet end of the hose pipeline, and a bottom outlet vertical pipe of the temporary medicine storage bin is movably and hermetically connected with the top inlet end of the medicine dispersing mechanism.

In any of the above schemes, preferably, the medicine dispersing mechanism comprises a movable medicine dispersing inlet pipe which is hermetically sleeved at a bottom outlet vertical pipe of the temporary medicine storage bin, the medicine dispersing inlet pipe is connected with the medicine adding driving mechanism and rotates along with the movement of the medicine adding driving mechanism, a liquid collecting round flat bin communicated with the medicine dispersing inlet pipe is fixedly connected below the medicine dispersing inlet pipe, radial medicine throwing stirring pipes communicated with the inside of the liquid collecting round flat bin are fixedly connected on the outer side wall of the liquid collecting round flat bin respectively, and a sealed disassembling bottom end cover is hermetically screwed at the bottom of the liquid collecting round flat bin.

In any of the above schemes, preferably, the dosing driving mechanism includes a U-shaped seat fixedly mounted at the bottom of the lifting platform, a waterproof driving stirring motor is mounted in the U-shaped seat, the top of the waterproof driving stirring motor is fixedly mounted at the bottom of the lifting platform, a driving gear is fixed on a motor shaft of the waterproof driving stirring motor, the driving gear is connected with a driven gear coaxially fixed on the outer side wall of the bulk drug inlet pipe, a plurality of supporting balls are mounted in each mounting groove at the bottom of the driven gear in a matched and clamped manner, and the bottoms of the supporting balls are movably abutted against the bottoms of the U-shaped cavities of the U-shaped seat.

In any of the above schemes, preferably, a medicine filtering sponge is placed in the inner cavity of the liquid collecting round flat bin.

In any of the above solutions, it is preferable that a balancing weight is fixedly installed at an end of the cylinder barrel of each of the horizontal cantilever cylinders.

Compared with the prior art, the utility model has the following beneficial effects:

1. the chemical dosing device is mainly used for realizing the regular quantitative adding and purifying and sterilizing of the open type reservoir, and can control the height of a chemical dispersing mechanism and the horizontally extending position in the reservoir when in chemical dosing treatment according to the need in the process of chemical dosing treatment, thereby effectively realizing the chemical dosing in the reservoir areas at different positions.

2. The medicine adding device adopts a mode of rotating to throw medicine to throw the medicine liquid out by utilizing centrifugal force when adding medicine, ensures that the medicine liquid rapidly enters into water to be dispersed when throwing medicine rapidly, and can drive the whole medicine dispersing mechanism to rapidly rotate by utilizing the driving of the medicine adding driving mechanism so as to play a role of stirring water liquid and medicine liquid to be fully mixed as a stirrer.

3. The main tank is placed outside the reservoir, so that sufficient liquid medicine can be effectively provided for the whole medicine administration device, the liquid medicine is supplied to the medicine storage unit through the hose pipeline and the operation of the precise supply pump on the hose pipeline, finally, the medicine flows to the medicine dispersing mechanism from the medicine storage unit, and finally, the medicine is thrown out by utilizing centrifugal force under the rotating state of the medicine dispersing mechanism to realize medicine adding.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or features are generally identified by like reference numerals throughout the drawings. In the drawings, the elements or components are not necessarily drawn to scale.

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a partially enlarged schematic structural view of the present utility model.

In the figure, 1, a reservoir; 2. a ground connecting seat; 3. a lifting platform; 4. a vertical electric cylinder; 5. a horizontal cantilever electric cylinder; 6. a main tank; 7. a hose line; 8. a precision feed pump; 9. a mounting base; 10. a temporary medicine storage bin; 11. a bottom outlet riser; 12. a bulk drug inlet tube; 13. a liquid collecting round flat bin; 14. a radial drug-throwing stirring pipe; 15. sealing and disassembling the bottom end cover; 16. a U-shaped seat; 17. waterproof driving stirring motor; 18. a drive gear; 19. a driven gear; 20. supporting the balls; 21. a U-shaped cavity; 22. a medicine filtering sponge body; 23. balancing weights.

Detailed Description

Embodiments of the technical scheme of the present utility model will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and thus are merely examples, and are not intended to limit the scope of the present utility model. The specific structure of the utility model is shown in figures 1-2.

Example 1:

the utility model provides a drinking water dosing disinfection feeder, includes a cistern 1 outside fixed mounting of cistern 1 has a ground seat 2 the top fixed mounting of ground seat 2 has a elevating system's top is installed a lift platform 3 elevating system installs a cantilever telescopic machanism at 3 top the front end of cantilever telescopic machanism is installed the medicine storage unit, the below of medicine storage unit is connected with the drive mechanism that adds, it is connected with the medicine mechanism that looses of its below to add the drive mechanism, the top entrance connection of medicine mechanism that looses medicine the bottom exit end of medicine storage unit. The drinking water dosing and sterilizing dosing device designed by the utility model can carry out multidirectional dosing and dosing aiming at an open reservoir 1 with a larger volume, and can drive the lifting platform 3 and parts such as a cantilever telescopic mechanism, a drug storage unit, a dosing driving mechanism, a drug dispersing mechanism and the like arranged at the top of the lifting platform to lift along with the lifting platform by utilizing the lifting mechanism during dosing operation, so that the proper lifting height regulation and control can be effectively controlled according to the liquid level depth of a water tank during dosing and dosing, and meanwhile, the dosing can be controlled above different positions of the reservoir 1 by controlling the deep length of the cantilever telescopic mechanism in the reservoir 1 during the height regulation and control, thereby achieving the aim of dosing in a fixed area.

In any of the above schemes, preferably, the cantilever telescopic mechanism includes two horizontal cantilever electric cylinders 5 fixed at the top of the lifting platform 3 and installed at intervals, the end parts of piston rods of the two horizontal cantilever electric cylinders 5 are fixedly installed with the medicine storage unit, and the two horizontal cantilever electric cylinders 5 drive the horizontal displacement of the medicine storage unit through synchronous telescopic movement. After the whole cantilever telescopic mechanism is lifted and locked to be positioned along the lifting platform 3, the synchronous telescopic operation of the two horizontal cantilever electric cylinders 5 can be utilized to realize the position adjustment along the length direction of the reservoir 1, and the medicine storage unit at the working end part of the cantilever telescopic mechanism can be driven to reach the appointed medicine feeding position above the reservoir 1 in the position adjustment process, so that the aim of feeding medicine at different positions of the reservoir 1 is fulfilled.

In any of the above embodiments, it is preferable that a main tank 6 is fixedly disposed on the ground outside the lifting mechanism, the main tank 6 is connected to the medicine storage unit through a hose line 7, and a precision supply pump 8 is mounted on the hose line 7. When the medicine is needed to be added into the reservoir 1, the precise supply pump 8 is started to continuously send the disinfectant with the pre-prepared concentration into the medicine storage unit, so that the aim of rapidly dispersing the medicine into the reservoir 1 by matching with the medicine dispersing mechanism is fulfilled.

In any of the above schemes, preferably, the medicine storage unit includes a mounting seat 9 fixedly installed at the end portions of the piston rods of the two horizontal cantilever electric cylinders 5, a temporary medicine storage bin 10 is fixedly installed at the top of the mounting seat 9, the top of the temporary medicine storage bin 10 is connected with the outlet end of the hose pipe 7, and a bottom outlet vertical pipe 11 of the temporary medicine storage bin 10 is movably and hermetically connected with the top inlet end of the medicine dispersing mechanism. The medicine storage unit mainly relies on the temporary medicine storage bin 10 to receive the disinfection medicine liquid from the main tank 6, and the temporary medicine storage bin 10 plays the purpose of temporarily storing proper amount of medicine liquid required by medicine dispensing and dosing, and the medicine liquid continuously flows into the medicine dispensing mechanism under the action of gravity and can be dispensed into the water pool of the water reservoir 1.

In any of the above schemes, preferably, the medicine dispersing mechanism includes a movable medicine dispersing inlet pipe 12 which is sealed and sleeved at a bottom outlet vertical pipe 11 of the temporary medicine storage bin 10, the medicine dispersing inlet pipe 12 is connected with the medicine adding driving mechanism and rotates along with the movement of the medicine adding driving mechanism, a liquid collecting round flat bin 13 communicated with the medicine dispersing inlet pipe 12 is fixedly connected below the medicine dispersing inlet pipe 12, the outer side walls of the liquid collecting round flat bin 13 are respectively and fixedly connected with a radial medicine throwing stirring pipe 14 communicated with the inside of the liquid collecting round flat bin 13, and a sealed disassembling bottom end cover 15 is sealed and screwed at the bottom of the liquid collecting round flat bin 13. The main functions of the medicine dispersing mechanism are three, one is that: receiving the disinfection liquid medicine flowing in from the temporary medicine storage bin 10 above and continuously exuding the disinfection liquid medicine into the water in the water storage tank 1; and the second is: the operation of the dosing driving mechanism can drive the bulk drug inlet pipe 12 to realize fixed axis rotation and can ensure that the sterilized liquid medicine from the upstream temporary drug storage bin 10 is received and flows downwards, the bulk drug inlet pipe 12 can drive the liquid collection round flat bin 13 fixedly connected with the bottom of the bulk drug inlet pipe to rotate along with the rotation, and simultaneously can drive each radial drug throwing stirring pipe 14 around the liquid collection round flat bin 13 to rotate rapidly, and the liquid medicine gathered in the liquid collection round flat bin 13 can be thrown outwards rapidly by each radial drug throwing stirring pipe 14 under the action of centrifugal force, so that the purpose that the liquid medicine and the drinking water to be sterilized in the reservoir 1 are fully fused can be achieved; thirdly, it is: each radial medicine throwing stirring pipe 14 arranged in the stirring device can play a role equivalent to a stirrer when rotating, and continuously stir peripheral water flow, so that peripheral drinking water can be better mixed with medicine liquid, and the medicine liquid mixing effect and efficiency are improved. The purpose of the seal-disassembling bottom end cover 15 screwed on the bottom seal of the liquid-collecting round flat bin 13 is mainly to facilitate opening during later maintenance or replacement of internal devices.

In any of the above schemes, preferably, the dosing driving mechanism includes a U-shaped seat 16 fixedly mounted at the bottom of the lifting platform 3, a waterproof driving stirring motor 17 is mounted in the U-shaped seat 16, the top of the waterproof driving stirring motor 17 is fixedly mounted at the bottom of the lifting platform 3, a driving gear 18 is fixed on a motor shaft of the waterproof driving stirring motor 17, the driving gear 18 is connected with a driven gear 19 coaxially fixed on the outer side wall of the medicine dispensing inlet tube 12, a plurality of supporting balls 20 are mounted in each mounting groove at the bottom of the driven gear 19 in a matching and clamping manner, and the bottom of each supporting ball 20 is movably abutted against the bottom of the U-shaped cavity 21 of the U-shaped seat 16. The medicine feeding driving mechanism is powered on and started by the waterproof driving stirring motor 17, the driving gear 18 is driven to rotate after the waterproof driving stirring motor is started, the driven gear 19 meshed with the driving gear 18 is driven to rotate when the driving gear 18 rotates, the medicine dispersing inlet pipe 12 fixedly connected with the driven gear 19 is finally driven to realize fixed shaft rotation, the liquid collecting round flat bin 13 fixedly connected with the bottom of the medicine dispersing inlet pipe 12 in the fixed shaft rotation process and each radial medicine throwing stirring pipe 14 follow rotation to realize centrifugal medicine dispersing, medicine feeding and stirring, and therefore the effect of mixing medicine liquid and drinking water after medicine feeding is improved. Because the top of the bulk drug inlet pipe 12 is movable and is in sealed sleeve connection with the outer side wall of the bottom outlet vertical pipe 11 of the temporary drug storage bin 10, the bulk drug inlet pipe 12 can not drive the bottom outlet vertical pipe 11 of the temporary drug storage bin 10 to move when rotating along with the bulk drug inlet pipe, and meanwhile, the bottom outlet vertical pipe 11 of the temporary drug storage bin 10 is not influenced to convey liquid medicine to the interior of the bulk drug storage bin. During the fixed-axis rotation of the bulk drug inlet tube 12, each supporting ball 20 can play a role of rolling support, so that the fixed-axis rotation stability of the whole bulk drug inlet tube 12 is effectively ensured.

Example 2:

the utility model provides a drinking water dosing disinfection feeder, includes a cistern 1 outside fixed mounting of cistern 1 has a ground seat 2 the top fixed mounting of ground seat 2 has a elevating system's top is installed a lift platform 3 elevating system installs a cantilever telescopic machanism at 3 top the front end of cantilever telescopic machanism is installed the medicine storage unit, the below of medicine storage unit is connected with the drive mechanism that adds, it is connected with the medicine mechanism that looses of its below to add the drive mechanism, the top entrance connection of medicine mechanism that looses medicine the bottom exit end of medicine storage unit.

The drinking water dosing and sterilizing dosing device designed by the utility model can carry out multidirectional dosing and dosing aiming at an open reservoir 1 with a larger volume, and can drive the lifting platform 3 and parts such as a cantilever telescopic mechanism, a drug storage unit, a dosing driving mechanism, a drug dispersing mechanism and the like arranged at the top of the lifting platform to lift along with the lifting platform by utilizing the lifting mechanism during dosing operation, so that the proper lifting height regulation and control can be effectively controlled according to the liquid level depth of a water tank during dosing and dosing, and meanwhile, the dosing can be controlled above different positions of the reservoir 1 by controlling the deep length of the cantilever telescopic mechanism in the reservoir 1 during the height regulation and control, thereby achieving the aim of dosing in a fixed area.

In any of the above schemes, preferably, the lifting mechanism is composed of two vertical electric cylinders 4 arranged at intervals, the two vertical electric cylinders 4 are in synchronous lifting motion during motion, the tops of piston rods of the two vertical electric cylinders 4 are fixedly installed at the bottom of the lifting platform 3, and the bottoms of cylinder barrels of the two vertical electric cylinders 4 are fixed at the top of the ground connecting seat 2.

The lifting mechanism can achieve the purpose of controlling the whole lifting platform 3 to adjust the height by utilizing the synchronous lifting of the two vertical electric cylinders 4 which synchronously move when driving the whole working end to lift, wherein the selected vertical electric cylinders 4 can be multi-stage telescopic cylinders so as to ensure larger adjusting amplitude, the specific model is not limited, and the height of the reservoir 1 is selected according to specific construction conditions.

In any of the above schemes, preferably, the cantilever telescopic mechanism includes two horizontal cantilever electric cylinders 5 fixed at the top of the lifting platform 3 and installed at intervals, the end parts of piston rods of the two horizontal cantilever electric cylinders 5 are fixedly installed with the medicine storage unit, and the two horizontal cantilever electric cylinders 5 drive the horizontal displacement of the medicine storage unit through synchronous telescopic movement.

After the whole cantilever telescopic mechanism is lifted and locked to be positioned along the lifting platform 3, the synchronous telescopic operation of the two horizontal cantilever electric cylinders 5 can be utilized to realize the position adjustment along the length direction of the reservoir 1, and the medicine storage unit at the working end part of the cantilever telescopic mechanism can be driven to reach the appointed medicine feeding position above the reservoir 1 in the position adjustment process, so that the aim of feeding medicine at different positions of the reservoir 1 is fulfilled.

In any of the above embodiments, it is preferable that a main tank 6 is fixedly disposed on the ground outside the lifting mechanism, the main tank 6 is connected to the medicine storage unit through a hose line 7, and a precision supply pump 8 is mounted on the hose line 7.

When the medicine is needed to be added into the reservoir 1, the precise supply pump 8 is started to continuously send the disinfectant with the pre-prepared concentration into the medicine storage unit, so that the aim of rapidly dispersing the medicine into the reservoir 1 by matching with the medicine dispersing mechanism is fulfilled.

In any of the above schemes, preferably, the medicine storage unit includes a mounting seat 9 fixedly installed at the end portions of the piston rods of the two horizontal cantilever electric cylinders 5, a temporary medicine storage bin 10 is fixedly installed at the top of the mounting seat 9, the top of the temporary medicine storage bin 10 is connected with the outlet end of the hose pipe 7, and a bottom outlet vertical pipe 11 of the temporary medicine storage bin 10 is movably and hermetically connected with the top inlet end of the medicine dispersing mechanism.

The medicine storage unit mainly relies on the temporary medicine storage bin 10 to receive the disinfection medicine liquid from the main tank 6, and the temporary medicine storage bin 10 plays the purpose of temporarily storing proper amount of medicine liquid required by medicine dispensing and dosing, and the medicine liquid continuously flows into the medicine dispensing mechanism under the action of gravity and can be dispensed into the water pool of the water reservoir 1.

In any of the above schemes, preferably, the medicine dispersing mechanism includes a movable medicine dispersing inlet pipe 12 which is sealed and sleeved at a bottom outlet vertical pipe 11 of the temporary medicine storage bin 10, the medicine dispersing inlet pipe 12 is connected with the medicine adding driving mechanism and rotates along with the movement of the medicine adding driving mechanism, a liquid collecting round flat bin 13 communicated with the medicine dispersing inlet pipe 12 is fixedly connected below the medicine dispersing inlet pipe 12, the outer side walls of the liquid collecting round flat bin 13 are respectively and fixedly connected with a radial medicine throwing stirring pipe 14 communicated with the inside of the liquid collecting round flat bin 13, and a sealed disassembling bottom end cover 15 is sealed and screwed at the bottom of the liquid collecting round flat bin 13.

The main functions of the medicine dispersing mechanism are three, one is that: receiving the disinfection liquid medicine flowing in from the temporary medicine storage bin 10 above and continuously exuding the disinfection liquid medicine into the water in the water storage tank 1; and the second is: the operation of the dosing driving mechanism can drive the bulk drug inlet pipe 12 to realize fixed axis rotation and can ensure that the sterilized liquid medicine from the upstream temporary drug storage bin 10 is received and flows downwards, the bulk drug inlet pipe 12 can drive the liquid collection round flat bin 13 fixedly connected with the bottom of the bulk drug inlet pipe to rotate along with the rotation, and simultaneously can drive each radial drug throwing stirring pipe 14 around the liquid collection round flat bin 13 to rotate rapidly, and the liquid medicine gathered in the liquid collection round flat bin 13 can be thrown outwards rapidly by each radial drug throwing stirring pipe 14 under the action of centrifugal force, so that the purpose that the liquid medicine and the drinking water to be sterilized in the reservoir 1 are fully fused can be achieved; thirdly, it is: each radial medicine throwing stirring pipe 14 arranged in the stirring device can play a role equivalent to a stirrer when rotating, and continuously stir peripheral water flow, so that peripheral drinking water can be better mixed with medicine liquid, and the medicine liquid mixing effect and efficiency are improved.

The purpose of the seal-disassembling bottom end cover 15 screwed on the bottom seal of the liquid-collecting round flat bin 13 is mainly to facilitate opening during later maintenance or replacement of internal devices.

In any of the above schemes, preferably, the dosing driving mechanism includes a U-shaped seat 16 fixedly mounted at the bottom of the lifting platform 3, a waterproof driving stirring motor 17 is mounted in the U-shaped seat 16, the top of the waterproof driving stirring motor 17 is fixedly mounted at the bottom of the lifting platform 3, a driving gear 18 is fixed on a motor shaft of the waterproof driving stirring motor 17, the driving gear 18 is connected with a driven gear 19 coaxially fixed on the outer side wall of the medicine dispensing inlet tube 12, a plurality of supporting balls 20 are mounted in each mounting groove at the bottom of the driven gear 19 in a matching and clamping manner, and the bottom of each supporting ball 20 is movably abutted against the bottom of the U-shaped cavity 21 of the U-shaped seat 16.

The medicine feeding driving mechanism is powered on and started by the waterproof driving stirring motor 17, the driving gear 18 is driven to rotate after the waterproof driving stirring motor is started, the driven gear 19 meshed with the driving gear 18 is driven to rotate when the driving gear 18 rotates, the medicine dispersing inlet pipe 12 fixedly connected with the driven gear 19 is finally driven to realize fixed shaft rotation, the liquid collecting round flat bin 13 fixedly connected with the bottom of the medicine dispersing inlet pipe 12 in the fixed shaft rotation process and each radial medicine throwing stirring pipe 14 follow rotation to realize centrifugal medicine dispersing, medicine feeding and stirring, and therefore the effect of mixing medicine liquid and drinking water after medicine feeding is improved.

Because the top of the bulk drug inlet pipe 12 is movable and is in sealed sleeve connection with the outer side wall of the bottom outlet vertical pipe 11 of the temporary drug storage bin 10, the bulk drug inlet pipe 12 can not drive the bottom outlet vertical pipe 11 of the temporary drug storage bin 10 to move when rotating along with the bulk drug inlet pipe, and meanwhile, the bottom outlet vertical pipe 11 of the temporary drug storage bin 10 is not influenced to convey liquid medicine to the interior of the bulk drug storage bin.

During the fixed-axis rotation of the bulk drug inlet tube 12, each supporting ball 20 can play a role of rolling support, so that the fixed-axis rotation stability of the whole bulk drug inlet tube 12 is effectively ensured.

In any of the above solutions, it is preferable that a medicine filtering sponge 22 is placed in the cavity of the liquid collecting round flat bin 13.

The inner cavity of the liquid collecting round flat bin 13 is additionally provided with the medicine filtering sponge 22 which has the function of slowly penetrating the liquid medicine, so that the medicine is slowly thrown in the process of throwing the medicine outwards by centrifugal force is ensured, and the aim of controlling the throwing amount of the liquid medicine can be effectively achieved by matching with the rotating speed of the motor.

In any of the above embodiments, it is preferable that a balancing weight 23 is fixedly installed at the end of the cylinder barrel of each of the horizontal boom cylinders 5.

The purpose of adding the balancing weight 23 is mainly to keep the whole cantilever structure balanced and stable.

The specific working principle is as follows:

this drinking water dosing disinfection dosing device can carry out diversified dosing to the open cistern 1 of great volume, can utilize elevating system to drive elevating platform 3 and its top installation's cantilever telescopic machanism, medicine storage unit, dosing actuating mechanism, parts such as medicine mechanism that looses follow it and go up and down together when dosing operation to can control effectively and carry out suitable elevation height regulation and control according to the liquid level degree of depth in pond when dosing, can also control the top of putting into medicine in the different positions of cistern 1 through the length that the control cantilever telescopic machanism goes deep in to cistern 1 when highly regulating and controlling simultaneously, thereby reach the purpose of dosing in fixed region.

When the lifting mechanism works, the purpose of controlling the whole lifting platform 3 to carry out height adjustment can be achieved by utilizing the synchronous lifting of the two vertical electric cylinders 4 which synchronously move when the whole working end is driven to lift, and the vertical electric cylinders 4 selected here can be multistage telescopic cylinders so as to ensure larger adjustment amplitude. After the whole cantilever telescopic mechanism is lifted and locked to be positioned along the lifting platform 3, the synchronous telescopic operation of the two horizontal cantilever electric cylinders 5 can be utilized to realize the position adjustment along the length direction of the reservoir 1, and the medicine storage unit at the working end part of the cantilever telescopic mechanism can be driven to reach the appointed medicine feeding position above the reservoir 1 in the position adjustment process, so that the aim of feeding medicine at different positions of the reservoir 1 is fulfilled. After the medicine dispersing mechanism follows the cantilever telescopic mechanism to be in place, the lifting mechanism is controlled to descend again until the lower end of the medicine dispersing mechanism extends to a certain depth position below the liquid level of the drinking water in the reservoir 1, and at the moment, an external power supply, a medicine adding driving mechanism and a precise supply pump 8 are started to realize liquid supply and medicine dispersing and administration. The medicine feeding driving mechanism is powered on and started by the waterproof driving stirring motor 17, the driving gear 18 is driven to rotate after the waterproof driving stirring motor is started, the driven gear 19 meshed with the driving gear 18 is driven to rotate when the driving gear 18 rotates, the medicine dispersing inlet pipe 12 fixedly connected with the driven gear 19 is finally driven to realize fixed shaft rotation, the liquid collecting round flat bin 13 fixedly connected with the bottom of the medicine dispersing inlet pipe 12 in the fixed shaft rotation process and each radial medicine throwing stirring pipe 14 follow rotation to realize centrifugal medicine dispersing, medicine feeding and stirring, and therefore the effect of mixing medicine liquid and drinking water after medicine feeding is improved. Because the top of the bulk drug inlet pipe 12 is movable and is in sealed sleeve connection with the outer side wall of the bottom outlet vertical pipe 11 of the temporary drug storage bin 10, the bulk drug inlet pipe 12 can not drive the bottom outlet vertical pipe 11 of the temporary drug storage bin 10 to move when rotating along with the bulk drug inlet pipe, and meanwhile, the bottom outlet vertical pipe 11 of the temporary drug storage bin 10 is not influenced to convey liquid medicine to the interior of the bulk drug storage bin. During the fixed-axis rotation of the bulk drug inlet tube 12, each supporting ball 20 can play a role of rolling support, so that the fixed-axis rotation stability of the whole bulk drug inlet tube 12 is effectively ensured.

The above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model and are intended to be within the scope of the appended claims and description; any alternative modifications or variations to the embodiments of the present utility model will fall within the scope of the present utility model for those skilled in the art.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

Claims (9)

1. The drinking water dosing and sterilizing feeder is characterized in that: the device comprises a reservoir, wherein a ground seat is fixedly arranged on the outer side of the reservoir, a lifting mechanism is fixedly arranged on the top of the ground seat, a lifting platform is arranged on the top of the lifting mechanism, a cantilever telescopic mechanism is arranged on the top of the lifting platform, a medicine storage unit is arranged at the front end of the cantilever telescopic mechanism, a medicine adding driving mechanism is connected with the lower side of the medicine storage unit, the medicine adding driving mechanism is connected with a medicine dispersing mechanism below the medicine adding driving mechanism, and the top inlet end of the medicine dispersing mechanism is connected with the bottom outlet end of the medicine storage unit.

2. The potable water dosing and sanitizing applicator of claim 1, wherein: the lifting mechanism consists of two vertical electric cylinders which are arranged at intervals, the two vertical electric cylinders move synchronously in a lifting manner during movement, the top parts of piston rods of the two vertical electric cylinders are fixedly arranged at the bottom of the lifting platform, and the bottom parts of cylinder barrels of the two vertical electric cylinders are fixed at the top parts of the ground connecting seats.

3. The potable water dosing and sanitizing applicator of claim 2, wherein: the cantilever telescopic mechanism comprises two horizontal cantilever electric cylinders which are fixed and arranged at the top of the lifting platform at intervals, the end parts of the piston rods of the two horizontal cantilever electric cylinders are fixedly provided with the medicine storage unit, and the two horizontal cantilever electric cylinders drive the horizontal displacement of the medicine storage unit through synchronous telescopic movement.

4. A potable water dosing and sanitizing applicator as set forth in claim 3, wherein: a main tank is fixedly arranged on the ground outside the lifting mechanism, the main tank is connected with the medicine storage unit through a hose pipe, and a precise supply pump is arranged on the hose pipe.

5. The potable water dosing and sanitizing applicator of claim 4, wherein: the medicine storage unit comprises an installation seat fixedly installed at the end parts of piston rods of the two horizontal cantilever electric cylinders, a temporary medicine storage bin is fixedly installed at the top of the installation seat, the top of the temporary medicine storage bin is connected with the outlet end of the hose pipeline, and a bottom outlet vertical pipe of the temporary medicine storage bin is movably and hermetically connected with the top inlet end of the medicine dispersing mechanism.

6. The potable water dosing and sanitizing applicator of claim 5, wherein: the bulk drug mechanism comprises a bulk drug inlet pipe which is movably and hermetically sleeved at a riser at the bottom outlet of the temporary drug storage bin, the bulk drug inlet pipe is connected with the drug feeding driving mechanism and rotates along with the motion of the drug feeding driving mechanism, a liquid collecting round flat bin communicated with the bulk drug inlet pipe is fixedly connected below the bulk drug inlet pipe, radial drug throwing stirring pipes communicated with the inside of the liquid collecting round flat bin are fixedly connected to the outer side wall of the liquid collecting round flat bin respectively, and a sealing disassembly bottom end cover is hermetically screwed at the bottom of the liquid collecting round flat bin.

7. The potable water dosing and sanitizing applicator of claim 6, wherein: the medicine adding driving mechanism comprises a U-shaped seat fixedly installed at the bottom of the lifting platform, a waterproof driving stirring motor is installed in the U-shaped seat, the top of the waterproof driving stirring motor is fixedly installed at the bottom of the lifting platform, a driving gear is fixed on a motor shaft of the waterproof driving stirring motor and is connected with a driven gear coaxially fixed on the outer side wall of the medicine dispersing inlet pipe, a plurality of supporting balls are installed in each installation groove at the bottom of the driven gear in a matched and clamped mode, and the bottoms of the supporting balls are movably abutted against the bottom of a U-shaped cavity of the U-shaped seat.

8. The potable water dosing and sanitizing applicator of claim 7, wherein: a medicine filtering sponge body is arranged in the inner cavity of the liquid collecting round flat bin.

9. The potable water dosing and sanitizing applicator of claim 8, wherein: and balancing weights are fixedly arranged at the tail ends of cylinder barrels of the horizontal cantilever cylinders.

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