CN114656082A

CN114656082A - Multidimensional sterilization device for sterile water preparation

Info

Publication number: CN114656082A
Application number: CN202210361693.1A
Authority: CN
Inventors: 程银龙; 程伟; 倪汪来
Original assignee: Anhui Pingjude Medical Technology Co ltd
Current assignee: Anhui Pingjude Medical Technology Co ltd
Priority date: 2022-04-07
Filing date: 2022-04-07
Publication date: 2022-06-24
Anticipated expiration: 2042-04-07
Also published as: CN114656082B

Abstract

The invention provides a multidimensional sterilization device for preparing sterile water, which comprises a sterilization tank, wherein the input end of the sterilization tank is connected with a resin tower, the outside of the sterilization tank is sleeved with a heat preservation mechanism, the inside of the sterilization tank is provided with a transfusion mechanism connected with the output end of the resin tower, and the transfusion mechanism is connected with the sterilization mechanism; the infusion mechanism comprises an infusion tube and a rotary spray head, wherein one end of the infusion tube is connected with the output end of the resin tower, the other end of the infusion tube extends into the sterilization tank, and the rotary spray head is connected with one end of the infusion tube extending into the sterilization tank; the sterilization mechanism comprises two cylinders arranged on the upper surface of the sterilization tank, a reversing assembly connected with one end of the interior of the sterilization tank, and an aeration assembly arranged at the bottom end of the interior of the sterilization tank. The invention can be used for sterilizing in combination with various modes, thereby improving the sterilizing effect.

Description

Multidimensional sterilization device for sterile water preparation

Technical Field

The invention mainly relates to the technical field of sterile water preparation, in particular to a multi-dimensional sterilization device for sterile water preparation.

Background

Sterile water is generally water that is treated by physical means to contain a bacterial mass and is free of bacteria.

According to a sterile water sterilization apparatus provided in patent document CN201310310605.6, the sterilization apparatus includes a water tank, a high-temperature sterile water tank, a steam sterilization apparatus, a pipeline, a liquid filter screen, a liquid filter apparatus, a steam filter screen, and a steam filter apparatus, wherein the water tank, the high-temperature sterile water tank, and the steam sterilization apparatus are fixedly connected by the pipeline; a steam filtering device is arranged on a pipeline below the steam sterilizing device, and the tail end of the pipeline is connected with a water tank; the steam sterilization device comprises: the casing is located the second feed inlet and the second discharge gate of casing both sides, is located the inside section of thick bamboo that has the mesh of casing, the driven gear on the suit has a section of thick bamboo of mesh, driven gear meshes with the driving gear that is connected to on the motor output shaft mutually. The invention has simple operation, saves energy and is beneficial to ensuring safety.

Although the sterile water sterilization device does not need to discharge water vapor, and achieves the function of preventing operators from being burnt by the water vapor, the traditional sterile water preparation device is often sterilized only in a steam sterilization mode, and the sterilization means is single, so that the sterilization effect is not ideal.

Disclosure of Invention

The invention mainly provides a multi-dimensional sterilization device for preparing sterile water, which is used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a multidimensional sterilization device for preparing sterile water comprises a sterilization tank, wherein the input end of the sterilization tank is connected with a resin tower, the outside of the sterilization tank is sleeved with a heat preservation mechanism, the inside of the sterilization tank is provided with a transfusion mechanism connected with the output end of the resin tower, and the transfusion mechanism is connected with a sterilization mechanism;

the infusion mechanism comprises an infusion tube and a rotary spray head, wherein one end of the infusion tube is connected with the output end of the resin tower, the other end of the infusion tube extends into the sterilization tank, and the rotary spray head is connected with one end of the infusion tube extending into the sterilization tank;

the sterilization mechanism comprises two cylinders arranged on the upper surface of the sterilization tank, a reversing component connected with one end of the cylinder extending into the sterilization tank, and an aeration component arranged at the bottom end in the sterilization tank;

the reversing assembly comprises a first conical sterilization disc and a second conical sterilization disc, the first conical sterilization disc is connected with one end inside the sterilization tank, the piston rod of the air cylinder extends to the second conical sterilization disc, the second conical sterilization disc is arranged at the bottom end of the first conical sterilization disc, and the bottom end of the second conical sterilization disc is sleeved on the shell of the infusion tube.

Furthermore, the heat preservation mechanism comprises a jacket arranged on the outer surface of the sterilization tank, a plurality of first exhaust holes arranged at the top end of the sterilization tank shell, and a rubber ring which is arranged at the bottom end inside the jacket and used for covering the first exhaust holes.

Furthermore, the second conical sterilizing tray is sequentially sleeved on the first lifting ring and the second lifting ring outside the infusion tube, and the first sterilizing lamps are connected with the first lifting ring and the second lifting ring, the first sterilizing lamps are arranged around the infusion tube, the radius length of the first lifting ring is larger than that of the second lifting ring, and water drops are guided to flow on the first sterilizing lamps through a conical structure formed by the first sterilizing lamps, the first lifting ring and the second lifting ring, so that the water body is fully contacted with the first sterilizing lamps.

Furthermore, the first conical sterilization disc comprises a third lifting ring and a plurality of second sterilization lamps, the third lifting ring is mounted on the upper surface of the first lifting ring, the second sterilization lamps are mounted on the upper surface of the third lifting ring and connected with one end, extending into the sterilization tank, of the air cylinder, and the top end of the third lifting ring is connected with the reversing disc through the second sterilization lamps.

Furthermore, the first conical sterilization tray also comprises a fan-shaped air baffle plate arranged between two adjacent second bactericidal lamps, a second air exhaust hole arranged on the shell of the fan-shaped air baffle plate, and a rubber cover which is arranged on the upper surface of the fan-shaped air baffle plate and used for covering the second air exhaust hole.

Furthermore, the bottom end of the reversing disc is provided with a conical groove, and in the invention, the water flow is steered by the aid of the slope surface of the conical groove.

Furthermore, an upper water distributor and a lower water distributor are arranged at the top end inside the resin tower, and a water delivery pipe is connected between the upper water distributor and the lower water distributor.

Furthermore, the aeration component comprises an aeration cover arranged at the bottom end inside the sterilization tank and an air supply pipe arranged at the bottom end of the sterilization tank in a penetrating manner, and one end of the air supply pipe extends to the inside of the aeration cover.

Furthermore, the top end of the jacket is connected with a first gas pipe, one end, far away from the jacket, of the first gas pipe is connected with a pump body, the output end of the pump body is connected with a second gas pipe, and the output end of the second gas pipe extends into the resin tower and is connected with the lower water distributor.

Furthermore, a one-way valve is arranged on the shell of the second air conveying pipe.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the invention can be combined with a plurality of modes for sterilization, thereby improving the sterilization effect, and specifically comprises the following steps: the water after filtering is from rotatory nozzle blowout, contacts from rotatory nozzle spun splash and switching-over dish, contacts with first bactericidal lamp to carry out sterilamp to this water, the drop of water that drops from the second bactericidal lamp contacts with first bactericidal lamp with the help of gravity, thereby continues to disinfect, and the water after disinfecting contacts with the inside combustion gas from the aeration cover, thereby carries out aeration sterilization to it.

Secondly, the invention can change the spray effect sprayed from the rotary spray head, so that the spray head is fully contacted with the second germicidal lamp, and the germicidal effect is improved, specifically: the water spray device has the advantages that the impact effect of water flow sprayed by the rotating spray head is changed by the lifting of the reversing disc, so that the water outlet effect is changed, when the water flow sprayed by the rotating spray head is difficult to contact with the water flow sprayed by the aeration cover, the reversing disc descends, the water spray when the water flow is discharged by the rotating spray head is increased, and the contact force between the water spray and the second bactericidal lamp is increased, so that the second bactericidal lamp can further sterilize the water spray.

The present invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

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

FIG. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a schematic structural view of a first conical sterilization tray and an infusion tube according to the present invention;

FIG. 5 is an exploded view of a first conical sterilization tray and a second conical sterilization tray of the present invention;

FIG. 6 is a schematic structural view of the heat retention mechanism of the present invention;

FIG. 7 is a schematic view of a first conical sterilization tray according to the present invention;

fig. 8 is a right side view of the present invention.

In the figure: 10. sterilizing the tank; 20. a resin tower; 21. an upper water distributor; 22. a lower water distributor; 23. a water delivery pipe; 30. a sterilization mechanism; 31. a cylinder; 32. a commutation assembly; 321. a first conical sterilization tray; 3211. a third lifting ring; 3212. a second germicidal lamp; 3213. a reversing disc; 3214. a fan-shaped air baffle; 3215. a second vent hole; 3216. a tapered slot; 3217. a rubber cover; 322. a second conical sterilization tray; 3221. a first lifting ring; 3222. a second lifting ring; 3223. a first germicidal lamp; 33. an aeration assembly; 40. a heat preservation mechanism; 41. a jacket; 411. a first gas delivery pipe; 412. a pump body; 413. a second gas delivery pipe; 414. a one-way valve; 42. a first exhaust port; 43. a rubber ring; 50. a transfusion mechanism; 51. a transfusion tube; 52. the spray head is rotated.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the knowledge of the terms used herein in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

In the embodiment, referring to fig. 1-8, a multi-dimensional sterilization device for preparing sterile water comprises a sterilization tank 10, wherein an input end of the sterilization tank 10 is connected with a resin tower 20, a heat preservation mechanism 40 is sleeved outside the sterilization tank 10, an infusion mechanism 50 connected with an output end of the resin tower 20 is arranged inside the sterilization tank 10, and the infusion mechanism 50 is connected with a sterilization mechanism 30;

the infusion mechanism 50 comprises an infusion tube 51 with one end connected with the output end of the resin tower 20 and the other end extending into the sterilization tank 10, and a rotary spray head 52 connected with one end of the infusion tube 51 extending into the sterilization tank 10;

the sterilization mechanism 30 comprises two air cylinders 31 arranged on the upper surface of the sterilization tank 10, a reversing assembly 32 connected with one end of the air cylinder 31 extending into the sterilization tank 10, and an aeration assembly 33 arranged at the bottom end in the sterilization tank 10;

the reversing assembly 32 comprises a first conical sterilization disc 321 and a second conical sterilization disc 322, wherein the first conical sterilization disc 321 is connected with one end of the piston rod of the air cylinder 31, which extends to the inside of the sterilization tank 10, the second conical sterilization disc 322 is installed at the bottom end of the first conical sterilization disc 321, and the bottom end of the second conical sterilization disc 322 is sleeved on the shell of the infusion tube 51.

Specifically, please refer to fig. 3 and 6 again, the heat-insulating mechanism 40 includes a jacket 41 disposed on the outer surface of the sterilization tank 10, a plurality of first exhaust holes 42 disposed at the top end of the housing of the sterilization tank 10, and a rubber ring 43 mounted at the bottom end inside the jacket 41 and used for covering the plurality of first exhaust holes 42;

in this embodiment, the hot air in the sterilization tank 10 enters the jacket 41 through the first exhaust hole 42 and the rubber ring 43, the hot air is stored in the jacket 41 to provide a heat preservation function for the sterilization tank 10 by the hot air in the jacket 41, and a heating copper pipe is disposed inside the jacket 41 to assist in heating the hot air in the jacket 41.

Specifically, please refer to fig. 4 and 5 again, the second conical sterilizing tray 322 is sequentially sleeved on the first lifting ring 3221 and the second lifting ring 3222 outside the infusion tube 51, and the plurality of first germicidal lamps 3223 connecting the first lifting ring 3221 and the second lifting ring 3222, the plurality of first germicidal lamps 3223 are arranged around the infusion tube 51, and the length of the radius of the first lifting ring 3221 is greater than the length of the radius of the second lifting ring 3222;

the first conical sterilization tray 321 comprises a third lifting ring 3211 mounted on the upper surface of the first lifting ring 3221, and a plurality of second germicidal lamps 3212 mounted on the upper surface of the third lifting ring 3211, the second germicidal lamps 3212 are connected to one end of the cylinder 31 extending into the sterilization tank 10, and the top end of the third lifting ring 3211 is connected to a reversing tray 3213 through the plurality of second germicidal lamps 3212;

the first conical sterilization tray 321 further comprises a fan-shaped air baffle 3214 installed between two adjacent second germicidal lamps 3212, a second exhaust hole 3215 formed in a housing of the fan-shaped air baffle 3214, and a rubber cover 3217 installed on an upper surface of the fan-shaped air baffle 3214 and used for covering the second exhaust hole 3215;

a conical groove 3216 is formed at the bottom end of the reversing disc 3213;

in this embodiment, the first germicidal lamp 3223 is in contact with the water body sprayed by the rotary nozzle 52 to sterilize the water body with ultraviolet rays, and the tapered structure formed by the first germicidal lamp 3223, the first lifting ring 3221 and the second lifting ring 3222 guides water droplets to flow over the first germicidal lamp 3223, so that the water body is in full contact with the first germicidal lamp 3223, and the number of the first germicidal lamp 3223 is greater than that of the second germicidal lamp 3212, so that the dense second germicidal lamp 3212 blocks the water body to sterilize efficiently;

further, the cylinder 31 drives the second germicidal lamp 3212 to move up and down, the second germicidal lamp 3212 provides support for the reversing disc 3213, and the impact effect of the water sprayed by the rotary nozzle 52 is changed by moving up and down the reversing disc 3213, so that the water outlet effect is changed, when the water sprayed by the rotary nozzle 52 is difficult to contact with the water sprayed by the aeration cover 331, the reversing disc 3213 moves down, and the spray of the water discharged by the rotary nozzle 52 and the contact force between the spray and the second germicidal lamp 3212 are increased, so that the second germicidal lamp 3212 can further sterilize the water;

further, when the fan-shaped air baffle 3214 descends, the air pressure in the space at the bottom end of the fan-shaped air baffle 3214 increases continuously, so that the hot air in the space pushes away the rubber cover 3217 and is exhausted from the second exhaust hole 3215 into the space above the fan-shaped air baffle 3214;

furthermore, the water flow is diverted by the slope surface of the conical groove 3216.

Specifically, please refer to fig. 2 and 3 again, an upper water distributor 21 is installed at the top end inside the resin tower 20, and a lower water distributor 22 is installed at the bottom end inside the resin tower 20, and a water pipe 23 is connected between the upper water distributor 21 and the lower water distributor 22;

the aeration component 33 comprises an aeration cover 331 mounted at the bottom end of the interior of the sterilization tank 10, and an air feed pipe 332 penetrating the bottom end of the sterilization tank 10, wherein one end of the air feed pipe 332 extends to the interior of the aeration cover 331;

the top end of the jacket 41 is connected with a first gas pipe 411, one end of the first gas pipe 411, which is far away from the jacket 41, is connected with a pump body 412, the output end of the pump body 412 is connected with a second gas pipe 413, and the output end of the second gas pipe 413 extends to the inside of the resin tower 20 and is connected with the lower water distributor 22;

a one-way valve 414 is arranged on the shell of the second air conveying pipe 413;

it should be noted that, in this embodiment, the water flows uniformly into the water conveying pipe 23 through the upper water distributor 21 and the lower water distributor 22;

further, the gas for aeration is delivered into the interior of the aeration cover 331 through the gas delivery pipe 332 connected to the ozone gas source and the high-temperature gas source, so that the water inside the sterilization tank 10 is subjected to aeration sterilization through the gas discharged from the interior of the aeration cover 331;

further, under the action of the pump body 412, the hot air inside the jacket 41 passes through the first air pipe 411 and enters the second air pipe 413, and the hot air enters the water outlet end of the lower water distributor 22 through the second air pipe 413 so as to be sterilized from the bottom of the resin tower 20;

further, the flow of liquid in the second air delivery conduit 413 is restricted by the one-way valve 414.

The specific operation mode of the invention is as follows:

the water body to be sterilized is filtered by the resin tower 20, the filtered water body passes through the infusion tube 51 under the action of the water pump at the top end of the resin tower 20, the spray water sprayed from the rotary spray head 52 contacts with the reversing disc 3213 and is blocked by the reversing disc 3213, the water is contacted with the first germicidal lamp 3223, and by the contact of the second germicidal lamp 3212 and the water sprayed by the rotary nozzle 52, thereby carrying out ultraviolet sterilization on the water body, guiding water drops to flow on the second germicidal lamp 3212 through a conical structure formed by the second germicidal lamp 3212, the third lifting ring 3211 and the reversing disc 3213, so that the water body is sufficiently contacted with the second germicidal lamp 3212, the water drops falling from the second germicidal lamp 3212 are contacted with the first germicidal lamp 3223 by gravity, so as to continue sterilization, and the sterilized water body contacts with the gas exhausted from the interior of the aeration cover 331, so as to perform aeration sterilization on the water body;

the cylinder 31 drives the second germicidal lamp 3212 to ascend and descend, the second germicidal lamp 3212 provides support for the reversing disc 3213, and the reversing disc 3213 ascends and descends to change the impact effect of the water sprayed by the rotary nozzle 52, so that the water outlet effect is changed, when the water sprayed by the rotary nozzle 52 is difficult to contact with the water sprayed by the aeration cover 331, the reversing disc 3213 descends to increase the spray of the rotary nozzle 52 when the water is discharged and the contact force between the spray and the second germicidal lamp 3212, so that the second germicidal lamp 3212 can further sterilize the water;

when the fan-shaped air baffle 3214 descends, because the air pressure in the space at the bottom end of the fan-shaped air baffle 3214 is continuously increased, so that the hot air in the space pushes away the rubber cover 3217, and is discharged into the upper space of the fan-shaped air baffle 3214 from the second exhaust hole 3215, and when the fan-shaped air baffle 3214 ascends, the hot air in the upper space enters the jacket 41 through the first exhaust hole 42 and the rubber ring 43, and the hot air is stored through the jacket 41, so that the hot air in the jacket 41 provides a heat preservation function for the sterilization tank 10.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims

1. A multidimensional sterilization device for preparing sterile water comprises a sterilization tank (10), and is characterized in that the input end of the sterilization tank (10) is connected with a resin tower (20), a heat preservation mechanism (40) is sleeved outside the sterilization tank (10), an infusion mechanism (50) connected with the output end of the resin tower (20) is arranged inside the sterilization tank (10), and the infusion mechanism (50) is connected with a sterilization mechanism (30);

the infusion mechanism (50) comprises an infusion tube (51) with one end connected with the output end of the resin tower (20) and the other end extending into the sterilization tank (10), and a rotary spray head (52) connected with one end of the infusion tube (51) extending into the sterilization tank (10);

the sterilization mechanism (30) comprises two air cylinders (31) arranged on the upper surface of the sterilization tank (10), a reversing component (32) connected with one end of the air cylinders (31) extending into the sterilization tank (10), and an aeration component (33) arranged at the bottom end in the sterilization tank (10);

the reversing assembly (32) comprises a first conical sterilization disc (321) and a second conical sterilization disc (322), the piston rod of the air cylinder (31) extends to one end inside the sterilization tank (10) and is connected with the first conical sterilization disc (321), the second conical sterilization disc (322) is arranged at the bottom end of the first conical sterilization disc (321), and the bottom end of the second conical sterilization disc (322) is sleeved on the shell of the infusion tube (51).

2. The multi-dimensional sterilization apparatus for preparing sterile water according to claim 1, wherein the heat-retaining mechanism (40) comprises a jacket (41) disposed on the outer surface of the sterilization tank (10), a plurality of first exhaust holes (42) disposed at the top end of the housing of the sterilization tank (10), and a rubber ring (43) mounted at the bottom end inside the jacket (41) and used for covering the plurality of first exhaust holes (42).

3. The multi-dimensional sterilization device for preparing sterile water according to claim 1, wherein the second conical sterilization tray (322) is sequentially sleeved on a first lifting ring (3221) and a second lifting ring (3222) outside the infusion tube (51), and a plurality of first germicidal lamps (3223) connecting the first lifting ring (3221) and the second lifting ring (3222), wherein the plurality of first germicidal lamps (3223) are arranged around the infusion tube (51), and the length of the radius of the first lifting ring (3221) is greater than that of the radius of the second lifting ring (3222).

4. The multi-dimensional sterilization device for preparing sterile water according to claim 3, wherein the first conical sterilization disk (321) comprises a third lifting ring (3211) mounted on the upper surface of the first lifting ring (3221), and a plurality of second germicidal lamps (3212) mounted on the upper surface of the third lifting ring (3211), the second germicidal lamps (3212) are connected with one end of the cylinder (31) extending to the inside of the sterilization tank (10), and the top end of the third lifting ring (3211) is connected with a reversing disk (3213) through the plurality of second germicidal lamps (3212).

5. The multi-dimensional sterilization device for preparing sterile water according to claim 4, wherein the first conical sterilization tray (321) further comprises a fan-shaped air baffle plate (3214) installed between two adjacent second germicidal lamps (3212), a second air vent hole (3215) formed in the housing of the fan-shaped air baffle plate (3214), and a rubber cover (3217) installed on the upper surface of the fan-shaped air baffle plate (3214) and used for covering the second air vent hole (3215).

6. The multi-dimensional sterilization apparatus for preparing sterile water according to claim 5, wherein the bottom end of the reversing disc (3213) is provided with a tapered groove (3216).

7. The multidimensional sterilization device for sterile water preparation according to claim 2, wherein an upper water distributor (21) is installed at the top end of the interior of the resin tower (20), and a lower water distributor (22) is installed at the bottom end of the interior of the resin tower (20), and a water delivery pipe (23) is connected between the upper water distributor (21) and the lower water distributor (22).

8. The multi-dimensional sterilization apparatus for preparing sterilized water according to claim 7, wherein the aeration assembly (33) comprises an aeration cover (331) installed at the bottom end of the inside of the sterilization tank (10), and an air feed pipe (332) installed through the bottom end of the sterilization tank (10), wherein one end of the air feed pipe (332) extends to the inside of the aeration cover (331).

9. The multidimensional sterilization device for preparing sterile water according to claim 8, wherein a first air pipe (411) is connected to the top end of the jacket (41), a pump body (412) is connected to one end, away from the jacket (41), of the first air pipe (411), a second air pipe (413) is connected to the output end of the pump body (412), and the output end of the second air pipe (413) extends to the inside of the resin tower (20) and is connected with the lower water distributor (22).

10. The multi-dimensional sterilization device for preparing sterile water according to claim 9, wherein the shell of the second air delivery pipe (413) is provided with a one-way valve (414).