CN205163703U - Liquid sterilizing installation - Google Patents

Abstract

The utility model discloses a liquid sterilizing installation, sterilizing installation including sterilization fluorescent tube, transparent spiral pipe, vacuum pump, the sterilization fluorescent tube right transparent spiral pipe can implement even light struck and handle. The vacuum pump be equipped with vacuum pump air inlet, gas outlet. The both ends of spiral pipe be equipped with switching -over valve E, switching -over valve F respectively, switching -over valve E, switching -over valve F be equipped with three port respectively, switching -over valve E, switching -over valve F's fluid pathway's the state of opening or closing is by electric control. In switching -over valve E's the three port, the mouth of pipe is continuous on the left with the spiral pipe for a port, and a port then communicates with each other with the feed inlet, and a port is gas vent 1 in addition, and 1 gas vent links to each other through the air inlet of pipeline with the vacuum pump, in switching -over valve F's the three port, port mouth of pipe on the right of the spiral pipe links to each other, and a port then communicates with each other with the feed inlet, and a port is gas vent 2 in addition, and 2 gas vents link to each other through the air inlet of pipeline with the vacuum pump.

Description

A kind of sterilization of liquids equipment

Technical field

This patent belongs to sterilizing field, is specifically related to a kind of light sterilizing installation of liquid.

Background technology

Because liquid has light transmission, therefore, the sterilizing of liquid often adopts light sterilizing methods.But, when adopting light sterilizing methods to sterilization of liquids, usually there are some problems, such as, when liquid is still in container, now, be still in the liquid light radiation sterilization in transparent vessel, but, it is longer that light irradiating liquids completes the time required for sterilizing, to this, the measure of general employing is: be statically placed in by liquid in container, and the long-time radiation sterilization mode accepting light is to complete sterilizing, but, which has weak point: because the transmission effect of light to liquid is subject to the effect of depth of liquid, the radiation of depth as shallow place light is strong, the radiation of degree of depth depths light is weak, therefore, the sterilization effect that light produces the irradiation of liquid is uneven, if especially described liquid containing certain admittedly containing thing time, because this contains thing admittedly to the barrier effect of light, light can be poorer to the radiation sterilization effect of this liquid.Except above-mentioned illumination sterilization time is long, except the even problem of uneven illumination, the illumination blind area that formation is penetrated in illumination also will be avoided, as the interface between two between container causes at the Transmission light at this place of light influenced owing to sealing required means (viscose, thickening clear glass etc.), therefore, the liquid of sterilizing is when flowing through seam, because sterilizing is incomplete, easily causes secondary bacterial to be polluted, thus make overall sterilization effect poor reliability.

In order to overcome the aforesaid liquid defect that sterilization effect is not good enough under light sterilizing is irradiated, sufficient sterilization time should be ensured, have and will require that sterilizing is even, and non-blind area penetrated in illumination.The invention discloses a kind of sterilizing installation, liquid is placed in a sterilized space by the present invention, in described sterilized space, liquid is in continuous flow regime, light can irradiating liquids for a long time, and ensures unglazed irradiation blind area, simultaneously, in this space, liquid is in the turbulence state of constantly flowing, like this, light can be made even to liquid irradiation everywhere, current downflow turbulence state is irradiated for a long time because liquid is in light, and the sterilized space that local one is certain, therefore, this sterilization effect is reliable, sterilization effect is good, non-secondary pollution.This equipment need ensure low manufacturing cost.

Utility model content

The light sterilization treatment that the purpose of this utility model is to provide a kind of sterilization of liquids equipment can realize liquid material, this equipment can make liquid subject to sterilization light irradiation time in sterile chamber long, in sterilization process, do not have illumination to penetrate blind area, sterilizing is reliable, effective, and the secondary do not existed in sterilization process is dirty.

In order to realize above-described goal of the invention, the technical scheme that this utility model adopts is: a kind of sterilization of liquids equipment, described sterilizing installation comprises sterilizing lamp tube, transparent spiral pipe, vacuum pump, and described sterilizing lamp tube can implement uniform photo-irradiation treatment to described transparent spiral pipe.Described vacuum pump is provided with air-inlet of vacuum pump, gas outlet.The two ends of described serpentine pipe are respectively equipped with reversal valve E, reversal valve F, charging aperture, discharging opening, and the state opened or closed of the fluid passage of described reversal valve E, reversal valve F is by Electronic control.Described reversal valve E, reversal valve F are respectively equipped with three ports, in three ports of wherein reversal valve E, a port is connected with the serpentine pipe left side mouth of pipe, and a port then communicates with charging aperture, also have a port to be air vent one, air vent is connected with the air inlet of vacuum pump by pipeline first; In three ports of reversal valve F, a port is connected with the mouth of pipe on the right of serpentine pipe, and a port then communicates with discharging opening, and also have a port to be air vent two, second air vent is connected with the air inlet of vacuum pump by pipeline.

One section of liquid stream subject to sterilization is provided with in described serpentine pipe, one section of liquid stream 15 subject to sterilization is provided with in described serpentine pipe 3, distance between described liquid stream both ends of the surface is BD or AC, distance between the both sides end face of described serpentine pipe 3 is AD, distance between described liquid stream both ends of the surface be less than serpentine pipe 3 both sides end face between distance, as shown in Figure 2.

Beneficial effect: owing to adopting light germicidal light source, serpentine pipe, liquid composition disinfection system, liquid is in the turbulence state of the continuous flowing under the long-time irradiation of light, this technology to each several part sterilization effect of liquid evenly, illumination non-blind area, sterilizing reliable results, this system is without antibacterial secondary pollution.This structure low cost of manufacture.

Accompanying drawing explanation

Fig. 1 is a kind of sterilization of liquids equipment schematic one

Fig. 2 is the schematic diagram of liquid stream in serpentine pipe in Fig. 1 and serpentine pipe

Fig. 3 is a kind of sterilization of liquids equipment schematic two

Wherein:

1, the serpentine pipe left side mouth of pipe, 2, the mouth of pipe on the right of serpentine pipe, 3, serpentine pipe, 4, reversal valve E, 5, charging aperture, 6, air vent one, 7, reversal valve F, 8, discharging opening, 9, air vent two, 10, vacuum pump, 11, air-inlet of vacuum pump, 12, vacuum pump gas outlet, 13, sterilizing lamp tube, 14, pin, 15, liquid stream, 16, liquid stream left side, 17, liquid stream right side

Detailed description of the invention

If Fig. 1 is a kind of sterilization of liquids equipment schematic one, described a kind of sterilization of liquids equipment comprises transparent spiral pipe 3, sterilizing lamp tube 13, vacuum pump 10, reversal valve E4, reversal valve F7.Described sterilizing lamp tube 13 is installed by pin one 4, and implements uniform photo-irradiation treatment to described transparent spiral pipe 3.Described vacuum pump 10 is provided with air-inlet of vacuum pump 11, gas outlet 12.The two ends of described serpentine pipe 3 are respectively equipped with reversal valve E4, reversal valve F7, charging aperture 5, discharging opening 8, described reversal valve E4, reversal valve F7 are respectively equipped with three ports, and the state opened or closed of the fluid passage of described reversal valve E4, reversal valve F7 is by Electronic control.In three ports of reversal valve E4, a port is connected with the serpentine pipe left side mouth of pipe 1, and a port then communicates with charging aperture 5, and also have a port to be air vent 1, air vent one 6 is connected with the air inlet 11 of vacuum pump by pipeline; In three ports of reversal valve F7, a port is connected with the mouth of pipe on the right of serpentine pipe 2, and a port then communicates with discharging opening 8, and also have a port to be air vent 29, air vent 29 is connected with the air inlet 11 of vacuum pump by pipeline.One section of liquid stream 15 subject to sterilization is provided with in described serpentine pipe 3, distance between described liquid stream both ends of the surface is BD, distance between the both sides end face of described serpentine pipe 3 is AD, the distance between described liquid stream both ends of the surface be BD be less than serpentine pipe 3 two end faces between distance AD, as shown in Figure 2.

Specific works process is: first, open the charging aperture 5 of reversal valve E4 and the fluid passage of the serpentine pipe left side mouth of pipe 1, the path that the air vent 1 of cutting out reversal valve E4 is connected with vacuum pump 10, on the right of the discharging opening 8 of closing reversal valve F7 and serpentine pipe, the fluid passage of the mouth of pipe 2, opens the path that on the right of the air vent 29 of reversal valve F7, serpentine pipe, the mouth of pipe 2 is connected with vacuum pump 10.Open vacuum pump 10, liquid material enters serpentine pipe 3 by charging aperture 5, and under the effect of vacuum pump 10, liquid stream 15 moves right in serpentine pipe 3.Liquid stream 15 moves right, and on the right of liquid stream, end face 17 moves to serpentine pipe 3C place, as shown in Figure 2, charging aperture 5 stops charging, and liquid stream 15 continues to move right, and treats that on the right of liquid stream, end face 17 moves to the D place of serpentine pipe 3, the left side 16 of liquid stream is in B place, closes vacuum pump 10.

Secondly, the fluid passage of the mouth of pipe 2 on the right of the discharging opening 8 opening reversal valve F7 and serpentine pipe, the path that the air vent 29 of cutting out reversal valve F7 is connected with vacuum pump 10, close the charging aperture 5 of reversal valve E4 and the fluid passage of the serpentine pipe left side mouth of pipe 1, open the air vent 1 of reversal valve E4, path that the serpentine pipe left side mouth of pipe 1 is connected with vacuum pump 10.Open vacuum pump 10, liquid stream 15 is moved to the left under the effect of vacuum pump 10 in serpentine pipe 3.The left side 16 of liquid stream moves to the A place of serpentine pipe 3, and the right side 17 of liquid stream moves to the C place of serpentine pipe 3, closes vacuum pump 10

Then, open the charging aperture 5 of reversal valve E4 and the fluid passage of the serpentine pipe left side mouth of pipe 1, the path that the air vent 1 of cutting out reversal valve E4 is connected with vacuum pump 10, on the right of the discharging opening 8 of closing reversal valve F7 and serpentine pipe, the fluid passage of the mouth of pipe 2, opens the path that on the right of the air vent 29 of reversal valve F7, serpentine pipe, the mouth of pipe 2 is connected with vacuum pump 10.Open vacuum pump 10, under the effect of vacuum pump 10, liquid stream 15 is to again moving right in serpentine pipe 3, and treat that liquid stream right side 17 moves to the D place of serpentine pipe 3, the left side 16 of liquid stream is in B place, closes vacuum pump 10.

Because sterilizing needs the longer time, therefore, need liquid stream 15 back and forth movement in serpentine pipe 3, until sterilizing terminates.

Can be known by above analysis, one section of liquid stream 15 subject to sterilization is provided with in described serpentine pipe 3, distance between described liquid stream both ends of the surface is BD, as shown in Figure 2, if one end of liquid stream moves to A end in serpentine pipe, the other end is then held at C, that is, now in serpentine pipe, liquid stream both ends of the surface spacing is AC, therefore just has: the distance between the both sides end face of described serpentine pipe 3 is AD, and the distance BD between described liquid stream both ends of the surface or AC is less than the distance AD between two end faces of serpentine pipe 3.In other words, in serpentine pipe, the both ends of the surface spacing of liquid stream is less than the distance of serpentine pipe both sides end face.

The distance ensureing between the liquid stream both ends of the surface in described serpentine pipe is less than the distance between the end face of serpentine pipe both sides, can implement the continuous flowing of liquid stream in serpentine pipe like this, and can sterilizing under light illumination, now, and uniform illumination, non-blind area.

If Fig. 3 is a kind of sterilization of liquids equipment schematic two, described a kind of sterilization of liquids equipment comprises transparent spiral pipe 3, sterilizing lamp tube 13, vacuum pump 10, reversal valve E4, reversal valve F7.That a kind of sterilization of liquids equipment schematic one difference is with such as Fig. 1: the sterilizing lamp tube 13 of the present embodiment is located at the center of serpentine pipe 3, preferably, the central axes of described sterilizing lamp tube 13 central axis and described serpentine pipe 3, described sterilizing lamp tube 13 can implement uniform photo-irradiation treatment to described transparent spiral pipe 3.Described vacuum pump 10 is provided with air-inlet of vacuum pump 11, gas outlet 12.The two ends of described serpentine pipe 3 are respectively equipped with reversal valve E4, reversal valve F7, charging aperture 5, discharging opening 8, described reversal valve E4, reversal valve F7 are respectively equipped with three ports, and the state opened or closed of the fluid passage of described reversal valve E4, reversal valve F7 is by Electronic control.In three ports of reversal valve E4, a port is connected with the serpentine pipe left side mouth of pipe 1, and a port then communicates with charging aperture 5, and also have a port to be air vent 1, air vent one 6 is connected with the air inlet 11 of vacuum pump by pipeline; In three ports of reversal valve F7, a port is connected with the mouth of pipe on the right of serpentine pipe 2, and a port then communicates with discharging opening 8, and also have a port to be air vent 29, air vent 29 is connected with the air inlet 11 of vacuum pump by pipeline.One section of liquid stream 15 subject to sterilization is provided with in described serpentine pipe 3, distance between described liquid stream both ends of the surface is BD, distance between the both sides end face of described serpentine pipe 3 is AD, the distance between described liquid stream both ends of the surface be BD be less than serpentine pipe 3 two end faces between distance AD, as shown in Figure 2.

Specific works process is: first, open the charging aperture 5 of reversal valve E4 and the fluid passage of the serpentine pipe left side mouth of pipe 1, the path that the air vent 1 of cutting out reversal valve E4 is connected with vacuum pump 10, on the right of the discharging opening 8 of closing reversal valve F7 and serpentine pipe, the fluid passage of the mouth of pipe 2, opens the path that on the right of the air vent 29 of reversal valve F7, serpentine pipe, the mouth of pipe 2 is connected with vacuum pump 10.Open vacuum pump 10, liquid material enters serpentine pipe 3 by charging aperture 5, and under the effect of vacuum pump 10, liquid stream 15 moves right in serpentine pipe 3.Liquid stream 15 moves right, and liquid stream right side 17 moves to serpentine pipe 3C place, as shown in Figure 2, charging aperture 5 stops charging, and liquid stream 15 continues to move right, and treats that liquid stream right side 17 moves to the D place of serpentine pipe 3, the left side 16 of liquid stream is in B place, closes vacuum pump 10.

Secondly, the fluid passage of the mouth of pipe 2 on the right of the discharging opening 8 opening reversal valve F7 and serpentine pipe, the path that the air vent 29 of cutting out reversal valve F7 is connected with vacuum pump 10, close the charging aperture 5 of reversal valve E4 and the fluid passage of the serpentine pipe left side mouth of pipe 1, open the air vent 1 of reversal valve E4, path that the serpentine pipe left side mouth of pipe 1 is connected with vacuum pump 10.Open vacuum pump 10, liquid stream 15 is moved to the left under the effect of vacuum pump 10 in serpentine pipe 3.The left side 16 of liquid stream moves to the A place of serpentine pipe 3, and the right side 17 of liquid stream moves to the C place of serpentine pipe 3, closes vacuum pump 10

Then, open the charging aperture 5 of reversal valve E4 and the fluid passage of the serpentine pipe left side mouth of pipe 1, the path that the air vent 1 of cutting out reversal valve E4 is connected with vacuum pump 10, on the right of the discharging opening 8 of closing reversal valve F7 and serpentine pipe, the fluid passage of the mouth of pipe 2, opens the path that on the right of the air vent 29 of reversal valve F7, serpentine pipe, the mouth of pipe 2 is connected with vacuum pump 10.Open vacuum pump 10, under the effect of vacuum pump 10, liquid stream 15 is to again moving right in serpentine pipe 3, and treat that liquid stream right side 17 moves to the D place of serpentine pipe 3, the left side 16 of liquid stream is in B place, closes vacuum pump 10.

Because sterilizing needs the longer time, therefore, need liquid stream 15 back and forth movement in serpentine pipe 3, until sterilizing terminates.

Can be known by above analysis, one section of liquid stream 15 subject to sterilization is provided with in described serpentine pipe 3, distance between described liquid stream both ends of the surface is BD, as shown in Figure 2, if one end of liquid stream moves to A end in serpentine pipe, the other end is then held at C, that is, now in serpentine pipe, liquid stream both ends of the surface spacing is AC, therefore just has: the distance between the both sides end face of described serpentine pipe 3 is AD, and the distance BD between described liquid stream both ends of the surface or AC is less than the distance AD between two end faces of serpentine pipe 3.In other words, in serpentine pipe, the both ends of the surface spacing of liquid stream is less than the distance of serpentine pipe both sides end face.

The distance ensureing between the liquid stream both ends of the surface in described serpentine pipe is less than the distance between the end face of serpentine pipe both sides, can implement the continuous flowing of liquid stream in serpentine pipe like this, and can sterilizing under light illumination, now, and uniform illumination, non-blind area.

Above-described; according to preferred embodiment of the present utility model; and be not used to limit scope of the present utility model; above-described embodiment of the present utility model can also make a variety of changes; namely every claims according to this utility model application and description are done simple, equivalence change, all fall into claims of the present utility model.The technology contents of the not detailed description of this utility model is the common practise of those skilled in the art.

Claims (2)

1. a sterilization of liquids equipment, described sterilizing installation comprises sterilizing lamp tube, transparent spiral pipe, it is characterized in that, described a kind of sterilization of liquids equipment also comprises a vacuum pump, and described sterilizing lamp tube can implement uniform photo-irradiation treatment to described transparent spiral pipe; Described vacuum pump is provided with air-inlet of vacuum pump, gas outlet; The two ends of described serpentine pipe are respectively equipped with the mouth of pipe on the right of the serpentine pipe left side mouth of pipe, serpentine pipe, described serpentine pipe two ends are also provided with reversal valve E, reversal valve F, charging aperture, discharging opening, and the state opened or closed of the fluid passage of described reversal valve E, reversal valve F is by Electronic control; Described reversal valve E, reversal valve F are respectively equipped with three ports, wherein, in three ports of reversal valve E, a port is connected with the serpentine pipe left side mouth of pipe, a port then communicates with charging aperture, and also have a port to be air vent one, air vent is connected with the air inlet of vacuum pump by pipeline first; In three ports of reversal valve F, a port is connected with the mouth of pipe on the right of serpentine pipe, and a port then communicates with discharging opening, and also have a port to be air vent two, second air vent is connected with the air inlet of vacuum pump by pipeline.

2. a kind of sterilization of liquids equipment according to claim 1, is characterized in that, be provided with one section of liquid stream subject to sterilization in described serpentine pipe, the distance between described liquid stream both ends of the surface is less than the distance between the both sides end face of serpentine pipe.