CN115646296A - Bactericidal effect check out test set of germicide - Google Patents

Abstract

The invention discloses a bactericide sterilization effect detection device, which relates to the technical field of bactericide sterilization effect detection and comprises a detection box, wherein two motor boxes are fixedly connected to one side of the detection box, a layer-by-layer mixing assembly is arranged in the detection box and comprises two mounting columns and two driven shafts, the two mounting columns are fixedly connected to the inner layer of the detection box, and the outer sides of the mounting columns are connected with an inner layer contact plate and a middle layer contact plate through hinges. The bactericide sterilization effect detection equipment disclosed by the invention has the advantages that when the bactericide sterilization effect is detected, along with the continuous rotation of the driven shaft, the bactericide is gradually contacted and mixed with sewage on each layer in the detection box, the bactericide is ensured to be uniformly sprayed to each layer of the sewage, the sterilization effect at each position in the sewage is similar, and the accuracy of the final detection result is improved.

Description

Bactericidal effect check out test set

Technical Field

The invention relates to the technical field of bactericide sterilization effect detection, in particular to bactericide sterilization effect detection equipment.

Background

Biocides, also known as biocides, bactericidal algicides, microbicides, and the like, generally refer to chemical agents that are effective in controlling or killing microorganisms, bacteria, fungi, and algae, in aqueous systems. Internationally, the bactericide is generally a general name of medicaments for preventing and controlling various pathogenic microorganisms, more than 8 thousands of pathogenic microorganisms (fungi, strong bacteria, rickettsia, mycoplasma, viruses, algae and the like) harmful to plants are investigated all over the world, plant diseases cause huge loss to agriculture, crops all over the world reduce the yield by about 500Mt on average each year, and disasters of serious famine and even hungry of a large number of people caused by epidemic of certain plant diseases occur for many times historically, so the bactericide is an economic and effective method for preventing and controlling the plant diseases; bactericides are also called biocides, bactericidal algicides, microbicides and the like, generally refer to chemical preparations which can effectively control or kill microorganisms, such as bacteria, fungi and algae, in water systems and are mainly divided into agricultural bactericides and industrial bactericides; the bactericide needs to be tested for its bactericidal effect before being put on the market.

Present germicide bactericidal effect check out test set is in the use, it has the sewage the inside after the detection to lead to filling with germicide, germicide and the preliminary in-process of contact of sewage, germicide begins to go out to the bacterium of sewage inside and kills, the flow direction of germicide from top to bottom, this will cause the sewage bactericidal effect that is located the upper strata best, the sewage that is located the lower floor contacts with germicide less, the sewage bactericidal effect that is located the middle level is moderate, the sewage bactericidal effect in the upper, middle and lower three-layer in same container is different, it has the deviation to lead to final germicide bactericidal effect testing result to exist, thereby reduce this bactericidal effect check out test set's use value.

Disclosure of Invention

The invention discloses bactericide sterilization effect detection equipment, and aims to solve the technical problem that in the use process of the existing bactericide sterilization effect detection equipment, a bactericide is introduced into detected sewage filled with the bactericide, the bactericide starts to kill bacteria in the sewage in the process of primary contact between the bactericide and the sewage, and the flow direction of the bactericide is from top to bottom, so that the sterilization effect of the sewage on the upper layer is optimal, the contact between the sewage on the lower layer and the bactericide is less, the sterilization effect of the sewage on the middle layer is moderate, and the sterilization effects of the sewage on the upper, middle and lower layers in the same container are different, so that the final detection result of the sterilization effect of the bactericide is deviated.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a germicide bactericidal effect check out test set, includes the detection case, two motor cases of one side fixedly connected with of detection case, and the inside of detection case is equipped with layer upon layer hybrid module, layer upon layer hybrid module includes two erection columns and two driven shafts, the equal fixed connection of two erection columns is in the inlayer of detection case, there are inlayer contact plate and middle contact panel in the outside of erection column through hinged joint, and the one end that is located two inlayer contact plates on different erection columns contacts, and the one end that is located two middle contact plates on different erection columns contacts, is located and is equipped with a plurality of elastic ropes between inlayer contact plate and the middle contact panel on the same erection column, two equal fixedly connected with closed plate in the outside of erection column, and two closed plate contact, two equal fixedly connected with two follower rods in the outside of driven shaft, and the outside fixedly connected with same outer flip board of two follower rods on the same driven shaft, outer flip board contacts with the outside of erection column, is equipped with No. two elastic ropes between outer flip board and the middle contact plate, the inboard fixedly connected with driving motor of motor, and the output shaft of driving motor passes through shaft coupling fixedly connected with the pivot, the other end of bearing is connected with the outer wall of detection case, the outer wall of driven shaft, the outer wall of driven shaft is connected with the driven shaft, the driven shaft is connected with the tooth, the inner wall of the driven shaft is connected with the driven shaft, and the driven shaft, the driven shaft is connected with the tooth, the driving gear of the driving gear.

When the bactericide sterilization effect detection is carried out by arranging the layer-by-layer mixing assembly, sewage is guided into the detection box and is located in multiple positions in the detection box, when the bactericide is sprayed, the driving motor is started, the driving motor drives the driven shaft on the driven teeth to rotate through the driving teeth, in the rotating process, the outer turnover plate slowly separates from the mounting column, the bactericide is slowly mixed with the sewage between the outer turnover plate and the middle contact plate, after the driven shaft rotates to a certain degree, the second elastic rope on the outer turnover plate is in an elastic pulling limit state, the outer turnover plate drives the middle contact plate to deflect, the bactericide is in contact mixing with the sewage between the middle contact plate, along with the continuous rotation of the driven shaft, the first elastic rope drives the inner contact plate to deflect, the bactericide is in contact mixing with the sewage between the inner contact plate, the layer-by-layer mixing of the bactericide and the sewage is formed, the bactericide is uniformly sprayed into all layers of the sewage, the sterilization effect at all the positions in the sewage is enabled to be similar, and the accuracy of the final detection result is improved.

In a preferred scheme, the outside of driven shaft is equipped with vibrates auxiliary assembly, and vibrates auxiliary assembly and include that shake pole and a plurality of vibration ball, and the outside that the driven shaft is located between two follower levers is opened and is had two annular spouts, and the equal sliding connection of inner wall of two annular spouts has a slide bar, shakes pole fixed connection in one side relative of two slide bars, shake the ball equidistance and locate one side of shaking the outside returning face of pole, and shake opposite side equidistance fixedly connected with vibration spring beam of pole, and the other end that shakes the spring beam contacts with the inner wall of detection case.

Through being provided with the vibration auxiliary assembly, the driven shaft is at rotatory in-process, vibrate the spring beam and take place the extrusion with the inner wall of detection case under rotatory drive, then the reaction force that vibrates the spring beam drives the slide bar rotatory in annular spout, the tremor that vibrates the spring beam makes the vibration ball drive sewage and germicide mixing liquid and vibrate the mixture, thereby improve germicide and sewage mixing uniformity, further improve the accuracy of germicide bactericidal effect testing result, improve this check out test set's use value.

In a preferred scheme, the equal fixedly connected with ground connection at the bottom both ends of detection case, and the both sides that the detection case is close to the bottom all open and have the discharge hole, the equal fixedly connected with delivery pipe in inside of two discharge holes, the outside of two discharge pipes all has the pipe valve through flange joint, the board is spouted to the top inner wall fixedly connected with cavity of detection case, cavity spout the board and open the connecting hole towards the outside equidistance of below, the equal fixedly connected with nozzle of inner wall of every connecting hole, the top fixedly connected with delivery pump of detection case, the delivery end of delivery pump passes through the inside of pipe connection in the cavity spout the board, the liquid inlet end fixedly connected with germicide conveyer pipe of delivery pump.

In a preferred scheme, one side fixedly connected with mounting panel of detection case, and one side of mounting panel is equipped with heating element, and heating element includes the cartridge heater, and cartridge heater fixed connection all is equipped with the seal cover in one side of mounting panel, the both ends of cartridge heater, the inboard equidistance fixedly connected with extrusion spring pole of cartridge heater, and the same outer laminating pole of other end fixedly connected with of a plurality of extrusion spring poles that is located same horizontal plane, outer laminating pole towards the outside fixedly connected with laminating heat-conducting plate of cartridge heater central point, laminating heat-conducting plate is equipped with a plurality of electric heating pipe towards the outside of extrusion spring pole.

Through being provided with heating element, the bactericidal effect who carries out germicide under normal atmospheric temperature detects the back, pass the cartridge heater with the germicide conveyer pipe, the germicide conveyer pipe is at the in-process of walking, extrusion spring pole drives the laminating heat-conducting plate and extrudes the germicide conveyer pipe and prescribe a limit to, the germicide conveyer pipe is fixed the back, when carrying out the germicide and carrying out the germicide transport, electric heating pipe circular telegram, through laminating the heat-conducting plate with heat transfer to in the germicide conveyer pipe, then carry out the source heating to germicide, when preventing sewage and germicide synchronous heating, because of the heating causes the death of part bacterium in the sewage, germicide source department heating, ensure that germicide is under different temperatures, its bactericidal effect testing result is still accurate.

In a preferred scheme, the inside of detection case is equipped with the quick sampling subassembly, and the quick sampling subassembly includes vacuum pump and sample long tube, sample long tube fixed connection is in the bottom inner wall of detection case, vacuum pump fixed connection is in the top of detection case, the evacuation end of vacuum pump passes through the pipe connection in the inside of sample long tube, the equal fixedly connected with feed liquor pipe in inside of every feed liquor hole is opened to the outside equidistance of sample long tube towards the detection case central point, the outside of every feed liquor pipe all has No. two check valves through flange joint, the directional inside to the inside of sample long tube for the detection case of No. two check valves, the equal division of sample long tube has the thief hole towards the detection case department outward, the equal fixedly connected with sample branch pipe in inside of every thief hole, the outside of every sample branch pipe all has a check valve through flange joint, the directional outside to the detection case of sample long tube of No. one check valve, the inside that the sample long tube is located sample branch pipe below is equipped with the baffle.

Through being provided with quick sample subassembly, after sewage in the detection case fully reacts with germicide, start the vacuum pump, the vacuum pump is with the inside evacuation of sample long tube, open No. two check valves on each feed liquor pipe after that, then the inside sewage on each level of detection case all is in the leading-in sample long tube of feed liquor pipe under the effect of negative pressure, then open a check valve on each sample branch pipe, sewage in the sample long tube is discharged through each sample branch pipe, the staff collects it, accomplish the sewage sample after disinfecting fast, the synchronous sample of each level, reduce sample required time, indirect improvement germicide bactericidal effect detection efficiency.

In a preferred scheme, open the top of detection case has two feed ports, and the inside of two feed ports all is equipped with the leading-in subassembly of sewage, and the leading-in subassembly of sewage includes that sewage gets into the frame, and sewage gets into frame fixed connection in the inside of feed port, the equal fixedly connected with backup pad in both sides of sewage entering frame, and the equal fixedly connected with pneumatic cylinder in top of two backup pads, the equal fixedly connected with jack-up frame of output of two pneumatic cylinders, the equal fixedly connected with link in the outside of two jack-up frames, the same filter plate board of bottom fixedly connected with of two links, filter plate board and the laminating of the inner wall that sewage got into the frame, filter plate in the middle of the top fixedly connected with of central department guide plate.

Through being provided with the leading-in subassembly of sewage, when carrying out leading-in of sewage, filter the large granule impurity of filter plate in to the sewage, prevent that it from causing the degree of depth pollution of detection case inside, use a period back when filter plate, adjust the hydraulic cylinder and drive filter plate and rise, make its top of reacing the leading-in subassembly of sewage, the staff can realize fast that the granule impurity of filter plate top collects, ensures that this filter plate can repeat effective use.

According to the bactericide sterilization effect detection equipment, when bactericide sterilization effect detection is carried out, sewage is guided into the detection box and is located in multiple positions in the detection box, when the bactericide is sprayed, the driving motor is started, the driving motor drives the driven shaft on the driven teeth to rotate through the driving teeth, the outer turnover plate slowly separates from the mounting column in the rotating process, the bactericide is slowly mixed with the sewage between the outer turnover plate and the middle contact plate, after the driven shaft rotates to a certain degree, the second elastic rope on the outer turnover plate is in an elastic pulling limit state, the outer turnover plate drives the middle contact plate to deflect, the bactericide is in contact mixing with the sewage between the middle contact plate, the first elastic rope drives the inner contact plate to deflect along with continuous rotation of the driven shaft, the bactericide is in contact mixing with the sewage between the inner contact plate, layer by layer mixing of the bactericide and the sewage is formed, and the bactericide is uniformly sprayed to all layers of the sewage, the sterilization effect of all the positions in the sewage is enabled to be similar, and the technical effect of accuracy of a final detection result is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of a device for detecting the bactericidal effect of a bactericidal agent according to the present invention.

Fig. 2 is a schematic diagram of the internal structure of a detection box of the bactericide sterilization effect detection apparatus provided by the present invention.

Fig. 3 is a schematic diagram of a layer-by-layer mixing assembly of the bactericide sterilization effect detection apparatus provided by the present invention.

Fig. 4 is a schematic plan view of fig. 3.

Fig. 5 is a schematic view of a vibration auxiliary assembly of the bactericide sterilization effect detection apparatus according to the present invention.

Fig. 6 is a schematic diagram of a combined structure of a heating assembly and a delivery pump of the sterilizing effect detection device of the bactericide.

Fig. 7 is a sectional view of a heating assembly structure of a sterilizing effect detection apparatus for a sterilizing agent according to the present invention.

Fig. 8 is a schematic view of a rapid sampling assembly of a device for detecting the sterilization effect of a bactericide according to the present invention.

Fig. 9 is a schematic view of a sewage introducing assembly of the bactericide sterilization effect detection apparatus according to the present invention.

In the figure: 1. a detection box; 2. a sewage leading-in component; 201. sewage enters the frame; 202. filtering the screen plate; 203. a jacking frame; 204. a connecting frame; 205. a middle baffle; 206. a hydraulic cylinder; 207. a support plate; 3. a delivery pump; 4. a motor case; 5. a discharge pipe; 6. a tubular valve; 7. a heating assembly; 701. a heating cylinder; 702. extruding the spring rod; 703. an outer attaching rod; 704. sealing sleeves; 705. adhering a heat conducting plate; 706. an electric heating tube; 8. a ground base; 9. a hollow jet plate; 10. a rapid sampling assembly; 1001. sampling a long tube; 1002. a vacuum pump; 1003. sampling branch pipes; 1004. a first check valve; 1005. a partition plate; 1006. a liquid inlet pipe; 1007. a second one-way valve; 11. mixing the components layer by layer; 1101. a closing plate; 1102. mounting a column; 1103. a driven tooth; 1104. a rotating shaft; 1105. a drive motor; 1106. a driving tooth; 1107. an inner layer contact plate; 1108. an intermediate contact plate; 1109. an outer roll-over plate; 1110. a follower rod; 1111. a driven shaft; 1112. an elastic rope I; 1113. a second elastic rope; 12. a shock-assist assembly; 1201. a shock rod; 1202. vibrating the ball; 1203. oscillating the spring rod; 1204. a slide bar; 1205. an annular chute; 13. a bactericide delivery pipe; 14. a nozzle; 15. and (7) mounting the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The invention discloses a bactericide sterilization effect detection device which is mainly applied to the existing bactericide sterilization effect detection device, during the use process, bactericide is introduced into detected sewage filled with the bactericide, during the primary contact process of the bactericide and the sewage, the bactericide starts to kill bacteria in the sewage, the flow direction of the bactericide is from top to bottom, so that the sewage on the upper layer has the best sterilization effect, the sewage on the lower layer has less contact with the bactericide, the sewage on the middle layer has the moderate sterilization effect, and the sewage in the upper, middle and lower layers in the same container has different sterilization effects, so that the final bactericide sterilization effect detection result has a deviation scene.

Referring to fig. 1-9, a bactericide sterilization effect detection apparatus comprises a detection box 1, wherein two motor boxes 4 are fixedly connected to one side of the detection box 1, a layer-by-layer mixing assembly 11 is arranged in the detection box 1, the layer-by-layer mixing assembly 11 comprises two mounting columns 1102 and two driven shafts 1111, the two mounting columns 1102 are fixedly connected to the inner layer of the detection box 1, the outer sides of the mounting columns 1102 are connected with an inner layer contact plate 1107 and an intermediate layer contact plate 1108 through hinges, one ends of the two inner layer contact plates 1107 positioned on different mounting columns 1102 are in contact, one ends of the two intermediate layer contact plates 1108 positioned on different mounting columns 1102 are in contact, a plurality of first elastic ropes 1112 are arranged between the inner layer contact plate 1107 and the intermediate layer contact plate 1108 positioned on the same mounting column 1102, and closed plates 1101 are fixedly connected to the outer sides of the two mounting columns 1102 close to the bottom ends, and the two closed plates 1101 are contacted, the outer sides of the two driven shafts 1111 are fixedly connected with two follower rods 1110, the outer sides of the two follower rods 1110 positioned on the same driven shaft 1111 are fixedly connected with the same outer rotating plate 1109, the outer rotating plate 1109 is contacted with the outer side of the mounting column 1102, two elastic ropes 1113 are arranged between the outer rotating plate 1109 and the middle contact plate 1108 at equal intervals, the inner side of the motor box 4 is fixedly connected with a driving motor 1105, the output shaft of the driving motor 1105 is fixedly connected with a rotating shaft 1104 through a coupler, the other end of the rotating shaft 1104 is connected to the outer wall of the detection box 1 through a bearing, the outer side of the rotating shaft 1104 is fixedly connected with driving teeth 1106, one end of the driven shaft 1111 is connected to the inner wall of the detection box 1 through a bearing, the outer side of the driven shaft 1111 is fixedly connected with driven teeth 1103, and the driving teeth 1106 are meshed with the driven teeth 1103.

It should be noted that, when the bactericidal effect of the bactericide is detected, sewage is introduced into the detection box 1, the sewage is located in a plurality of positions in the detection box 1, when the bactericide is sprayed, the driving motor 1105 is started, the driving motor 1105 drives the driven shaft 1111 on the driven teeth 1103 to rotate through the driving teeth 1106, in the rotating process, the outward turning plate 1109 slowly disengages from the mounting column 1102, the bactericide slowly mixes with the sewage between the outward turning plate 1109 and the middle contact plate 1108, after the driven shaft 1111 rotates to a certain extent, the second elastic cord 1113 on the outward turning plate 1109 is in an elastic pulling limit state, the outward turning plate 1109 drives the middle 1108 to deflect, the bactericide and the sewage between the middle contact plate 1108 contact are contacted and mixed, along with the continuous rotation of the driven shaft 1111, the first elastic cord 1112 drives the inner contact plate to deflect, the bactericide and the sewage between the inner contact plate 1107 are contacted and mixed, so as to form a mixture of the bactericide and the sewage, thereby ensuring that the bactericide is uniformly sprayed to each layer of the sewage, enabling the bactericidal effect at each position in the sewage to be similar to improve the accuracy of the final detection result.

Referring to fig. 1, 4 and 5, in a preferred embodiment, an oscillation assisting assembly 12 is disposed on an outer side of the driven shaft 1111, and the oscillation assisting assembly 12 includes an oscillation rod 1201 and a plurality of oscillation balls 1202, two annular sliding grooves 1205 are formed on an outer side of the driven shaft 1111 between the two driven rods 1110, inner walls of the two annular sliding grooves 1205 are slidably connected with sliding rods 1204, the oscillation rod 1201 is fixedly connected to opposite sides of the two sliding rods 1204, the oscillation balls 1202 are equidistantly disposed on a side of the oscillation rod 1201 facing the outer rotating plate 1109, another side of the oscillation rod 1201 is equidistantly fixedly connected with oscillation spring rods 1203, and another end of the oscillation spring rods 1203 contacts with an inner wall of the detection box 1.

It should explain, driven shaft 1111 is at rotatory in-process, it takes place the extrusion with the inner wall of detection case 1 to vibrate spring lever 1203 under the rotatory drive, then the reaction force that vibrates spring lever 1203 drives slide bar 1204 rotatory in annular spout 1205, the tremor that vibrates spring lever 1203 makes to vibrate ball 1202 and drives sewage and the mixed liquid of germicide and vibrate the mixture, thereby improve germicide and sewage mixing uniformity, further improve the accuracy of germicide bactericidal effect testing result, improve this check out test set's use value.

Referring to fig. 1, 2 and 6, in a preferred embodiment, the equal fixedly connected with ground connection 8 in bottom both ends of detection case 1, and the both sides that detection case 1 is close to the bottom all open the discharge hole, the equal fixedly connected with delivery pipe 5 in inside of two discharge holes, the outside of two delivery pipe 5 all has pipe valve 6 through flange connection, the top inner wall fixedly connected with cavity spout board 9 of detection case 1, cavity spout board 9 has the connecting hole towards the outside equidistance of below, the equal fixedly connected with nozzle 14 of inner wall of every connecting hole, the top fixedly connected with delivery pump 3 of detection case 1, the delivery end of delivery pump 3 passes through pipe connection in the inside of cavity spout board 9, the feed liquor end fixedly connected with germicide conveyer pipe 13 of delivery pump 3.

Referring to fig. 1, 6 and 7, in a preferred embodiment, a mounting plate 15 is fixedly connected to one side of a detection box 1, a heating assembly 7 is arranged on one side of the mounting plate 15, the heating assembly 7 includes a heating cylinder 701, the heating cylinder 701 is fixedly connected to one side of the mounting plate 15, sealing sleeves 704 are arranged at two ends of the heating cylinder 701, extrusion spring rods 702 are fixedly connected to the inner side of the heating cylinder 701 at equal intervals, the other ends of the extrusion spring rods 702 located on the same horizontal plane are fixedly connected with the same outer attaching rod 703, an attaching heat conducting plate 705 is fixedly connected to the outer side of the outer attaching rod 703 facing the center point of the heating cylinder 701, and a plurality of electric heating pipes 706 are arranged on the outer side of the attaching heat conducting plate 705 facing the extrusion spring rods 702.

It should be noted that, after the bactericidal effect of bactericide is detected at normal temperature, go through cartridge heater 701 with bactericide conveyer pipe 13, bactericide conveyer pipe 13 is at the in-process of walking, extrusion spring rod 702 drives laminating heat-conducting plate 705 and extrudes bactericide conveyer pipe 13 and prescribes a limit, bactericide conveyer pipe 13 is fixed the back, when carrying out bactericide and carrying, electric heating pipe 706 circular telegram, through laminating heat-conducting plate 705 with heat transfer to bactericide conveyer pipe 13 in, then carry out the source heating to bactericide, when preventing sewage and bactericide synchronous heating, because of heating causes the death of part bacterium in the sewage, bactericide source department heats, ensure that bactericide is under different temperatures, its bactericidal effect testing result is still accurate.

Referring to fig. 1, fig. 2 and fig. 8, in a preferred embodiment, the inside of the detection box 1 is provided with a rapid sampling assembly 10, and the rapid sampling assembly 10 includes a vacuum pump 1002 and a sampling long tube 1001, the sampling long tube 1001 is fixedly connected to the bottom inner wall of the detection box 1, the vacuum pump 1002 is fixedly connected to the top of the detection box 1, the evacuation end of the vacuum pump 1002 is connected to the inside of the sampling long tube 1001 through a pipe, the sampling long tube 1001 is equidistantly opened with a liquid inlet hole facing the outside of the central point of the detection box 1, the inside of each liquid inlet hole is fixedly connected with a liquid inlet pipe 1006, the outside of each liquid inlet pipe 1006 is connected with a check valve 1007 through a flange, the direction of the check valve 1007 is from the inside of the detection box 1 to the inside of the sampling long tube 1001, the sampling long tube 1001 is equidistantly opened with sampling holes facing the outside of the detection box 1, the inside of each sampling hole is fixedly connected with a sampling branch pipe 1003, the outside of each sampling branch pipe 1003 is connected with a check valve 1004 through a flange, the direction of the check valve 1004 is from the inside of the sampling long tube 1001 to the outside of the detection box 1, the sampling long tube 1001 is positioned below the partition 1003, the partition 1003 is positioned below the sampling branch 1003, the sampling branch pipe 1005 and the liquid inlet pipe 1005 is positioned on the adjacent level of the lower level of the separation of the liquid inlet pipe 1005, and the liquid inlet pipe 1005.

It should be noted that, after sewage and germicide fully react in the detection case 1, start vacuum pump 1002, vacuum pump 1002 will sample the inside evacuation of long tube 1001, open No. two check valves 1007 on each feed liquor pipe 1006 next, then the inside sewage on each level of detection case 1 all leads to in the sample long tube 1001 through feed liquor pipe 1006 under the effect of negative pressure, then open a check valve 1004 on each sample branch pipe 1003, sewage in the sample long tube 1001 is discharged through each sample branch pipe 1003, the staff collects it, accomplish the sewage sample after disinfecting fast, the synchronous sampling of each level, reduce the required time of sample, indirect improvement germicide bactericidal effect detection efficiency.

Referring to fig. 1, fig. 2 and fig. 9, in a preferred embodiment, two feed holes are formed in the top of the detection box 1, and the inside of the two feed holes is provided with the sewage inlet assembly 2, the sewage inlet assembly 2 includes a sewage inlet frame 201, the sewage inlet frame 201 is fixedly connected to the inside of the feed holes, the sewage inlet frame 201 is fixedly connected to the support plates 207 on both sides, the top of the two support plates 207 is fixedly connected with the hydraulic cylinders 206, the output ends of the two hydraulic cylinders 206 are fixedly connected with the jacking frames 203, the outer sides of the two jacking frames 203 are fixedly connected with the connecting frames 204, the bottom of the two connecting frames 204 is fixedly connected with the same filter screen plate 202, the filter screen plate 202 is attached to the inner wall of the sewage inlet frame 201, and the filter screen plate 202 is located on the middle guide plate 205 of the top fixedly connected with the center.

It should be noted that, when sewage is led in, large-particle impurities in the sewage are filtered through the filter screen plate 202, so that the large-particle impurities are prevented from causing deep pollution inside the detection box 1, after the filter screen plate 202 is used for a period of time, the adjustment hydraulic cylinder 206 drives the filter screen plate 202 to ascend, so that the filter screen plate 202 reaches the upper part of the sewage leading-in component 2, and a worker can quickly collect the particle impurities above the filter screen plate 202, so that the filter screen plate 202 can be repeatedly and effectively used.

The working principle is as follows: when the sewage sampling device is used, when sewage is introduced, large-particle impurities in the sewage are filtered through the filter screen plate 202, the large-particle impurities are retained above the filter screen plate 202, the sewage gradually falls between the outer turning plate 1109 and the detection box 1, between the outer turning plate 1109 and the middle contact plate 1108, between the middle contact plate 1108 and the inner contact plate 1107 and between the inner contact plate 1107 and the detection box 1 in the introduction process, when the sewage is sprayed, the driving motor 1105 is started, the driving motor 1105 drives the driven shaft 1111 on the driven teeth 1103 to rotate through the driving teeth 1106, in the rotation process, the outer turning plate 1109 slowly separates from the mounting column 1102, the bactericide slowly mixes with the sewage between the outer turning plate 1109 and the middle contact plate 1108, when the driven shaft 1111 rotates to a certain degree, the second elastic rope 1113 on the outer turning plate 1109 is in the limit state of elastic pulling, the outer turning plate 1109 drives the middle contact plate 1108 to deflect the sewage contact plate with the sewage between the bactericide and the middle contact plate layer, the sewage in the middle contact with the sewage in the middle contact plate 1109, as the continuous rotation of the driven shaft 1111, the elastic rope deflects, the sewage sampling branch pipes 1003 drives the sampling pipe 1003 to open, the sampling branch pipes 1002 to react with the sampling pipes 1002, the sampling pipes 1001 in the sampling box 1002, the sampling pipes 1001, the sampling pipes 1002 is started, the staff detects the sewage of each level of collecting, thereby learn the bactericidal effect of this germicide, when carrying out germicide bactericidal effect under the high temperature and examining time, pass cartridge heater 701 with germicide conveyer pipe 13, germicide conveyer pipe 13 is at the in-process of walking, it extrudees the heat-conducting plate 705 to extrude to germicide conveyer pipe 13 and prescribe a limit to extrude spring beam 702, germicide conveyer pipe 13 is fixed the back, when carrying out germicide and carrying, electric heating pipe 706 circular telegram, through laminating heat-conducting plate 705 with heat transfer to germicide conveyer pipe 13 in, then carry out the source heating to germicide, accomplish the heating back of germicide, follow-up operation step is all with above.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. The utility model provides a germicide bactericidal effect check out test set, includes detection case (1), its characterized in that, one side fixedly connected with two motor casees (4) of detection case (1), and the inside of detection case (1) is equipped with layer upon layer mixed subassembly (11), layer upon layer mixed subassembly (11) includes two erection columns (1102) and two driven shafts (1111), and two equal fixed connection of erection column (1102) are in the inlayer of detection case (1), the outside of erection column (1102) is through hinged joint have inlayer contact board (1107) and middle contact board (1108), and the one end that is located two inlayer contact boards (1107) on different erection columns (1102) contacts, and the one end that is located two middle contact board (1108) on different erection columns (1102) contacts, is located and is equipped with a plurality of elasticity rope (1112) between inlayer contact board (1107) and middle contact board (1108) on same erection column (1102), two the outside that erection column (1101) is close to the bottom all fixedly connected with closing plate (1109), and two follower pole (1109) that are located the same follower pole (1110) of outer fixed connection of follow-up pole (1109), second elastic ropes (1113) are arranged between the outer turnover plate (1109) and the middle contact plate (1108) at equal intervals;

the inside of detection case (1) is equipped with quick sampling subassembly (10), and quick sampling subassembly (10) includes vacuum pump (1002) and sample long tube (1001), sample long tube (1001) fixed connection is in the bottom inner wall of detection case (1), vacuum pump (1002) fixed connection is in the top of detection case (1), the evacuation end of vacuum pump (1002) passes through the inside of pipe connection in sample long tube (1001), sample long tube (1001) have the feed liquor hole towards the outside equidistance of detection case (1) central point is opened, the equal fixedly connected with feed liquor pipe (1006) in inside of every feed liquor hole, the outside of every feed liquor pipe (1006) all has No. two check valves (1007) through flange joint, the inside to the sample long tube (1001) of directional for detection case (1) of No. two check valves (1007), sample long tube (1001) are opened the sampling hole towards the department outside of detection case (1), the equal fixedly connected with sample branch pipe (1003) in inside of every sampling branch pipe (1003), the outside of every sample branch pipe (1003) all has No. one check valve (1004) through flange joint to sample branch pipe (1001), the inside of No. one check valve (1004) is located the sample branch pipe (1001) outside of detection case (1001) and sample branch (1001), sample branch pipe (1004) is located the inside of long tube (1001).

2. The sterilizing effect detection device of claim 1, wherein the inner side of the motor box (4) is fixedly connected with a driving motor (1105), the output shaft of the driving motor (1105) is fixedly connected with a rotating shaft (1104) through a coupler, the other end of the rotating shaft (1104) is connected to the outer wall of the detection box (1) through a bearing, the outer side of the rotating shaft (1104) is fixedly connected with a driving tooth (1106), one end of a driven shaft (1111) is connected to the inner wall of the detection box (1) through a bearing, the outer side of the driven shaft (1111) is fixedly connected with a driven tooth (1103), and the driving tooth (1106) and the driven tooth (1103) are meshed.

3. The sterilizing effect detection device of claim 2, wherein the outer side of the driven shaft (1111) is provided with an oscillation assisting assembly (12), the oscillation assisting assembly (12) comprises an oscillation rod (1201) and a plurality of oscillation balls (1202), two annular sliding grooves (1205) are formed in the outer side of the driven shaft (1111) between the two driven rods (1110), the inner walls of the two annular sliding grooves (1205) are both connected with sliding rods (1204) in a sliding manner, and the oscillation rod (1201) is fixedly connected to the opposite sides of the two sliding rods (1204).

4. The sterilizing effect detection equipment of claim 3, wherein the vibrating balls (1202) are equidistantly arranged on one side of the vibrating rod (1201) facing the outer rotating plate (1109), the other side of the vibrating rod (1201) is equidistantly and fixedly connected with vibrating spring rods (1203), and the other end of each vibrating spring rod (1203) is in contact with the inner wall of the detection box (1).

5. The bactericide sterilization effect detection device according to claim 1, wherein both ends of the bottom of the detection box (1) are fixedly connected with a grounding seat (8), both sides of the detection box (1) close to the bottom end are provided with discharge holes, both insides of the two discharge holes are fixedly connected with discharge pipes (5), both outsides of the two discharge pipes (5) are connected with pipe valves (6) through flanges, the inner wall of the top of the detection box (1) is fixedly connected with a hollow spray plate (9), the outsides of the hollow spray plate (9) facing downwards are equidistantly provided with connection holes, the inner wall of each connection hole is fixedly connected with a nozzle (14), the top of the detection box (1) is fixedly connected with a delivery pump (3), the delivery end of the delivery pump (3) is connected with the inside of the hollow spray plate (9) through a pipeline, and the liquid inlet end of the delivery pump (3) is fixedly connected with a bactericide delivery pipe (13).

6. The sterilizing effect detection device of claim 5, wherein a mounting plate (15) is fixedly connected to one side of the detection box (1), a heating assembly (7) is arranged on one side of the mounting plate (15), the heating assembly (7) comprises a heating cylinder (701), the heating cylinder (701) is fixedly connected to one side of the mounting plate (15), and sealing sleeves (704) are arranged at two ends of the heating cylinder (701).

7. The sterilizing effect detection apparatus as claimed in claim 6, wherein the inner side of the heating cylinder (701) is fixedly connected with a plurality of extrusion spring rods (702) at equal intervals, and the other ends of the plurality of extrusion spring rods (702) located on the same horizontal plane are fixedly connected with the same outer attaching rod (703), the outer attaching rod (703) is fixedly connected with an attaching heat conducting plate (705) facing the outer side of the center point of the heating cylinder (701), and the attaching heat conducting plate (705) is provided with a plurality of electric heating pipes (706) facing the outer side of the extrusion spring rods (702).

8. The sterilizing effect detection device of claim 1, wherein the top of the detection box (1) is provided with two feeding holes, and the inside of each of the two feeding holes is provided with the sewage introducing component (2), the sewage introducing component (2) comprises a sewage inlet frame (201), and the sewage inlet frame (201) is fixedly connected to the inside of the feeding hole.

9. The bactericide sterilization effect detection apparatus as claimed in claim 8, wherein both sides of said sewage inlet frame (201) are fixedly connected with supporting plates (207), and the tops of both supporting plates (207) are fixedly connected with hydraulic cylinders (206), the output ends of both hydraulic cylinders (206) are fixedly connected with jacking frames (203), the outer sides of both jacking frames (203) are fixedly connected with connecting frames (204), the bottoms of both connecting frames (204) are fixedly connected with the same filter screen plate (202), the filter screen plate (202) is attached to the inner wall of the sewage inlet frame (201), and the top of the filter screen plate (202) at the center is fixedly connected with an intermediate guide plate (205).

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