CN220525435U - Active capturing device for African swine fever aerosol - Google Patents
Active capturing device for African swine fever aerosol Download PDFInfo
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- CN220525435U CN220525435U CN202321236835.8U CN202321236835U CN220525435U CN 220525435 U CN220525435 U CN 220525435U CN 202321236835 U CN202321236835 U CN 202321236835U CN 220525435 U CN220525435 U CN 220525435U
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- swine fever
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- 239000000443 aerosol Substances 0.000 title claims abstract description 49
- 208000007407 African swine fever Diseases 0.000 title claims abstract description 24
- 238000001179 sorption measurement Methods 0.000 claims abstract description 27
- 239000007788 liquid Substances 0.000 claims description 97
- 239000012528 membrane Substances 0.000 claims description 51
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 34
- 238000002347 injection Methods 0.000 claims description 18
- 239000007924 injection Substances 0.000 claims description 18
- 238000001914 filtration Methods 0.000 claims description 13
- 238000000108 ultra-filtration Methods 0.000 claims description 12
- 238000003780 insertion Methods 0.000 claims description 11
- 230000037431 insertion Effects 0.000 claims description 11
- 238000007789 sealing Methods 0.000 claims description 8
- 238000001514 detection method Methods 0.000 abstract description 12
- 241000700605 Viruses Species 0.000 abstract description 8
- 230000009286 beneficial effect Effects 0.000 abstract description 2
- 241000701386 African swine fever virus Species 0.000 description 9
- 238000010586 diagram Methods 0.000 description 5
- 241000282898 Sus scrofa Species 0.000 description 4
- 238000004140 cleaning Methods 0.000 description 4
- 239000000428 dust Substances 0.000 description 4
- 241000282887 Suidae Species 0.000 description 3
- 230000005540 biological transmission Effects 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000011010 flushing procedure Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 244000052769 pathogen Species 0.000 description 2
- 235000015277 pork Nutrition 0.000 description 2
- 239000000126 substance Substances 0.000 description 2
- 230000001154 acute effect Effects 0.000 description 1
- 238000009395 breeding Methods 0.000 description 1
- 230000001488 breeding effect Effects 0.000 description 1
- 201000010099 disease Diseases 0.000 description 1
- 208000037265 diseases, disorders, signs and symptoms Diseases 0.000 description 1
- 238000011156 evaluation Methods 0.000 description 1
- 230000008676 import Effects 0.000 description 1
- 208000015181 infectious disease Diseases 0.000 description 1
- 230000002265 prevention Effects 0.000 description 1
- 238000005070 sampling Methods 0.000 description 1
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- Separation Using Semi-Permeable Membranes (AREA)
Abstract
The utility model provides an active capturing device of African swine fever aerosol, and belongs to the field of African swine fever detection. The technical proposal is as follows: including the cavity casing, set up at inside aerosol capture mechanism of casing and inner loop filter mechanism, the casing includes roof and bottom plate, is provided with annular curb plate between roof and the bottom plate border position, and aerosol capture mechanism is including setting up the air duct at annular curb plate front end, and air duct one end sets up inside the cavity casing, and the annular curb plate setting is worn out at the cavity casing outside to the air duct other end, and the casing is inside to be provided with the fan, fan and air duct intercommunication, and the inside adsorption pipe net that is provided with of air duct. The beneficial effects of the utility model are as follows: the aerosol can capture the aerosol of the African swine fever on the one hand, and can rapidly detect viruses.
Description
Technical Field
The utility model relates to the field of African swine fever detection, in particular to an active capturing device of African swine fever aerosol.
Background
African swine fever ((AfricanSwinefever, ASF) occurs, spreads and is popular in a plurality of countries worldwide, china is a large country for pig raising and pork consumption, live pigs are in the first place worldwide, the total amount of pig breeding and pork product import each year is huge, and the direct and indirect losses caused by ASF are immeasurable.
ASF is an acute, febrile, highly contagious disease caused by african swine fever virus (AfricanSwinefevervirus, ASFV), with morbidity and mortality as high as 100%. ASFV belongs to African swine fever virus family, african swine fever virus genus, is the only member of African swine fever virus family, and has no closely related viruses. ASF first appears in China in 2018, and the outbreak of ASFV causes large-scale death in a short time because the total amount of live pigs in China accounts for more than half of the world. Many studies have shown up to now that ASFV can be transmitted by aerosol in the air and cause infection of pigs, but up to now there is no effective portable sampling device for african swine fever aerosol in the air aerosol in the pig house, which has an influence on the evaluation ability of the risk of transmission of african swine fever aerosol in the pig house, while being unfavorable for prevention and control of the transmission of african swine fever by aerosol.
Disclosure of Invention
The utility model aims to provide an active capturing device of African swine fever aerosol, which has a simple structure and is convenient to use, and can capture the African swine fever aerosol and rapidly detect viruses.
The utility model is realized by the following measures:
the active capturing device for the African swine fever aerosol is characterized by comprising a cavity shell, an aerosol capturing mechanism and an internal circulation filtering mechanism, wherein the aerosol capturing mechanism and the internal circulation filtering mechanism are arranged in the shell;
the shell comprises a top plate and a bottom plate, and an annular side plate is arranged between the edge positions of the top plate and the bottom plate;
the aerosol capturing mechanism comprises an air duct arranged at the front end of the annular side plate, one end of the air duct is arranged inside the cavity shell, the other end of the air duct penetrates out of the annular side plate to be arranged outside the cavity shell, a fan is arranged inside the shell, and the fan is communicated with the air duct; an adsorption pipe network is arranged in the air duct;
the internal circulation filtering mechanism comprises a circulating water pump arranged in the shell and on the bottom plate, a water inlet end of the circulating water pump is provided with a liquid inlet pipe, a free end of the liquid inlet pipe penetrates through the air duct and is communicated with one side of the adsorption pipe network, a water outlet end of the circulating water pump is provided with a liquid outlet pipe, and a free end of the liquid outlet pipe penetrates through the air duct and is communicated with the other side of the adsorption pipe network;
the adsorption pipe network is used for communicating the liquid inlet pipe with the liquid outlet pipe to form a circulating pipe body;
be provided with 200nm filter membrane on the feed liquor pipe, be provided with the milipore filter on the drain pipe, a plurality of through-holes that run through have been seted up corresponding to the body both sides of adsorption pipe network, the body inboard of adsorption pipe network is provided with the semipermeable membrane.
The utility model has the specific characteristics that:
a liquid injection pipe is arranged at one side of the liquid inlet pipe, which is close to the air duct, and the end part of the liquid injection pipe penetrates through the annular side plate and is arranged outside the shell;
the drain pipe is close to one side of the circulating water pump and is provided with a drain pipe, and the end part of the drain pipe penetrates through the annular side plate and is arranged outside the shell.
Preferably, positive and negative electrode plates are respectively arranged on the inner walls of the upper side and the lower side of the air duct, a storage battery is arranged in the shell, and the positive and negative electrode plates are connected with the storage battery;
the fan and the circulating water pump are connected with the storage battery, and are provided with control switches for independently controlling the positive and negative plates, the fan and the circulating water pump;
when the aerosol is captured, the positive and negative plate switch and the fan can be opened, air enters the air guide cylinder due to the suction effect of the fan, under the condition of conduction, the negative electrode plate is excited to generate electrons, the electrons endow the aerosol with negative charge, the aerosol is adsorbed on the positive electrode plate, the front end of the air guide cylinder can be sealed after the collection is completed, the positive and negative electrodes are kept continuously electrified, the positive and negative electrode plates are changed to different positions for capturing and collecting the aerosol, after the collection is completed, the positive and negative plate switch is closed, the fan is started, and the aerosol on the positive electrode plate is adsorbed on the semipermeable membrane through the suction of the fan, and then the next detection is carried out.
The adsorption pipe network comprises vertical pipes arranged at the left side and the right side of the inside of the air duct, a plurality of branch transverse pipes are arranged between the vertical pipes at the two sides, and a plurality of through air holes are correspondingly formed at the two sides of the branch transverse pipes;
and semipermeable membranes are arranged at the inner sides of the tube bodies of the branch transverse tubes.
The 200nm filter membrane is far away from one side of the circulating water pump, a rectangular inserting cylinder is arranged on the liquid inlet pipe, one end of the rectangular inserting cylinder is communicated with the inside of the liquid inlet pipe, and the other end of the rectangular inserting cylinder penetrates through the annular side plate and is arranged outside the shell.
The liquid injection pipe, the liquid discharge pipe and the rectangular insertion cylinder are provided with sealing covers at the ends.
The liquid inlet pipe and the liquid outlet pipe are respectively provided with a U-shaped slot with an open top, and the U-shaped slots on two sides are respectively communicated with the liquid inlet pipe and the liquid outlet pipe;
a pair of U-shaped plugboards are arranged in the U-shaped slot, corresponding through holes are formed in the pair of U-shaped plugboards, the 200nm filter membrane is arranged between the pair of U-shaped plugboards on the liquid inlet pipe, and the ultrafiltration membrane is arranged between the pair of U-shaped plugboards on the liquid outlet pipe;
when the 200nm filter membrane and the ultrafiltration membrane are replaced, the U-shaped plugboard can be pulled out, the filter membrane is cut to a certain size, the cut filter membrane is clamped between a pair of U-shaped plugboards, and then the pair of U-shaped plugboards are inserted into the corresponding U-shaped slots;
a plurality of inserting posts are arranged at the top of the U-shaped inserting plate on one side, a plurality of corresponding inserting holes are formed in the U-shaped inserting plate on the other side, and the inserting posts are arranged in the inserting holes, so that transverse limit is formed on the U-shaped inserting plate;
when the capturing device is cleaned, the 200nm filter membrane and the ultrafiltration membrane can be firstly taken down, the U-shaped plugboard is inserted and reset, then the liquid injection pipe and the liquid discharge pipe are opened, liquid in the circulating pipe flows out of the liquid discharge pipe, then the liquid discharge pipe is closed, clean cleaning liquid is injected into the liquid injection pipe, the circulating water pump is started to carry out circulating flushing, and finally the cleaning liquid is emptied.
A sealing ring is arranged at the edge position of the top of the U-shaped plugboard, and a groove is formed in the side surface of the top of the U-shaped plugboard;
and the sealing ring is arranged to ensure the tightness of the U-shaped slot.
The detection method comprises the following steps of;
s1, firstly, starting the fan, enabling air to flow to the adsorption pipe network along the air guide cylinder, and adsorbing partial aerosol, dust and other substances in the air on the semipermeable membrane;
preferably, the semipermeable membrane adopts a 0.25nm filter membrane;
s2, closing the fan, opening the liquid injection pipe, injecting filtered liquid into the circulating pipe, closing the liquid injection pipe, starting the circulating water pump, enabling the circulating water pump to drive liquid in the circulating pipe to flow, keeping away by using a semi-permeable membrane when the liquid flows through the adsorption pipe network, enabling viruses and part of dust in aerosol to enter the circulating pipe body, and then performing circulating filtration through a 200nm filter membrane on the liquid inlet pipe and an ultrafiltration membrane on the liquid outlet pipe;
in the circulation process, a 200nm filter membrane on the liquid inlet pipe can isolate viruses in liquid at the front side (below the rectangular insertion cylinder) of the 200nm filter membrane, and an ultrafiltration membrane on the liquid outlet pipe can filter tiny pathogens, so that the accuracy of later detection is ensured;
s3, after the filtration is completed, the circulating water pump is closed, the rectangular insertion cylinder is opened vertically upwards, and test paper is inserted into the circulating pipe body through the rectangular insertion cylinder for detection;
s4, reading the detection result.
The beneficial effects of the utility model are as follows: the aerosol can capture the aerosol of the African swine fever on the one hand, and can rapidly detect viruses.
Drawings
Fig. 1 is a schematic structural diagram of an embodiment of the present utility model.
Fig. 2 is a schematic diagram of an internal structure of an embodiment of the present utility model.
Fig. 3 is a schematic structural diagram of an embodiment of the present utility model.
Fig. 4 is a schematic structural diagram of an embodiment of the present utility model.
Fig. 5 is a schematic view illustrating an internal structure of a branching cross pipe according to an embodiment of the present utility model.
FIG. 6 is a schematic diagram illustrating an internal structure of a U-shaped slot according to an embodiment of the present utility model
Wherein, the reference numerals are as follows: 1. a housing; 2. an air duct; 3. a blower; 4. an adsorption pipe network; 401. a standpipe; 402. a branch transverse pipe; 403. a through hole; 404. a semipermeable membrane; 5. a circulating water pump; 6. a liquid inlet pipe; 7. a liquid injection pipe; 8. a liquid outlet pipe; 9. a liquid discharge pipe; 10. a U-shaped slot; 11. a U-shaped plugboard; 1101. a through hole; 12. a rectangular insertion barrel; 13. a positive electrode sheet; 14. a negative electrode sheet; 15. an ultrafiltration membrane; 16. a groove; 17. inserting a column; 18. and a jack.
Detailed Description
In order to clearly illustrate the technical characteristics of the scheme, the scheme is explained below through a specific embodiment.
Referring to fig. 1-6, an active capturing device of african swine fever aerosol comprises a cavity shell 1, an aerosol capturing mechanism and an internal circulation filtering mechanism, wherein the aerosol capturing mechanism and the internal circulation filtering mechanism are arranged inside the shell 1;
the shell 1 comprises a top plate and a bottom plate, and an annular side plate is arranged between the edge positions of the top plate and the bottom plate;
the aerosol capturing mechanism comprises an air duct 2 arranged at the front end of the annular side plate, one end of the air duct 2 is arranged inside the cavity shell 1, the other end of the air duct 2 penetrates out of the annular side plate to be arranged outside the cavity shell 1, a fan 3 is arranged inside the shell 1, and the fan 3 is communicated with the air duct 2;
an adsorption pipe network 4 is arranged in the air duct 2;
the internal circulation filtering mechanism comprises a circulating water pump 5 arranged in the shell 1 and on the bottom plate, a water inlet end of the circulating water pump 5 is provided with a liquid inlet pipe 6, a free end of the liquid inlet pipe 6 passes through the air duct 2 to be communicated with one side of the adsorption pipe network 4, a water outlet end of the circulating water pump 5 is provided with a liquid outlet pipe 8, and a free end of the liquid outlet pipe 8 passes through the air duct 2 to be communicated with the other side of the adsorption pipe network 4;
the adsorption pipe network 4 is used for communicating the liquid inlet pipe 6 with the liquid outlet pipe 8 to form a circulating pipe body;
be provided with 200nm filter membrane on feed liquor pipe 6, be provided with milipore filter 15 on the drain pipe 8, a plurality of through-holes 1101 that run through have been seted up correspondingly to the body both sides of adsorption pipe network 4, and the body inboard of adsorption pipe network 4 is provided with semipermeable membrane 404.
The liquid inlet pipe 6 is provided with a liquid injection pipe 7 at one side close to the air duct 2, and the end part of the liquid injection pipe 7 passes through the annular side plate and is arranged outside the shell 1;
the drain pipe 8 is provided with fluid-discharge tube 9 near circulating water pump 5 one side, and fluid-discharge tube 9 tip passes annular curb plate setting in casing 1 outside.
Preferably, the inner walls of the upper side and the lower side of the air duct 2 are respectively provided with a positive electrode plate, a storage battery is arranged in the shell 1, and the positive electrode plates are connected with the storage battery;
the fan 3 and the circulating water pump 5 are connected with the storage battery and are provided with control switches for independently controlling the positive and negative plates, the fan 3 and the circulating water pump 5;
when the aerosol is captured, the positive and negative pole piece switch and the fan 3 can be opened, air enters the air guide cylinder 2 due to the suction effect of the fan 3, under the condition of conduction, the negative pole electrode piece 14 is excited to generate electrons, the electrons endow the aerosol with negative charge, the aerosol is adsorbed on the positive pole electrode piece 13, the front end of the air guide cylinder 2 can be sealed after the collection is completed, the positive and negative electrodes are kept continuously electrified, the positive and negative pole piece switch is changed to different positions for capturing and collecting the aerosol, after the collection is completed, the positive and negative pole piece switch is closed, the fan 3 is started, and the aerosol on the positive pole electrode piece 13 is adsorbed on the semi-permeable membrane 404 through the suction of the fan 3, and then the next detection is carried out.
The adsorption pipe network 4 comprises vertical pipes 401 arranged at the left side and the right side inside the air duct 2, a plurality of branch transverse pipes 402 are arranged between the vertical pipes 401 at the two sides, and a plurality of through air holes 403 are correspondingly formed at the two sides of the plurality of branch transverse pipes 402;
the inner side of the tube body of the plurality of branch transverse tubes 402 is provided with a semipermeable membrane 404.
A rectangular inserting cylinder 12 is arranged on one side, far away from the circulating water pump 5, of the 200nm filter membrane and on the liquid inlet pipe 6, one end of the rectangular inserting cylinder 12 is communicated with the inside of the liquid inlet pipe 6, and the other end of the rectangular inserting cylinder 12 penetrates through the annular side plate and is arranged outside the shell 1.
The ends of the liquid injection pipe 7, the liquid discharge pipe 9 and the rectangular insertion cylinder 12 are provided with sealing covers.
The liquid inlet pipe 6 and the liquid outlet pipe 8 are respectively provided with a U-shaped slot 10 with an open top, and the U-shaped slots 10 on two sides are respectively communicated with the liquid inlet pipe 6 and the liquid outlet pipe 8;
a pair of U-shaped plugboards 11 are arranged in the U-shaped slot 10, corresponding through holes 1101 are formed in the pair of U-shaped plugboards 11, a 200nm filter membrane is arranged between the pair of U-shaped plugboards 11 on the liquid inlet pipe 6, and an ultrafiltration membrane 15 is arranged between the pair of U-shaped plugboards 11 on the liquid outlet pipe 8;
when the 200nm filter membrane and the ultrafiltration membrane 15 are replaced, the U-shaped plugboard 11 can be pulled out, the filter membrane is cut to a certain size, the cut filter membrane is clamped between the pair of U-shaped plugboards 11, and then the pair of U-shaped plugboards 11 are inserted into the corresponding U-shaped slots 10;
the top of the U-shaped plugboard 11 on one side is provided with a plurality of plugposts 17, the U-shaped plugboard 11 on the other side is provided with a plurality of corresponding jacks 18, and the plugposts 17 are arranged in the jacks 18, so that transverse limit is formed on the U-shaped plugboard 11;
when the capturing device is cleaned, the 200nm filter membrane and the ultrafiltration membrane 15 can be firstly removed, the U-shaped insertion plate 11 is inserted and reset, then the liquid injection pipe 7 and the liquid discharge pipe 9 are opened, liquid in the circulating pipe body flows out from the liquid discharge pipe 9, then the liquid discharge pipe 9 is closed, clean cleaning liquid is injected into the liquid injection pipe 7, the circulating water pump 5 is started for circulating flushing, and finally the cleaning liquid is emptied.
A sealing ring is arranged at the edge of the top of the U-shaped plugboard 11, and a groove 16 is arranged on the side surface of the top of the U-shaped plugboard 11;
by being arranged on the sealing ring, the tightness of the U-shaped slot 10 is ensured.
The detection method comprises the following steps of;
s1, firstly, starting a fan 3, enabling air to flow to an adsorption pipe network 4 along an air duct 2, and adsorbing partial aerosol, dust and other substances in the air on a semipermeable membrane 404;
preferably, the semipermeable membrane 404 employs a 0.25nm filter;
s2, closing a fan 3, opening a liquid injection pipe 7, injecting filtered liquid into a circulating pipe body, then closing the liquid injection pipe 7, starting a circulating water pump 5, enabling the circulating water pump 5 to drive liquid in the circulating pipe body to flow, keeping away by a semipermeable membrane 404 when the liquid flows through an adsorption pipe network 4, enabling viruses and part of dust in aerosol to enter the circulating pipe body, and then performing circulating filtration through a 200nm filter membrane on a liquid inlet pipe 6 and an ultrafiltration membrane 15 on a liquid outlet pipe 8;
in the circulation process, a 200nm filter membrane on the liquid inlet pipe 6 can isolate viruses in liquid at the front side (below the rectangular insertion barrel 12) of the 200nm filter membrane, and an ultrafiltration membrane 15 on the liquid outlet pipe 8 can filter tiny pathogens, so that the accuracy of later detection is ensured;
s3, after the filtration is completed, the circulating water pump 5 is closed, the rectangular inserting cylinder 12 is opened vertically upwards, and test paper is inserted into the circulating pipe body through the rectangular inserting cylinder 12 for detection;
s4, reading the detection result.
The technical features of the present utility model that are not described in the present utility model may be implemented by or using the prior art, and are not described in detail herein, but the above description is not intended to limit the present utility model, and the present utility model is not limited to the above examples, but is also intended to be within the scope of the present utility model by those skilled in the art.
Claims (7)
1. The active capturing device for the African swine fever aerosol is characterized by comprising a cavity shell, an aerosol capturing mechanism and an internal circulation filtering mechanism, wherein the aerosol capturing mechanism and the internal circulation filtering mechanism are arranged in the shell;
the shell comprises a top plate and a bottom plate, and an annular side plate is arranged between the edge positions of the top plate and the bottom plate;
the aerosol capturing mechanism comprises an air duct arranged at the front end of the annular side plate, one end of the air duct is arranged inside the cavity shell, the other end of the air duct penetrates out of the annular side plate to be arranged outside the cavity shell, a fan is arranged inside the shell, and the fan is communicated with the air duct;
an adsorption pipe network is arranged in the air duct;
the internal circulation filtering mechanism comprises a circulating water pump arranged in the shell and on the bottom plate, a water inlet end of the circulating water pump is provided with a liquid inlet pipe, a free end of the liquid inlet pipe penetrates through the air duct and is communicated with one side of the adsorption pipe network, a water outlet end of the circulating water pump is provided with a liquid outlet pipe, and a free end of the liquid outlet pipe penetrates through the air duct and is communicated with the other side of the adsorption pipe network;
the adsorption pipe network is used for communicating the liquid inlet pipe with the liquid outlet pipe to form a circulating pipe body;
be provided with 200nm filter membrane on the feed liquor pipe, be provided with the milipore filter on the drain pipe, a plurality of through-holes that run through have been seted up corresponding to the body both sides of adsorption pipe network, the body inboard of adsorption pipe network is provided with the semipermeable membrane.
2. The active capturing device of african swine fever aerosol according to claim 1, wherein a liquid injection pipe is arranged on one side of the liquid inlet pipe, which is close to the air duct, and the end part of the liquid injection pipe passes through the annular side plate and is arranged outside the shell;
the drain pipe is close to one side of the circulating water pump and is provided with a drain pipe, and the end part of the drain pipe penetrates through the annular side plate and is arranged outside the shell.
3. The active capturing device of african swine fever aerosol according to claim 1, wherein the adsorption pipe network comprises vertical pipes arranged on the left side and the right side inside the air duct, a plurality of branch transverse pipes are arranged between the vertical pipes on the two sides, and a plurality of through holes are correspondingly formed on the two sides of the branch transverse pipes;
and semipermeable membranes are arranged at the inner sides of the tube bodies of the branch transverse tubes.
4. The active capturing device of African swine fever aerosol according to claim 2, wherein a rectangular insertion tube is arranged on one side of the 200nm filter membrane away from the circulating water pump and on the liquid inlet tube, one end of the rectangular insertion tube is communicated with the inside of the liquid inlet tube, and the other end of the rectangular insertion tube penetrates through the annular side plate and is arranged outside the shell.
5. The active capturing device of african swine fever aerosol according to claim 4, wherein the liquid injection tube, the liquid discharge tube and the rectangular socket end are provided with sealing caps.
6. The active capturing device of african swine fever aerosol according to claim 1, wherein the liquid inlet pipe and the liquid outlet pipe are respectively provided with a U-shaped slot with an open top, and the U-shaped slots on two sides are respectively communicated with the liquid inlet pipe and the liquid outlet pipe;
a pair of U-shaped inserting plates are arranged in the U-shaped inserting grooves, a pair of corresponding through holes are formed in the U-shaped inserting plates, the 200nm filter membrane is arranged between the pair of U-shaped inserting plates on the liquid inlet pipe, and the ultrafiltration membrane is arranged between the pair of U-shaped inserting plates on the liquid outlet pipe.
7. The active capturing device of african swine fever aerosol according to claim 6, wherein a sealing ring is arranged at the top edge position of the U-shaped plugboard, and a groove is arranged at the top side surface of the U-shaped plugboard.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321236835.8U CN220525435U (en) | 2023-05-19 | 2023-05-19 | Active capturing device for African swine fever aerosol |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321236835.8U CN220525435U (en) | 2023-05-19 | 2023-05-19 | Active capturing device for African swine fever aerosol |
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Publication Number | Publication Date |
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CN220525435U true CN220525435U (en) | 2024-02-23 |
Family
ID=89930861
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202321236835.8U Active CN220525435U (en) | 2023-05-19 | 2023-05-19 | Active capturing device for African swine fever aerosol |
Country Status (1)
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CN (1) | CN220525435U (en) |
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2023
- 2023-05-19 CN CN202321236835.8U patent/CN220525435U/en active Active
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