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CN-224211434-U - African swine fever virus detection kit with anti-pollution structure

CN224211434UCN 224211434 UCN224211434 UCN 224211434UCN-224211434-U

Abstract

The utility model relates to the technical field of a kit, in particular to an African swine fever virus detection kit with an anti-pollution structure, which comprises a kit main body, wherein accommodating cavities are formed in two sides of the kit main body, accommodating grooves are movably spliced in the accommodating cavities, each accommodating groove consists of a square plate at the end part and an accommodating part, a clamping hook is arranged at the end part of each accommodating part, a cavity is formed in the middle of the kit main body, openings are formed in the front side wall and the rear side wall of the kit main body, sealing covers are screwed at the openings, and a fixing mechanism for locking and releasing the accommodating grooves is arranged in the cavity. Be provided with a plurality of independent accommodation chamber, the holding tank in the accommodation chamber is arranged in holding reagent, possess good leakproofness, and the accommodation chamber is isolated each other with external environment, is difficult to receive the influence to mutually independent between the reagent, can not influence each other, each other ooze, and the holding tank is opened conveniently, seals stably, and is more convenient, safety during the use.

Inventors

  • CHEN LEI
  • ZHU BIN
  • LIU QING
  • SUN ZHIYONG
  • CHENG JING
  • LUO HUANDONG
  • ZHAO ZIYAN
  • LI WEIXIA

Assignees

  • 泰州蕾灵百奥生物科技有限公司

Dates

Publication Date
20260508
Application Date
20250730

Claims (6)

  1. 1. The African swine fever virus detection kit with the anti-pollution structure comprises a kit main body (1) and is characterized in that accommodating cavities are formed in two sides of the kit main body (1), accommodating grooves (2) are movably spliced in the accommodating cavities, each accommodating groove (2) is composed of a square plate at the end part and an accommodating part, a clamping hook (4) is arranged at the end part of each accommodating part, a cavity is formed in the middle of the kit main body (1), openings are formed in the front side wall and the rear side wall of the kit main body (1) and are in threaded connection with sealing covers (3) at the openings, and a fixing mechanism for locking and releasing the accommodating grooves (2) is arranged in the cavity.
  2. 2. The African swine fever virus detection kit with an anti-pollution structure according to claim 1, wherein the periphery of an opening of the accommodating cavity is inwards recessed, an end square plate of the accommodating groove (2) is embedded into the recess of the periphery of the opening of the accommodating cavity, a sealing groove is arranged in the recess, a sealing ring is arranged at the edge of the inner wall of the square plate, and the sealing ring and the sealing groove correspond to each other.
  3. 3. The African swine fever virus detection kit with an anti-pollution structure according to claim 1, wherein two groups of push springs (201) are arranged on two sides of the inner wall of the square plate at the end part of the accommodating groove (2), round holes corresponding to the push springs (201) are formed in the concave position of the opening of the accommodating cavity, and one ends of the push springs (201) are fixed in the round holes.
  4. 4. The African swine fever virus detection kit with an anti-pollution structure according to claim 1, wherein the fixing mechanism comprises an inner clamping column (5), the inner clamping column (5) is located above the clamping hook (4), the inner clamping column (5) is movably sleeved on a sliding rod, a compression spring (6) is connected to the top surface of the inner clamping column (5), the inner clamping column (5) is clamped on the clamping hook (4), and one side of the bottom of the inner clamping column (5) is of an inclined surface structure.
  5. 5. The African swine fever virus detection kit with an anti-pollution structure according to claim 4, wherein a side plate (7) is connected to one side wall of the inner clamping column (5), and a roller (8) is installed on the bottom surface of the side plate (7) in an embedded and rotating manner.
  6. 6. The African swine fever virus detection kit with an anti-pollution structure according to claim 4, wherein the fixing mechanism further comprises a sliding rail (9) fixedly arranged in the cavity, sliding plates (10) are slidably arranged in the sliding rails on two sides of the sliding rail (9), the sliding plates (10) are of a transverse T-shaped structure, the front end and the rear end of each sliding plate (10) are respectively connected with a connecting rod (12), two protruding blocks (11) are arranged on the upper surface of one end of each sliding plate (10) protruding out of the sliding rail, and the protruding blocks (11) and the idler wheels (8) correspond to each other.

Description

African swine fever virus detection kit with anti-pollution structure Technical Field The utility model relates to the technical field of kits, in particular to an African swine fever virus detection kit with an anti-pollution structure. Background African swine fever (AFRICAN SWINE FEVER, ASF) is a viral disease with high infectivity and lethality to pigs and brings very heavy impact to the global pig industry. According to the world animal health Organization (OIE) data, over 70 countries have reported african swine fever epidemic situation worldwide by 2023, and the mortality rate of viruses to pigs is up to 100%, which seriously threatens the stable development of pig industry. The rapid and accurate detection of African swine fever virus is important for epidemic prevention and control, and the African swine fever virus detection kit is generated, thereby becoming a key tool in prevention and control work. The existing detection kit is commonly used for ELISA, PCR, IFA and other technologies, but has the prominent problem of reagent pollution. The reagents in the current kit are mostly placed in the same space or have poor separation tightness, cross contamination is easy to occur in transportation and storage, and the reagents can mutually infiltrate when the temperature and humidity change occurs, so that false positive or false negative is detected. And the sealing performance is insufficient when the device is opened and closed, so that the device is easy to be polluted by the outside or the reagent is easy to oxidize and deteriorate, and once the pollution is caused, the whole use can be influenced, and the waste and delay are caused. Therefore, it is necessary to develop a kit which is pollution-proof, convenient to open and close and good in sealing performance. Disclosure of utility model The utility model aims to provide an African swine fever virus detection kit with an anti-pollution structure, which aims to solve the problems in the background technology. The African swine fever virus detection kit with the anti-pollution structure comprises a kit main body, wherein accommodating cavities are formed in two sides of the kit main body, accommodating grooves are movably inserted into the accommodating cavities, each accommodating groove consists of a square plate at the end part and an accommodating part, a clamping hook is arranged at the end part of each accommodating part, a cavity is formed in the middle of the kit main body, openings are formed in the front side wall and the rear side wall of the kit main body, sealing covers are screwed at the openings, and a fixing mechanism for locking and releasing the accommodating grooves is arranged in the cavity. Preferably, the periphery of the opening of the accommodating cavity is recessed inwards, the square plate at the end part of the accommodating groove is embedded into the recess around the opening of the accommodating cavity, a sealing groove is arranged at the recess, a sealing ring is arranged at the edge of the inner wall of the square plate, and the sealing ring and the sealing groove correspond to each other. Preferably, two groups of pushing springs are arranged on two sides of the inner wall of the square plate at the end part of the accommodating groove, round holes corresponding to the pushing springs are formed in the concave positions of the openings of the accommodating cavities, and one ends of the pushing springs are fixed in the round holes. Preferably, the fixing mechanism comprises an inner clamping column, the inner clamping column is located above the clamping hook, the inner clamping column is movably sleeved on a sliding rod, the top surface of the inner clamping column is connected with a compression spring, the inner clamping column is clamped on the clamping hook, and one side of the bottom of the inner clamping column is of an inclined surface structure. Preferably, a side plate is connected to one side wall of the inner clamping column, and a roller is installed on the bottom surface of the side plate in an embedded rotating manner. Preferably, the fixing mechanism further comprises a sliding rail fixedly installed in the cavity, sliding plates are slidably arranged in sliding ways on two sides of the sliding rail, the sliding plates are of a transverse T-shaped structure, the front end and the rear end of each sliding plate are respectively connected with a connecting rod, two protruding blocks are arranged on the upper surface of one end of each sliding plate protruding out of the sliding rail, and the protruding blocks and the idler wheels correspond to each other. Compared with the prior art, the utility model has the beneficial effects that: The African swine fever virus detection kit with the anti-pollution structure is provided with the independent accommodating cavities, the accommodating grooves in the accommodating cavities are used for accommodating reagents, good sealing performance is achieved, the