CN114137161B - Pesticide inactivation test box for weed control - Google Patents

Abstract

The invention relates to the field of inactivation, in particular to a pesticide inactivation test box for weed control, which comprises a test box body, a recovery fan and a second positioning structure, wherein the left end of the test box body is rotationally connected with a box door, a control panel is arranged above one side of the box door, a visible window is arranged in the middle of one side of the box door, a filter structure is arranged at the bottom end of the test box body, the filter structure comprises a filter bottom box, and the filter bottom box is connected with the test box body.

Description

Pesticide inactivation test box for weed control

Technical Field

The invention relates to the field of inactivation, in particular to a pesticide inactivation test box for weed control.

Background

Most pesticides are organic chemicals or inorganic chemicals, which are hardly decomposed at 100 ℃ because of failure only when decomposed, so that the inactivation effect is basically not existed, and only some protein pesticides such as BT emulsion, agricultural streptomycin, actinomycin and the like can be possibly inactivated, so that the main pesticide residues are mainly organophosphorus pesticides, carbamate pesticides and pyrethroid pesticides, and the alkaline solution is used for carrying out fire extinguishing treatment on the pesticides.

By patent search, there are the following known prior art solutions:

patent 1, application number (201510166019.8): the invention provides a log inactivating method, which comprises the steps of S1, arranging in a holding device for holding logs to be inactivated: the microwave generating device is used for heating the log and realizing inactivation by generating microwaves, and the temperature and humidity sensor is used for collecting temperature and humidity information in the accommodating device; s2, heating the log by the microwave generating device arranged in the step S1 and acquiring temperature and humidity information in real time by a temperature and humidity sensor; and S3, when the temperature and humidity information acquired in the step S2 reaches a stop value, closing the microwave generating device and the temperature and humidity sensor, and withdrawing the microwave generating device and the temperature and humidity sensor from the accommodating device.

However, the technical scheme has the following defects, so that the method is difficult to widely popularize and apply: the existing inactivation test box is directly stacked inside the test box body due to continuous evaporation of internal solution, when the box door is opened, the solution can be overflowed to the outside, meanwhile, the supporting layer inside the box body is fixed, due to the fact that the space of part of the supporting layer is narrow, the inactivation test box is inconvenient when the inactivated test product is taken and placed, and when the inactivation container is placed, the inactivation test box is directly placed above the supporting layer, and in case of collision and the like of the test box body, the problem that the fire extinguishing container on the internal supporting layer is inclined is easily caused, and the inside of the inactivation test box is easy to spill.

Disclosure of Invention

The technical problems to be solved by the technical proposal are as follows: the inactivation test box is directly stacked in the test box body due to continuous evaporation of the internal solution, and the solution overflows to the outside when the box door is opened.

In order to achieve the above purpose, the invention adopts the technical scheme that: a pesticide inactivation test box for weeds are administered, including test box body, recovery fan and second location structure, its characterized in that: the left end of test box rotates and is connected with the chamber door, one side top of chamber door is provided with control panel, one side middle part position of chamber door is provided with visual window, the bottom of test box is equipped with filtration, filtration includes the filtration end tank, and the filtration end tank is connected with the test box, the opposite side intercommunication of filtration end tank has the liquid feeding pipe, the internal connection of filtration end tank has the baffle, the inside of filtration end tank and baffle is held alkaline solution, one side top intercommunication of baffle has U type blast pipe, the inside of test box is equipped with bearing structure, bearing structure includes the slide rail frame, and the slide rail frame is connected with the test box, bearing structure's top is equipped with first location structure, first location structure includes first magnetic plate, the inside inactivating device that is provided with in top of test box.

The beneficial effects of this technical scheme are: according to the invention, through the arrangement of the filter bottom box, the liquid adding pipe, the partition plate and the U-shaped exhaust pipe, the arrangement is matched with the communication of the filter bottom box and the liquid adding pipe, the connection of the filter bottom box and the partition plate and the communication of the U-shaped exhaust pipe and the partition plate, evaporated gas is recycled into the filter bottom box below through the recycling fan, and is adsorbed and filtered when alkaline solution passes through between the partition plate and the filter bottom box, and is discharged from the U-shaped exhaust pipe to the experimental box body, so that the environment is not polluted.

The technical problems to be solved by the improvement of the technical scheme are as follows: the supporting layer inside the box body is fixed, and because the space of part of the supporting layer is relatively narrow, the taking and placing of the inactivated test article are very inconvenient.

In order to achieve the purpose, the invention creates the technical scheme adopted after improvement: the outside of slide rail frame has cup jointed first spring, and the one end and the test box of first spring are connected, the other end of first spring is connected with the slide pipe, and slide pipe and slide rail frame sliding connection, the bottom rotation of slide pipe is connected with the pulley, and pulley and slide rail frame sliding connection, the other end rotation of slide pipe is connected with the connecting axle, the other end rotation of connecting axle is connected with the support otter board, and supports the otter board and laminate with the slide pipe, the bottom left side of support otter board is connected with the card frame, and card frame and slide rail frame laminating.

The beneficial effects after this technical scheme improves are: according to the invention, through the sliding rail frame, the sliding pipe, the supporting screen plate and the connecting shaft, the sliding connection of the sliding rail frame and the sliding pipe, the rotary connection of the supporting screen plate and the transmission shaft and the rotary connection of the sliding pipe and the transmission shaft are matched, when a container is required to be taken and placed, the supporting screen plate is held to be directly pulled out, and the supporting screen plate is enabled to be slid outwards to be opened through the positioning of the sliding pipe and the connecting shaft, so that the container is very convenient to take and place.

The technical problems to be solved by the improvement of the technical scheme are as follows: after the support screen plate is directly pulled out from the inside of the experiment box body, as the front part of the support screen plate is not provided with supporting points, workers are required to hold the front half section of the support screen plate to support, and other operations are affected by the workers.

In order to achieve the purpose, the invention creates the technical scheme adopted after improvement: the bottom of slide rail frame has seted up the cross slot, the other end of slide rail frame is provided with the link, the bottom middle part position of link is connected with the locating lever.

The beneficial effects after this technical scheme improves are: according to the invention, when the support screen is pulled out from the inside of the experimental box body through the connecting frame and the positioning rod, the support screen is directly put on the positioning rod of the connecting frame to be obliquely supported, and the hands of a worker are liberated to perform other operations.

The technical problems to be solved by the improvement of the technical scheme are as follows: after the supporting screen plate is arranged to be in a sliding state, the supporting screen plate is easy to slide at will above the sliding rail frame, and the supporting of the container is not stable enough.

In order to achieve the purpose, the invention creates the technical scheme adopted after improvement: the right side of the supporting screen plate is connected with a magnetic back seat, and the other end of the magnetic back seat is connected with the test box body.

The beneficial effects after this technical scheme improves are: according to the invention, the supporting screen plate is pushed all the time when being retracted through the arranged magnetic backseat until the magnetic backseat on the supporting screen plate is adsorbed to the inner wall of the test box body to be positioned and stopped, so that the stability of the supporting screen plate is maintained.

The technical problems to be solved by the improvement of the technical scheme are as follows: the container is directly placed above the supporting layer, so that the problem that the fire extinguishing container on the internal supporting layer is inclined is easily caused once the test box body collides and the like, and the interior of the fire extinguishing container is easily spilled.

In order to achieve the purpose, the invention creates the technical scheme adopted after improvement: the top of the first magnetic plate is connected with a fixed plate, a vertical shaft is arranged at the top of the fixed plate, a limiting clamp is connected to the top of the vertical shaft, and the limiting clamp is arranged in an arc shape.

The beneficial effects after this technical scheme improves are: according to the invention, through the arrangement of the first magnetic plate, the fixed plate, the vertical shaft and the limiting clamp, the arrangement is matched with the connection of the first magnetic plate and the fixed plate and the connection of the vertical shaft and the limiting clamp, the container is placed between the vertical shafts above the fixed plate, the container is positioned on the fixed plate through the limiting clamp, and then the first magnetic plate is adsorbed on the supporting screen plate for positioning, so that the positioning effect of the container is enhanced, and the problem of inclination of the container when an experimental box collides is avoided.

The technical problems to be solved by the improvement of the technical scheme are as follows: when the limiting clamp is used for positioning the container, the problem that the container cannot be attached and clamped easily occurs due to different sizes of the container, and the practicability is poor.

In order to achieve the purpose, the invention creates the technical scheme adopted after improvement: the vertical shaft positioned on the right side is connected with the fixed plate, the bottom end of the vertical shaft positioned on the left end is connected with the sliding block, the top end of the fixed plate is provided with the sliding groove, one side of the sliding block is connected with the second spring, and the other end of the second spring is connected with the fixed plate.

The beneficial effects after this technical scheme improves are: according to the invention, after the container is placed in the middle of the vertical shaft through the sliding block and the second spring, the vertical shaft on one side approaches the container through the sliding block at the bottom end of the second spring to clamp and position the container, so that the containers with different sizes can be positioned, and the practicability is improved.

The technical problems to be solved by the improvement of the technical scheme are as follows: when placing the inactivation container, directly place the supporting layer top, in case the test box circumstances such as bump appear, lead to the problem that the container of putting out a fire on the inside supporting layer appears the slope very easily, inside spill easily.

In order to achieve the purpose, the invention creates the technical scheme adopted after improvement: the second positioning structure comprises an inactivation basin, the bottom end of the inactivation basin is connected with a base, a third magnetic plate is attached to the bottom end of the base, and one side of the third magnetic plate is connected with a pull rope.

The beneficial effects after this technical scheme improves are: according to the invention, the solution is placed into the inactivation basin through the inactivation basin, the base and the third magnetic plate, and is adsorbed onto the supporting screen plate through the third magnetic plate to be positioned, so that the problem that the inactivation basin is inclined when being collided is avoided.

The technical problems to be solved by the improvement of the technical scheme are as follows: the installation of the independent adsorption positioning structure is not flexible enough, and the partial splitting can not be carried out according to the inactivated experimental requirement.

In order to achieve the purpose, the invention creates the technical scheme adopted after improvement: the base is in a cavity shape, a second magnetic plate is connected to the inner side of the base in a sliding mode, the base is made of a plastic plate, and the inactivation basin is made of a glass plate.

The beneficial effects after this technical scheme improves are: according to the invention, through the base and the second magnetic plate, the base is matched with the second magnetic plate in sliding connection, when the inactivating basin needs to be disassembled to supplement the solution, the second magnetic plate is directly taken out from the cavity of the base, and the inactivating basin is taken down to be supplemented.

Drawings

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

FIG. 2 is a schematic view of the installation structure of the experimental box body of the invention;

FIG. 3 is a schematic view of the installation structure of the sliding rail frame of the present invention;

FIG. 4 is a schematic view of the structure of FIG. 1A according to the present invention;

FIG. 5 is a schematic view of the mounting structure of the limiting clip of the present invention;

FIG. 6 is a schematic view of the mounting structure of the inactivation basin of the present invention.

The character labels in the figures are as follows: 1. an experiment box body; 2. a door; 3. a control panel; 4. a visual window; 5. a filtering structure; 501. a filtration bottom box; 502. a liquid adding tube; 503. a partition plate; 504. an alkaline solution; 505. a U-shaped exhaust pipe; 6. a recovery fan; 7. a support structure; 701. a slide rail frame; 702. a connecting frame; 703. a positioning rod; 704. a first spring; 705. a slide tube; 706. a pulley; 707. a connecting shaft; 708. a support screen; 709. a clamping frame; 710. a magnetic backseat; 8. a first positioning structure; 801. a first magnetic plate; 802. a fixing plate; 803. a vertical shaft; 804. a limiting clamp; 805. a chute; 806. a slide block; 807. a second spring; 9. a second positioning structure; 901. inactivating the basin; 902. a base; 903. a second magnetic plate; 904. a third magnetic plate; 905. a pull rope; 10. an inactivating device.

Detailed Description

In order that those skilled in the art may better understand the technical solutions of the present invention, the following detailed description of the present invention with reference to the accompanying drawings is provided for exemplary and explanatory purposes only and should not be construed as limiting the scope of the present invention.

Example 1:

1-5, a pesticide inactivation test box for weeds is administered, including test box 1, recovery fan 6 and second location structure 9, the left end of test box 1 rotates and is connected with chamber door 2, one side top of chamber door 2 is provided with control panel 3, one side middle part position of chamber door 2 is provided with visual window 4, the bottom of test box 1 is equipped with filtration 5, filtration 5 includes filtration bed box 501, and filtration bed box 501 is connected with test box 1, filtration bed box 501's opposite side intercommunication has liquid feeding pipe 502, filtration bed box 501's inside is connected with baffle 503, filtration bed box 501 and baffle 503's inside contains alkaline solution 504, baffle 503's one side top intercommunication has U type blast pipe 505, test box 1's inside is equipped with bearing structure 7, bearing structure 7 includes slide rail frame 701, and slide rail frame 701 is connected with test box 1, bearing structure 7's top is equipped with first location structure 8, first location structure 8 includes first location board 801, and filtration bed box 501 and baffle 1 is connected with test box 1, the inside is connected with baffle 503, and the inside is stopped alkaline solution that the inside is filled with alkaline solution to the baffle 503, and the inside is stopped alkaline solution that the inside is stopped to the evaporation device is stopped to the inside to the evaporation device, and the inside is stopped at the baffle 503, and the inside is stopped at the baffle is connected with the baffle 1 to the inside of the filter bed box, and the inside is stopped by the baffle is stopped.

Example 2:

as a further optimization of the above embodiments, as shown in fig. 1-5: the utility model provides a pesticide inactivation test box for weeds are administered, includes test box 1, retrieves fan 6 and second location structure 9, the left end rotation of test box 1 is connected with chamber door 2, one side top of chamber door 2 is provided with control panel 3, one side middle part position of chamber door 2 is provided with visual window 4, the bottom of test box 1 is equipped with filtration 5, filtration 5 includes filtration underframe 501, and filtration underframe 501 is connected with test box 1, the opposite side intercommunication of filtration underframe 501 has liquid feeding pipe 502, the internally connected of filtration underframe 501 has baffle 503, the inside of filtration underframe 501 and baffle 503 is held alkaline solution 504, the one side top intercommunication of baffle 503 has U type blast pipe 505, the inside of test box 1 is equipped with bearing structure 7, bearing structure 7 includes slide rail frame 701, and slide rail frame 701 is connected with test box 1, the top of bearing structure 7 is equipped with first location structure 8, first location structure 8 includes first magnetic plate 801, the inside of filtration underframe 501 and baffle 503 is provided with 10. The outside of slide rail frame 701 has cup jointed first spring 704, and the one end of first spring 704 is connected with test box 1, the other end of first spring 704 is connected with slide tube 705, and slide tube 705 and slide rail frame 701 sliding connection, the bottom rotation of slide tube 705 is connected with pulley 706, and pulley 706 and slide rail frame 701 sliding connection, the other end rotation of slide tube 705 is connected with connecting axle 707, the other end rotation of connecting axle 707 is connected with support otter board 708, and support otter board 708 and slide tube 705 laminating, the bottom left side of support otter board 708 is connected with card frame 709, and card frame 709 and slide rail frame 701 laminating, opens chamber door 2, holds support otter board 708 and outwards draws, and the magnetism backseat 710 of support otter board 708 one side breaks away from the inner wall of test box 1, slides through the slide tube upper pulley 706 in the slide rail frame 701 outside simultaneously, moves and opens, stops moving when slide tube 705 moves to the connecting frame 702 department, and support otter board 705 slope location is on the locating lever, places the container on support otter board 708, places the support otter board 708, after placing, pushes into test box 1 again and can take very simply.

Example 3:

as a further optimization of the above embodiments, as shown in fig. 1-5: the utility model provides a pesticide inactivation test box for weeds are administered, includes test box 1, retrieves fan 6 and second location structure 9, the left end rotation of test box 1 is connected with chamber door 2, one side top of chamber door 2 is provided with control panel 3, one side middle part position of chamber door 2 is provided with visual window 4, the bottom of test box 1 is equipped with filtration 5, filtration 5 includes filtration underframe 501, and filtration underframe 501 is connected with test box 1, the opposite side intercommunication of filtration underframe 501 has liquid feeding pipe 502, the internally connected of filtration underframe 501 has baffle 503, the inside of filtration underframe 501 and baffle 503 is held alkaline solution 504, the one side top intercommunication of baffle 503 has U type blast pipe 505, the inside of test box 1 is equipped with bearing structure 7, bearing structure 7 includes slide rail frame 701, and slide rail frame 701 is connected with test box 1, the top of bearing structure 7 is equipped with first location structure 8, first location structure 8 includes first magnetic plate 801, the inside of filtration underframe 501 and baffle 503 is provided with 10. The outside of slide rail frame 701 has cup jointed first spring 704, and the one end of first spring 704 is connected with test box 1, the other end of first spring 704 is connected with slide tube 705, and slide tube 705 and slide rail frame 701 sliding connection, the bottom rotation of slide tube 705 is connected with pulley 706, and pulley 706 and slide rail frame 701 sliding connection, the other end rotation of slide tube 705 is connected with connecting axle 707, the other end rotation of connecting axle 707 is connected with support otter board 708, and support otter board 708 and slide tube 705 laminating, the bottom left side of support otter board 708 is connected with clamping frame 709, and clamping frame 709 and slide rail frame 701 laminating. The transverse groove is formed in the bottom end of the sliding rail frame 701, the connecting frame 702 is arranged at the other end of the sliding rail frame 701, the positioning rod 703 is connected to the middle position of the bottom end of the connecting frame 702, the front half section of the supporting net plate 708 is pulled out and then placed on the positioning rod 703 of the connecting frame 702 to support, and the supporting net plate 708 is prevented from losing support.

Example 4:

as a further optimization of the above embodiments, as shown in fig. 1-5: the utility model provides a pesticide inactivation test box for weeds are administered, includes test box 1, retrieves fan 6 and second location structure 9, the left end rotation of test box 1 is connected with chamber door 2, one side top of chamber door 2 is provided with control panel 3, one side middle part position of chamber door 2 is provided with visual window 4, the bottom of test box 1 is equipped with filtration 5, filtration 5 includes filtration underframe 501, and filtration underframe 501 is connected with test box 1, the opposite side intercommunication of filtration underframe 501 has liquid feeding pipe 502, the internally connected of filtration underframe 501 has baffle 503, the inside of filtration underframe 501 and baffle 503 is held alkaline solution 504, the one side top intercommunication of baffle 503 has U type blast pipe 505, the inside of test box 1 is equipped with bearing structure 7, bearing structure 7 includes slide rail frame 701, and slide rail frame 701 is connected with test box 1, the top of bearing structure 7 is equipped with first location structure 8, first location structure 8 includes first magnetic plate 801, the inside of filtration underframe 501 and baffle 503 is provided with 10. The right side of the supporting screen 708 is connected with a magnetic back seat 710, the other end of the magnetic back seat 710 is connected with the test box body 1, a container is placed on the supporting screen 708, and the magnetic back seat 710 on the supporting screen 708 is pushed to the inner wall of the test box body 1 for positioning and then is stopped.

Example 5:

as a further optimization of the above embodiments, as shown in fig. 1-5: the utility model provides a pesticide inactivation test box for weeds are administered, includes test box 1, retrieves fan 6 and second location structure 9, the left end rotation of test box 1 is connected with chamber door 2, one side top of chamber door 2 is provided with control panel 3, one side middle part position of chamber door 2 is provided with visual window 4, the bottom of test box 1 is equipped with filtration 5, filtration 5 includes filtration underframe 501, and filtration underframe 501 is connected with test box 1, the opposite side intercommunication of filtration underframe 501 has liquid feeding pipe 502, the internally connected of filtration underframe 501 has baffle 503, the inside of filtration underframe 501 and baffle 503 is held alkaline solution 504, the one side top intercommunication of baffle 503 has U type blast pipe 505, the inside of test box 1 is equipped with bearing structure 7, bearing structure 7 includes slide rail frame 701, and slide rail frame 701 is connected with test box 1, the top of bearing structure 7 is equipped with first location structure 8, first location structure 8 includes first magnetic plate 801, the inside of filtration underframe 501 and baffle 503 is provided with 10. The top of the first magnetic plate 801 is connected with a fixed plate 802, the top of the fixed plate 802 is provided with a vertical shaft 803, the top of the vertical shaft 803 is connected with a limiting clamp 804, the limiting clamp 804 is arranged in an arc shape, a proper amount of first magnetic plates 801 are taken out, a container containing a solution is placed in the middle of the vertical shaft 803 of the fixed plate, the container is clamped by the limiting clamp 804 to be positioned, and the first magnetic plates 801 are adsorbed onto the supporting net plate 708 to be positioned.

Example 6:

as a further optimization of the above embodiments, as shown in fig. 1-5: the utility model provides a pesticide inactivation test box for weeds are administered, includes test box 1, retrieves fan 6 and second location structure 9, the left end rotation of test box 1 is connected with chamber door 2, one side top of chamber door 2 is provided with control panel 3, one side middle part position of chamber door 2 is provided with visual window 4, the bottom of test box 1 is equipped with filtration 5, filtration 5 includes filtration underframe 501, and filtration underframe 501 is connected with test box 1, the opposite side intercommunication of filtration underframe 501 has liquid feeding pipe 502, the internally connected of filtration underframe 501 has baffle 503, the inside of filtration underframe 501 and baffle 503 is held alkaline solution 504, the one side top intercommunication of baffle 503 has U type blast pipe 505, the inside of test box 1 is equipped with bearing structure 7, bearing structure 7 includes slide rail frame 701, and slide rail frame 701 is connected with test box 1, the top of bearing structure 7 is equipped with first location structure 8, first location structure 8 includes first magnetic plate 801, the inside of filtration underframe 501 and baffle 503 is provided with 10. The vertical shaft 803 on the right side is connected with the fixed plate 802, the bottom end of the vertical shaft 803 on the left end is connected with a sliding block 806, the top end of the fixed plate 802 is provided with a sliding groove 805, one side of the sliding block 806 is connected with a second spring 807, the other end of the second spring 807 is connected with the fixed plate 802, after the container is placed in the middle of the vertical shaft 803, the vertical shaft 803 on one side pulls the sliding block 806 to slide towards the container through the second spring 807, and the container is positioned between the limiting clamps 804.

The staff pulls out the supporting screen 708 from the experiment box 1, add the medicament into the container, the supporting screen 708 is positioned on the positioning rod 703 of the connecting frame 702 for supporting, pull the vertical shaft 803 at one side, drive the bottom slider 806 to pull the second spring 807 to stretch in the sliding groove 805, leave a positioning space, place the container above the fixed plate 802, loosen the vertical shaft 803, the second spring 807 pulls the vertical shaft 803 to clamp the outside of the container, position the container via the limiting frames 804 at two sides, adsorb the first magnetic plate 801 fixed with the container on the supporting screen 708 for positioning, push the supporting screen 708 to push the sliding tube 705 to move outside the sliding rail frame 701 via the pulley 706 through the connecting shaft 707, receive the container, adsorb the magnetic backseat 710 on the supporting screen 708 on the experiment box 1, close the box door 2, open the experiment box 1, inactivate the device 10 start to inactivate, and filter the dispersed solution by the recovery fan into the filtering structure 5 below for filtering and then discharging.

Example 7:

fig. 6, as a further optimization of the above embodiment: the utility model provides a pesticide inactivation test box for weeds are administered, includes test box 1, retrieves fan 6 and second location structure 9, the left end rotation of test box 1 is connected with chamber door 2, one side top of chamber door 2 is provided with control panel 3, one side middle part position of chamber door 2 is provided with visual window 4, the bottom of test box 1 is equipped with filtration 5, filtration 5 includes filtration underframe 501, and filtration underframe 501 is connected with test box 1, the opposite side intercommunication of filtration underframe 501 has liquid feeding pipe 502, the internally connected of filtration underframe 501 has baffle 503, the inside of filtration underframe 501 and baffle 503 is held alkaline solution 504, the one side top intercommunication of baffle 503 has U type blast pipe 505, the inside of test box 1 is equipped with bearing structure 7, bearing structure 7 includes slide rail frame 701, and slide rail frame 701 is connected with test box 1, the top of bearing structure 7 is equipped with first location structure 8, first location structure 8 includes first magnetic plate 801, the inside of filtration underframe 501 and baffle 503 is provided with 10. The second positioning structure 9 comprises an inactivation basin 901, a base 902 is connected to the bottom end of the inactivation basin 901, a third magnetic plate 904 is attached to the bottom end of the base 902, a pull rope 905 is connected to one side of the third magnetic plate 904, a solution is filled into the inactivation basin 901, the third magnetic plate 904 is adsorbed onto the supporting net plate 708 for positioning, and the base 902 is mounted on the third magnetic plate 904.

Example 8:

fig. 6, as a further optimization of the above embodiment: the utility model provides a pesticide inactivation test box for weeds are administered, includes test box 1, retrieves fan 6 and second location structure 9, the left end rotation of test box 1 is connected with chamber door 2, one side top of chamber door 2 is provided with control panel 3, one side middle part position of chamber door 2 is provided with visual window 4, the bottom of test box 1 is equipped with filtration 5, filtration 5 includes filtration underframe 501, and filtration underframe 501 is connected with test box 1, the opposite side intercommunication of filtration underframe 501 has liquid feeding pipe 502, the internally connected of filtration underframe 501 has baffle 503, the inside of filtration underframe 501 and baffle 503 is held alkaline solution 504, the one side top intercommunication of baffle 503 has U type blast pipe 505, the inside of test box 1 is equipped with bearing structure 7, bearing structure 7 includes slide rail frame 701, and slide rail frame 701 is connected with test box 1, the top of bearing structure 7 is equipped with first location structure 8, first location structure 8 includes first magnetic plate 801, the inside of filtration underframe 501 and baffle 503 is provided with 10. The second positioning structure 9 comprises an inactivation basin 901, the bottom end of the inactivation basin 901 is connected with a base 902, a third magnetic plate 904 is attached to the bottom end of the base 902, and one side of the third magnetic plate 904 is connected with a pull rope 905. The base 902 is arranged in a cavity shape, the second magnetic plate 903 is slidably connected to the inner side of the base 902, the base 902 is made of a plastic plate, the inactivation basin 901 is made of a glass plate, and the second magnetic plate 903 in the base 902 can be directly removed to replace or supplement the inactivation basin 901.

The staff opens the chamber door 2 of the test chamber 1, holds the supporting net plate 708 and withdraws to the outside, firstly adsorbs the third magnetic plate 904 on the supporting net plate 708, places the base 902 of the inactivation basin 901 on the third magnetic plate 904, then places the second magnetic plate 903 in the base 902, adsorbs together through the second magnetic plate 903 and the third magnetic plate 904, and positions the inactivation basin.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The principles and embodiments of the present invention have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present invention and its core ideas. The foregoing is merely illustrative of the preferred embodiments of the invention, and it is noted that there is virtually no limit to the specific structure which may be imposed by those skilled in the art without departing from the spirit of the invention, and that modifications, adaptations, or variations of the foregoing features may be combined in a suitable manner; such modifications, variations and combinations, or the direct application of the inventive concepts and aspects to other applications without modification, are contemplated as falling within the scope of the present invention.

Claims (8)

1. A pesticide inactivation test case for weeds are administered which characterized in that: including test box (1), recovery fan (6) and second location structure (9), its characterized in that: the left end of test box (1) rotates and is connected with chamber door (2), one side top of chamber door (2) is provided with control panel (3), one side middle part position of chamber door (2) is provided with visual window (4), the bottom of test box (1) is equipped with filtration (5), filtration (5) are including filtering underframe (501), and filtration underframe (501) are connected with test box (1), the opposite side intercommunication of filtration underframe (501) has liquid feeding pipe (502), the internal connection of filtration underframe (501) has baffle (503), the inside of filtration underframe (501) and baffle (503) is held alkaline solution (504), one side top intercommunication of baffle (503) has U type blast pipe (505), the inside of test box (1) is equipped with bearing structure (7), bearing structure (7) are including slide rail frame (701), and slide rail frame (701) are connected with test box (1), the top of bearing structure (7) is equipped with first location structure (8), first location structure (8) are including first location device (801) top (10).

2. A pesticide inactivation test chamber for weed control as set forth in claim 1 wherein: the outside of slide rail frame (701) has cup jointed first spring (704), and the one end of first spring (704) is connected with test box (1), the other end of first spring (704) is connected with slide pipe (705), and slide pipe (705) and slide rail frame (701) sliding connection, the bottom rotation of slide pipe (705) is connected with pulley (706), and pulley (706) and slide rail frame (701) sliding connection, the other end rotation of slide pipe (705) is connected with connecting axle (707), the other end rotation of connecting axle (707) is connected with support otter board (708), and support otter board (708) laminating with slide pipe (705), the bottom left side of support otter board (708) is connected with cartridge (709), and cartridge (709) laminating with slide rail frame (701).

3. A pesticide inactivation test chamber for weed control as set forth in claim 1 wherein: the transverse groove is formed in the bottom end of the sliding rail frame (701), a connecting frame (702) is arranged at the other end of the sliding rail frame (701), and a positioning rod (703) is connected to the middle position of the bottom end of the connecting frame (702).

4. A pesticide inactivation test chamber for weed control as set forth in claim 2 wherein: the right side of the supporting screen plate (708) is connected with a magnetic back seat (710), and the other end of the magnetic back seat (710) is connected with the test box body (1).

5. A pesticide inactivation test chamber for weed control as set forth in claim 1 wherein: the top of first magnetic plate (801) is connected with fixed plate (802), the top of fixed plate (802) is equipped with vertical scroll (803), the top of vertical scroll (803) is connected with spacing clamp (804), and spacing clamp (804) are the arcuation setting.

6. A pesticide inactivation test chamber for weed control as set forth in claim 5 wherein: the vertical shaft (803) on the right side is connected with the fixed plate (802), the bottom end of the vertical shaft (803) on the left end is connected with a sliding block (806), a sliding groove (805) is formed in the top end of the fixed plate (802), one side of the sliding block (806) is connected with a second spring (807), and the other end of the second spring (807) is connected with the fixed plate (802).

7. A pesticide inactivation test chamber for weed control as set forth in claim 1 wherein: the second positioning structure (9) comprises an inactivation basin (901), the bottom end of the inactivation basin (901) is connected with a base (902), a third magnetic plate (904) is attached to the bottom end of the base (902), and a pull rope (905) is connected to one side of the third magnetic plate (904).

8. A pesticide inactivation test chamber for weed control as set forth in claim 7 wherein: the base (902) is arranged in a cavity shape, a second magnetic plate (903) is connected to the inner side of the base (902) in a sliding mode, the base (902) is made of a plastic plate, and the inactivation basin (901) is made of a glass plate.