CN115535416B

CN115535416B - Soil remediation improves microbial inoculum transport container

Info

Publication number: CN115535416B
Application number: CN202211502931.2A
Authority: CN
Inventors: 孙玲丽; 王巍翰; 孙茂旭; 王心选; 姚振领
Original assignee: Kali Yantai Agricultural Development Co ltd
Current assignee: Kali Yantai Agricultural Development Co ltd
Priority date: 2022-11-29
Filing date: 2022-11-29
Publication date: 2023-01-31
Anticipated expiration: 2042-11-29
Also published as: CN115535416A

Abstract

The invention belongs to the technical field of transport containers, and particularly relates to a transport container for a soil remediation and improvement microbial inoculum; comprises a frame and a capacity adjusting mechanism; the capacity adjusting mechanism comprises horizontal partition plates, the capacity adjusting mechanism divides the internal capacity of the frame by adjusting the distance between the adjacent horizontal partition plates, and then the capacity adjusting mechanism is matched with the size of the microbial inoculum bottle to fix the microbial inoculum bottle, the microbial inoculum bottle is cylindrical, square and the like, the capacity adjusting mechanism can adapt to the cylindrical or square microbial inoculum bottle, and the application range of the capacity adjusting mechanism is further improved; so that more shaped bacteria agent bottles can be fixed; and then the shaking and dumping conditions of the microbial inoculum bottle are reduced, the overflow and leakage conditions of the soil remediation and improvement microbial inoculum are reduced, and the transportation quality is improved.

Description

Soil remediation improves microbial inoculum transport container

Technical Field

The invention belongs to the technical field of transport containers, and particularly relates to a soil remediation and improvement microbial inoculum transport container.

Background

Soil remediation refers to the process of absorbing and converting pollutants in soil to reduce the concentration of the pollutants to an acceptable level or converting toxic and harmful pollutants into harmless substances by using various physical, chemical and biological methods; various improving microbial agents are generally needed in the soil remediation process;

when the soil is repaired by using the soil repairing and improving microbial inoculum, the improving microbial inoculum is usually filled in a microbial inoculum bottle, and then the microbial inoculum is transported to a specific place through a transporting microbial inoculum bottle;

when the soil remediation and improvement microbial inoculum is transported, the soil remediation and improvement microbial inoculum is often placed in a microbial inoculum bottle for bottling or placed in a packaging bag for bagging, and then the soil remediation and improvement microbial inoculum is transported for a long distance, because the microbial inoculum bottles for packaging the soil remediation and improvement microbial inoculum are different in size, the transporting device and the microbial inoculum bottle are easy to loosen, and in the long-distance transportation process, particularly on a bumpy road section, the microbial inoculum bottle and the transporting device shake back and forth, even the microbial inoculum bottle topples over, so that the soil remediation and improvement microbial inoculum overflows and leaks, and the transportation quality is influenced;

the patent application discloses a drug conveying device for soil remediation and a using method thereof, the drug conveying device for soil remediation comprises a box body, a limiting groove is formed in the box body, a buckle device is arranged in the limiting groove, a bearing block is connected to the bottom end of the limiting groove in a sliding mode, the buckle device is composed of clamping rings, sliding rods, connecting blocks and first springs, the clamping rings are in a quarter-ring shape, the number of the clamping rings is four, the four clamping rings are distributed in an annular array, and one end of each clamping ring is fixedly connected with the sliding rod. According to the invention, through the matching action of the buckle device, the bearing block, the pull rope, the first pull ring, the second pull ring, the pull block and the pull rod, after the medicine bottle is placed in the limiting groove, the bearing block pulls the pull rope through the second pull ring, the pull rope pulls the pull block through the first pull ring, and the pull block further enables the buckle device to be shrunk through the pull rod and tightly attached to the medicine bottle, so that the medicine bottle is prevented from loosening and being protected from being damaged in bumping; "the following disadvantages exist in the above patent application: spacing groove and snap ring cross-section are circular, and above-mentioned patent application can only fix cylindric microbial inoculum bottle promptly, and in current microbial inoculum product, the reagent bottle of packing microbial inoculum has cylindricly, square body shape etc. to non-columniform microbial inoculum bottle, device in the above-mentioned patent application then can not carry out fine fixed to it, consequently makes above-mentioned patent application have a defect.

In view of the above, the present invention provides a soil remediation and improvement microbial inoculum transportation container to solve the above technical problems.

Disclosure of Invention

In order to make up for the defects of the prior art, the microbial inoculum bottle is fixed in the process of transporting the microbial inoculum bottle, so that the phenomenon that the microbial inoculum bottle bumps and leaks is reduced, the invention provides the soil remediation and improvement microbial inoculum transportation container.

The technical scheme adopted by the invention for solving the technical problems is as follows: a soil remediation and improvement inoculum transport container comprising: the top of the frame is provided with a bulge, and the bottom of the bulge is provided with a groove; the volume adjusting mechanism comprises horizontal partition plates, and the volume adjusting mechanism divides the internal volume of the frame by adjusting the distance between the adjacent horizontal partition plates, so that the volume adjusting mechanism is matched with the size of the microbial inoculum bottle to fix the microbial inoculum bottle;

the top of frame is provided with protruding bottom and is provided with the recess, and protruding and recess can match, and this setting has realized that a plurality of frames pile up and load again, and then has improved transportation quantity.

Preferably, the capacity adjustment mechanism includes: the sliding grooves are formed in the two inner side walls of the frame; the sliding blocks are arranged in the two sliding grooves, horizontal partition plates are arranged between the sliding blocks in the two sliding grooves, and a first air bag is fixedly arranged on each horizontal partition plate; the bellows is arranged in the sliding groove on the left side, the bellows, the side wall of the sliding groove and the sliding block form a closed space, a first channel and a second channel are formed in the sliding block on the left side, and each first air bag is communicated with the interior of the bellows through the first channel and the second channel; an air inlet is formed in the side wall of the frame and communicated with the interior of the corrugated pipe, and an inflating valve is fixedly arranged in the air inlet; the locking block is arranged in the sliding block on one side opposite to the corrugated pipe, and locking teeth are fixedly arranged on the side wall of the sliding groove.

Preferably, the horizontal partition plate close to the lower side wall of the frame is tightly attached to the lower side wall of the frame, and the sliding block positioned on the lower side is fixedly connected with the sliding groove; the top of the sliding block positioned at the lower right of the frame is fixedly provided with an electromagnet, the bottom of the sliding block positioned at the upper right of the frame is provided with an attraction block, the top of the sliding block positioned at the middle part of the right side of the frame is fixedly connected with the electromagnet, and the bottom of the sliding block is provided with the attraction block.

Preferably, the sliding block, the frame and the horizontal partition plate are all made of nonmagnetic materials; the suction block is connected with the sliding block in a sliding mode and is connected with the sliding block through a first spring, the locking block is connected with the sliding block in a sliding mode and is connected with the sliding block through a second spring, the suction block and the locking block are distributed at 90 degrees, and a first groove is formed in the suction block corresponding to the locking block;

when the air inlet needs to be filled with air, the air is inflated by external inflation equipment, such as an inflator; when the air inlet is inflated, the expansion degree of the first air bag can be observed manually, so that the first air bag is prevented from being excessively expanded to break the microbial inoculum bottle; the inflating valve is arranged at the air inlet, is similar to the inflating valve of a tire, namely a check valve, when the inflating equipment is pulled out, gas cannot leak, and certainly, when unloading is needed, the inflating valve can be firstly removed, so that the first air bag is contracted, and the unloading is facilitated;

the attraction block is made of magnetic materials, such as iron materials; the sliding block, the frame and the horizontal partition plate are all made of nonmagnetic materials, such as aluminum materials; when the electromagnet is activated, it is noted that: the starting of the electromagnets needs to be started from bottom to top in sequence, and the previous electromagnet needs to be powered off before the next electromagnet is powered on, so that the attraction block is prevented from extending out and being not influenced by other electromagnets;

the microbial inoculum bottle in the above can be cylindrical, cubic etc., can also be the pile up neatly of bagged microbial inoculum equally, and this setting can prevent the collapse of bagged microbial inoculum equally.

Preferably, a horizontal groove is formed in the top of the horizontal partition plate, a horizontal sliding block is connected in the horizontal groove in a sliding mode, and a vertical partition plate is arranged on the horizontal sliding block.

Preferably, horizontal baffle and sliding block, vertical baffle and horizontal slider are all can dismantle the connection.

Preferably, a closed space is formed between the sliding block and the horizontal sliding block on the same horizontal partition plate through a corrugated pipe, a third channel and a fourth channel are formed in the horizontal sliding block, a second air bag is fixedly arranged on the vertical partition plate, and the interior of the second air bag is communicated with the interior of the corrugated pipe in the horizontal groove through the third channel and the fourth channel.

Preferably, the middle part of the vertical partition plate consists of a corrugated pipe and is communicated with the interior of the corrugated pipe in the horizontal groove through a third channel and a fourth channel;

the horizontal partition plates and the sliding blocks, and the vertical partition plates and the horizontal sliding blocks are detachably connected, the detachable connection adopts a clamping type, and the detachable connection aims to ensure that when a microbial agent bottle with a larger specification needs to be placed in the frame, the capacity of the frame is influenced by the excessive number of the horizontal partition plates and the vertical partition plates, and at the moment, the horizontal partition plates or the vertical partition plates can be detached, so that the capacity of the frame is increased;

it should be noted that the horizontal partition plate and the vertical partition plate are both provided with holes corresponding to the second channel or the fourth channel, so that the flowability of the whole air is not influenced when the horizontal partition plate and the vertical partition plate are installed; when a certain horizontal partition plate or a certain vertical partition plate needs to be detached, the corresponding second channel or fourth channel can be blocked (preferably, a threaded plug is adopted) so as to ensure the integral air tightness; the microbial inoculum bottle can be cylindrical, cubic and the like, and can also be stacked mutually for bagged microbial inoculum.

The invention has the following beneficial effects:

1. according to the soil remediation and improvement microbial inoculum transportation container, the capacity adjusting mechanism is arranged and comprises the horizontal partition plates, the capacity adjusting mechanism is used for dividing the internal capacity of the frame by adjusting the distance between the adjacent horizontal partition plates, the internal capacity of the frame is further matched with the size of a microbial inoculum bottle, the microbial inoculum bottle is fixed, the microbial inoculum bottle is cylindrical, square and the like, the capacity adjusting mechanism can also adapt to the cylindrical or square microbial inoculum bottle, and the adaptation range of the capacity adjusting mechanism is further improved; so that more shaped bacteria agent bottles can be fixed; and then the shaking and dumping conditions of the microbial inoculum bottle are reduced, the overflow and leakage conditions of the soil remediation and improvement microbial inoculum are reduced, and the transportation quality is improved.

2. According to the soil remediation and improvement microbial inoculum transportation container, the horizontal partition plate is manually shifted to enable the sliding block corresponding to the horizontal partition plate to move in the sliding groove, and the horizontal partition plate tightly supports the microbial inoculum bottle to prevent the microbial inoculum bottle from loosening; by analogy, after each row of microbial inoculum bottles are arranged, the microbial inoculum bottles are tightly propped by the horizontal partition plate to prevent the microbial inoculum bottles from loosening; when the frame is filled with the microbial inoculum bottle, the air inlet is filled with gas through an external inflation device such as an inflator, the gas enters the first air bag through the corrugated pipe, the first channel and the second channel, the first air bag expands, and the expanded first air bag further tightly supports the microbial inoculum bottle to prevent the microbial inoculum bottle from loosening.

3. According to the soil remediation and improvement microbial inoculum transportation container, the electromagnets on the sliding blocks are sequentially started according to the sequence from bottom to top, and the sliding blocks on the lowest layer are fixed, so that the sliding blocks corresponding to the horizontal partition plates (except the lowest layer) are downwards attracted, and the horizontal partition plates are driven to downwards extrude microbial inoculum bottles, so that on one hand, manpower is saved, and on the other hand, the microbial inoculum bottles are further compacted; in this process, a spring extension, attract the piece downstream, this moment, a groove corresponds with the latch segment, no. two spring extensions resume deformation, and then the latch segment gets into an inslot, the latch segment separates with the locking tooth, make the sliding block can remove horizontal baffle promptly and can remove, do not influence the crowded tightly of horizontal baffle to the microbial inoculum bottle, when the electro-magnet outage, a spring resumes deformation shrink, a groove does not correspond with the latch segment, attract piece extrusion latch segment promptly, extrude No. two springs, make the latch segment contact with the locking tooth, accomplish the locking to sliding block (horizontal baffle), it is not hard up to prevent to support the horizontal baffle after tightly.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of another aspect of the present invention;

FIG. 3 is a perspective view of another aspect of the present invention;

FIG. 4 is a top view of the present invention;

FIG. 5 is a top cross-sectional view of the present invention;

fig. 6 is a partial enlarged view at a of fig. 5;

fig. 7 is a partially enlarged view at B of fig. 5;

fig. 8 is a partial enlarged view at C of fig. 5;

FIG. 9 is a perspective view of a horizontal partition of the present invention;

FIG. 10 is a perspective view of a vertical partition of the present invention.

In the figure: 1. a frame; 11. a protrusion; 12. a groove; 13. a sliding groove; 14. an air inlet; 15. an air valve; 2. a capacity adjusting mechanism; 21. a horizontal partition plate; 211. a first airbag; 212. a horizontal groove; 213. a horizontal slider; 214. channel three; 215. a channel four; 22. a slider; 221. a first channel; 222. a second channel; 223. a locking block; 224. a first spring; 225. a second spring; 23. a bellows; 24. a locking tooth; 25. an electromagnet; 26. an attraction block; 261. a first groove; 27. a vertical partition; 271. and a second airbag.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 and fig. 2, the soil remediation and improvement microbial inoculum transportation container of the present invention comprises: the frame comprises a frame 1, wherein the top of the frame 1 is provided with a bulge 11, and the bottom of the frame 1 is provided with a groove 12; the capacity adjusting mechanism 2, the capacity adjusting mechanism 2 include horizontal separators 21, and the capacity adjusting mechanism 2 realizes cutting apart frame 1 internal capacity through adjusting the distance between the adjacent horizontal separators 21, and then matches with the size of microbial inoculum bottle, realizes the fixed to the microbial inoculum bottle.

And the top of frame 1 is provided with protruding 11 bottoms and is provided with recess 12, and protruding 11 can match with recess 12, and this setting has realized that a plurality of frames 1 pile up and load again, and then has improved transportation quantity.

As one embodiment of the present invention, as shown in fig. 1, 3, 4, 5, and 6, the capacity adjustment mechanism 2 includes: the sliding grooves 13 are formed in the two inner side walls of the frame 1; the sliding blocks 22 are arranged in the two sliding grooves 13 respectively, horizontal partition plates 21 are arranged between the sliding blocks 22 in the two sliding grooves 13 corresponding to each other, and a first air bag 211 is fixedly arranged on each horizontal partition plate 21; as shown in fig. 5, the bellows 23 is arranged in the left sliding groove 13 of the bellows 23, the side wall of the sliding groove 13 and the sliding block 22 form a closed space, the left sliding block 22 is provided with a first channel 221 and a second channel 222, and each first airbag 211 is communicated with the inside of the bellows 23 through the first channel 221 and the second channel 222; an air inlet 14 is formed in the side wall of the frame 1, the air inlet 14 is communicated with the interior of the corrugated pipe 23, and an air valve 15 is fixedly arranged in the air inlet 14; a locking block 223 is arranged in the sliding block 22, the locking block 223 is arranged on one side opposite to the corrugated pipe 23 in the sliding groove 13, and a locking tooth 24 is fixedly arranged on the side wall of the sliding groove 13;

as shown in fig. 5 and 8, the horizontal partition 21 close to the lower side wall of the frame 1 is closely attached to the lower side wall of the frame 1, and the slide block 22 located at the lower side is fixedly connected to the slide groove 13; the top of the sliding block 22 positioned at the right lower part of the frame 1 is fixedly provided with an electromagnet 25, the bottom of the sliding block 22 positioned at the right upper part of the frame 1 is provided with an attraction block 26, the top of the sliding block 22 positioned at the right middle part of the frame 1 is fixedly connected with the electromagnet 25, and the bottom is provided with the attraction block 26;

as shown in fig. 8, the sliding block 22, the frame 1 and the horizontal partition 21 are made of non-magnetic material; the attraction block 26 is connected with the sliding block 22 in a sliding manner and connected with the sliding block 22 through a first spring 224, the locking block 223 is connected with the sliding block 22 in a sliding manner and connected with the sliding block 22 through a second spring 225, the attraction block 26 and the locking block 223 are distributed at 90 degrees, and a first groove 261 is formed in a position, corresponding to the locking block 223, of the attraction block 26.

When the device works, by taking fig. 5 as an example, the bacteria agent bottles are sequentially arranged from bottom to top of the frame 1, the bacteria agent bottles with the same specification are arranged in a line, and after the line is arranged, the horizontal partition plate 21 is manually shifted, so that the sliding block 22 corresponding to the horizontal partition plate moves in the sliding groove 13, and the horizontal partition plate 21 tightly supports the bacteria agent bottles to prevent the bacteria agent bottles from loosening; by analogy, after each row of the microbial inoculum bottles are arranged, the horizontal partition plate 21 tightly supports the microbial inoculum bottles to prevent the microbial inoculum bottles from loosening; after the bacteria agent bottle is fully placed in the frame 1, the air is filled into the air inlet hole 14 through an external inflation device, such as an inflator, and because the corrugated pipe 23, the side wall of the sliding groove 13 and the sliding block 22 form a closed space, the air enters the first air bag 211 through the corrugated pipe 23, the first channel 221 and the second channel 222, the first air bag 211 expands, and the expanded first air bag 211 further supports the bacteria agent bottle tightly to prevent the bacteria agent bottle from loosening; because the corrugated pipes 23 have the telescopic function, when the horizontal partition plate 21 drives the sliding block 22 to move, the corresponding corrugated pipes 23 stretch, and the sealing performance is not influenced; when the air inlet hole 14 is inflated, the expansion degree of the first air bag 211 can be observed manually, and the situation that the microbial inoculum bottle is broken due to the fact that the first air bag 211 is expanded too much is prevented; the air valve 15 is arranged at the air inlet hole 14, the air valve 15 is similar to the air valve 15 of a tire, namely a check valve, when the inflation equipment is pulled out, air cannot leak, and certainly, when unloading is needed, the air valve 15 can be firstly removed, so that the first air bag 211 is contracted, and the unloading is facilitated;

when the microbial inoculum bottles are arranged, the microbial inoculum bottles are manually extruded by the horizontal partition plates 21, so that the microbial inoculum bottles are fixed, in the process or after all the microbial inoculum bottles are arranged, the electromagnets 25 on each sliding block 22 can be sequentially started according to the sequence from bottom to top, and because the sliding blocks 22 on the lowest layer are fixed, when the electromagnets 25 on each sliding block 22 are sequentially started according to the sequence from bottom to top, because the attraction blocks 26 are arranged on each horizontal partition plate 21 (except the lowest layer), the attraction blocks 26 are made of magnetic materials, such as iron materials; the sliding block 22, the frame 1 and the horizontal partition 21 are made of non-magnetic materials, such as aluminum materials; the electromagnet 25 attracts the attraction block 26, so that the sliding block 22 corresponding to each horizontal partition plate 21 (except the lowest layer) is attracted downwards, and the horizontal partition plates 21 are driven to extrude the microbial agent bottles downwards, so that on one hand, the labor is saved, and on the other hand, the microbial agent bottles are further squeezed; in the process, the first spring 224 extends, the first spring 224 is fixedly connected with the attraction block 26 and the sliding block 22, so that the attraction block 26 moves downwards, at the moment, the first groove 261 corresponds to the locking block 223, the second spring 225 extends and recovers deformation, the locking block 223 enters the first groove 261, the locking block 223 is separated from the locking teeth 24, the sliding block 22 can move, namely, the horizontal partition plate 21 can move, the squeezing of the horizontal partition plate 21 on the microbial agent bottle is not influenced, when the electromagnet 25 is powered off, the first spring 224 recovers deformation and contracts, the first groove 261 does not correspond to the locking block 223, namely, the attraction block 26 squeezes the locking block 223 and squeezes the second spring 225, the locking block 223 is in contact with the locking teeth 24, the locking of the sliding block 22 (the horizontal partition plate 21) is completed, and the horizontal partition plate 21 after the squeezing is not loosened is prevented; it should be noted that the electromagnets 25 need to be sequentially started from bottom to top, and the previous electromagnet 25 needs to be powered off before the next electromagnet 25 is powered on, so as to avoid the attraction block 26 from being able to extend out and not being affected by the other electromagnets 25;

the microbial inoculum bottle in the above-mentioned can be for cylindrical, cubic etc. and the pile up neatly of bagged microbial inoculum equally, and this setting can prevent collapsing of bagged microbial inoculum equally.

As a specific embodiment of the present invention, as shown in fig. 9 and 10, a horizontal groove 212 is formed at the top of the horizontal partition 21, a horizontal slider 213 is slidably connected in the horizontal groove 212, and a vertical partition 27 is disposed on the horizontal slider 213;

the horizontal partition plate 21 and the sliding block 22, and the vertical partition plate 27 and the horizontal sliding block 213 are detachably connected;

as shown in fig. 7, a closed space is formed between the sliding block 22 and the horizontal sliding block 213 on the same horizontal partition 21 through the corrugated tube 23, a third channel 214 and a fourth channel 215 are opened on the horizontal sliding block 213, a second air bag 271 is fixedly arranged on the vertical partition 27, and the inside of the second air bag 271 is communicated with the inside of the corrugated tube 23 in the horizontal groove 212 through the third channel 214 and the fourth channel 215;

as shown in fig. 5, 7 and 10, the middle portion of the vertical partition 27 is composed of the bellows 23, and the vertical partition 27 communicates with the inside of the bellows 23 in the horizontal groove 212.

During operation, as shown in fig. 5, when the fungus agent bottles in each row are arranged, if fungus agent bottles with different sizes (different types) need to be arranged in the same row, a vertical partition plate 27 can be mounted on the horizontal sliding block 213, and the fungus agent bottles in the same row are extruded through the vertical partition plate 27, so that the stability of each fungus agent bottle in the same row is ensured, and of course, the fungus agent bottles in the same row with the same size and size can also be mounted with the vertical partition plate 27, so as to enhance the stability among the fungus agent bottles;

the horizontal partition plate 21 and the sliding block 22, and the vertical partition plate 27 and the horizontal sliding block 213 are detachably connected, the detachable connection adopts a snap-in type, and the detachable connection is set to aim at that when a microbial agent bottle with a larger specification needs to be placed in the frame 1, the capacity of the frame 1 is affected by the excessive number of the horizontal partition plate 21 and the vertical partition plate 27, and at the moment, the horizontal partition plate 21 or the vertical partition plate 27 can be detached, so that the capacity of the frame 1 is increased;

similarly, after the vertical partition plate 27 is installed, air enters the second air bag 271 through the first channel 221, the second channel 222, the third channel 214 and the fourth channel 215, the second air bag 271 expands to extrude the microbial inoculum bottle, and the fixing effect on the microbial inoculum bottle is further enhanced; the horizontal sliding block 213 can move (the movement of the horizontal sliding block 213 is that the horizontal sliding block 213 slides along the horizontal partition plate 21, when the horizontal sliding block 213 slides, the bellows 23 stretches, and a gap exists between the vertical partition plate 27 and the horizontal partition plate 21, when the first air bag 211 is not expanded, the gap can ensure that the first air bag 211 cannot block the movement of the vertical partition plate 27, and further cannot block the movement of the horizontal sliding block 213), the movement drives the vertical partition plate 27 to move, so as to ensure that the vertical partition plate 27 can support the microbial agent bottle, and similarly, the bellows 23 has elasticity, and when the horizontal sliding block 213 moves, the sealing performance of the horizontal sliding block 213 is not affected; because the distance between the upper and lower adjacent horizontal partition boards 21 may be different, the middle part of the vertical partition board 27 is composed of the corrugated pipe 23, and the corrugated pipe 23 can be stretched and contracted to adapt to different distances between the upper and lower adjacent horizontal partition boards 21, meanwhile, the corrugated pipe 23 is communicated with the interior of the corrugated pipe 23 in the horizontal groove 212 through a third channel 214 and a fourth channel 215, when gas is filled, the corrugated pipe 23 on the vertical partition board 27 can automatically expand and extend according to the filled gas, and further the self-adaption purpose is achieved;

it should be noted that the horizontal partition plate 21 and the vertical partition plate 27 are both provided with holes corresponding to the second channel 222 or the fourth channel 215, so that the whole air fluidity is not affected when the horizontal partition plate 21 and the vertical partition plate 27 are installed; when a certain horizontal partition 21 or vertical partition 27 needs to be removed, the corresponding second channel 222 or fourth channel 215 can be blocked (preferably by a threaded plug) to ensure the whole air tightness; the microbial inoculum bottle can be cylindrical, cubic and the like, and can also be stacked mutually for bagged microbial inoculum.

Claims

1. A soil remediation and improvement microbial inoculum transportation container, includes the box, the box includes: the frame (1), the top of the frame (1) is provided with a bulge (11), and the bottom of the frame (1) is provided with a groove (12);

the method is characterized in that:

the volume adjusting mechanism (2) comprises horizontal partition plates (21), and the volume adjusting mechanism (2) divides the internal volume of the frame (1) by adjusting the distance between the adjacent horizontal partition plates (21) so as to match the size of the microbial inoculum bottle and fix the microbial inoculum bottle;

the capacity adjustment mechanism (2) includes:

the sliding grooves (13) are formed in the two inner side walls of the frame (1);

the sliding blocks (22) are arranged in the two sliding grooves (13), a plurality of sliding blocks (22) are arranged in the two sliding grooves (13), horizontal partition plates (21) are arranged between the sliding blocks (22) corresponding to each other in the two sliding grooves (13), and a first air bag (211) is fixedly arranged on each horizontal partition plate (21);

the bellows (23), bellows (23) are arranged in the sliding groove (13) on the left side, a closed space is formed by the bellows (23), the side wall of the sliding groove (13) and the sliding block (22), a first channel (221) and a second channel (222) are formed in the sliding block (22) on the left side, and each first air bag (211) is communicated with the inside of the bellows (23) through the first channel (221) and the second channel (222); an air inlet (14) is formed in the side wall of the frame (1), the air inlet (14) is communicated with the interior of the corrugated pipe (23), and an air valve (15) is fixedly arranged in the air inlet (14);

the locking block (223), be provided with locking block (223) in sliding block (22), just locking block (223) set up in one side relative with bellows (23) in sliding tray (13), fixed locking tooth (24) that is provided with on the lateral wall of sliding tray (13).

2. The soil remediation and improvement microbial inoculum transport container of claim 1, wherein: a horizontal partition plate (21) close to the lower side wall of the frame (1) is tightly attached to the lower side wall of the frame (1), and a sliding block (22) positioned on the lower side is fixedly connected with the sliding groove (13); the top of the sliding block (22) positioned at the lower right of the frame (1) is fixedly provided with an electromagnet (25), the bottom of the sliding block (22) positioned at the upper right of the frame (1) is provided with an attraction block (26), the top of the sliding block (22) positioned at the middle part of the right side of the frame (1) is fixedly connected with the electromagnet (25), and the bottom is provided with the attraction block (26).

3. The soil remediation and improvement microbial inoculum transport container of claim 2, wherein: the sliding block (22), the frame (1) and the horizontal partition plate (21) are all made of nonmagnetic materials; inhale and draw piece (26) and sliding block (22) sliding connection and be connected with sliding block (22) through a spring (224), latch segment (223) and sliding block (22) sliding connection just are connected with sliding block (22) through No. two spring (225), inhale and draw piece (26) and latch segment (223) and be 90 degrees distributions, just the position that corresponds with latch segment (223) on inhaling piece (26) is provided with a groove (261).

4. The soil remediation and improvement microbial inoculum transport container of claim 3, wherein: horizontal groove (212) has been seted up at the top of horizontal baffle (21), sliding connection has horizontal slider (213) in horizontal groove (212), be provided with vertical baffle (27) on horizontal slider (213).

5. The soil remediation and improvement microbial inoculum transport container of claim 4, wherein: horizontal partition board (21) and sliding block (22), vertical partition board (27) and horizontal slider (213) are detachable connections.

6. The soil remediation and improvement microbial inoculum transport container of claim 5, wherein: a sealed space is formed between the sliding block (22) and the horizontal sliding block (213) on the same horizontal partition plate (21) through a corrugated pipe (23), a third channel (214) and a fourth channel (215) are formed in the horizontal sliding block (213), a second air bag (271) is fixedly arranged on the vertical partition plate (27), and the interior of the second air bag (271) is communicated with the interior of the corrugated pipe (23) in the horizontal groove (212) through the third channel (214) and the fourth channel (215).

7. The soil remediation and improvement microbial inoculum transport container of claim 6, wherein: the middle part of the vertical clapboard (27) is composed of a corrugated pipe (23), and the vertical clapboard (27) is communicated with the inside of the corrugated pipe (23) in the horizontal groove (212).