CN115931463A

CN115931463A - Sampling device of edible fungus constant-temperature incubator and use method

Info

Publication number: CN115931463A
Application number: CN202310090498.4A
Authority: CN
Inventors: 徐兴梅; 杜颖; 于合龙; 苏祥宇; 李佳源; 杨大伟; 孙希官; 周磊
Original assignee: Jilin Agricultural University
Current assignee: Jilin Agricultural University
Priority date: 2023-02-09
Filing date: 2023-02-09
Publication date: 2023-04-07

Abstract

A sampling device of an edible fungus constant-temperature incubator and a using method thereof belong to the field of die fixing and limiting. Comprises an outer cylinder, a connecting pipe, an inner cylinder, a rubber plug, a control device and a power device; the lower end of the inner cylinder is fixedly connected with a rubber plug, the upper end of the inner cylinder is provided with a power device, and the inner cylinder and the rubber plug are arranged in the outer cylinder; the bottom end of the side surface of the outer cylinder is provided with a through hole I, and the bottom end of the side surface of the inner cylinder is provided with a through hole II; one end of the connecting pipe is fixedly connected to the outer side of the outer barrel, the other end of the connecting pipe is fixedly connected to the outer side of the inner barrel, and the through hole I and the through hole II are both communicated with the connecting pipe; a liquid inlet is formed in the bottom end of the outer barrel; the control device is arranged in the liquid inlet. The invention can not only ensure that the sample is not polluted in the process of dividing the sample into a plurality of samples after sampling, but also store the plurality of samples in the inner barrel, save the occupied space when carrying the sample and is easy to carry.

Description

Sampling device of edible fungus constant-temperature incubator and use method

Technical Field

The invention relates to a sampling device of an edible mushroom constant-temperature incubator and a using method thereof, belonging to the field of die fixing and limiting.

Background

The patent number is CN208223859U, the patent name is a utility model patent of a sampling device for edible fungus culture medium, when in use, although the rubber sleeve with a bowl-shaped structure can be buckled above the culture medium by holding the handle body, the pull ring is pulled to tighten the rubber sleeve to prevent the pollution in the sampling process; the handle body is rotated to enable the handle body and the sampling tube to descend and be inserted into the culture medium, and then the rotating handle is rotated to drive the threaded rod to pull the piston block to ascend for sampling; the sampling process is in a relatively closed environment, the culture medium is prevented from being polluted, and the detection is more accurate. However, after sampling, the sample is often divided into multiple parts for different tests, and the above patent cannot directly divide the sample into multiple parts, so that the sample is easily contaminated during the division into multiple parts, and therefore, the improvement is needed.

Disclosure of Invention

The invention aims to solve the problems in the background art and provides a sampling device of an edible fungus constant-temperature incubator and a using method thereof.

The invention achieves the purpose, and adopts the following technical scheme:

a sampling device of an edible fungus constant-temperature incubator comprises an outer cylinder, a connecting pipe, an inner cylinder, a rubber plug, a control device and a power device; the lower end of the inner cylinder is fixedly connected with a rubber plug, the upper end of the inner cylinder is provided with a power device, and the inner cylinder and the rubber plug are arranged inside the outer cylinder; the bottom end of the side surface of the outer cylinder is provided with a through hole I, and the bottom end of the side surface of the inner cylinder is provided with a through hole II; one end of the connecting pipe is fixedly connected to the outer side of the outer barrel, the other end of the connecting pipe is fixedly connected to the outer side of the inner barrel, and the through hole I and the through hole II are both communicated with the connecting pipe; a liquid inlet is formed in the bottom end of the outer barrel; the control device is arranged in the liquid inlet.

A use method of a sampling device of an edible fungus constant-temperature incubator comprises the following steps:

the method comprises the following steps: pulling the push plate to draw the culture solution into the outer cylinder;

step two: the push plate is pushed to drive the rubber plug to push the culture solution into the inner cylinder;

step three: and pulling the pull ring upwards to seal the culture solution at the lower end of the transverse plate.

Compared with the prior art, the invention has the beneficial effects that: the invention can not only ensure that the sample is not polluted in the process of dividing the sample into a plurality of samples after sampling, but also store the plurality of samples in the inner barrel, save the occupied space when carrying the sample and is easy to carry.

Drawings

FIG. 1 is a front view of a sampling device of an edible fungus constant temperature incubator of the invention;

FIG. 2 is a front view of the outer cylinder of the sampling device of the edible fungus constant temperature incubator of the invention;

FIG. 3 is a front view of the inner cylinder of the sampling device of the edible fungus constant temperature incubator of the invention;

FIG. 4 is a schematic structural diagram of a barrel of the sampling device of the edible fungus constant temperature incubator of the invention;

FIG. 5 is a top view of a central rod of the sampling device of the constant temperature incubator for edible fungi of the invention;

FIG. 6 is an enlarged schematic view of A in FIG. 3;

FIG. 7 is a schematic structural view of a rubber plug of the sampling device of the constant temperature incubator for edible fungi of the present invention;

FIG. 8 is a schematic structural diagram of a power device of the sampling device of the edible fungus constant temperature incubator of the invention;

FIG. 9 is a bottom view of a movable plate I of the sampling device of the edible fungus constant temperature incubator of the invention.

Detailed Description

The technical solutions in the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the invention, rather than all embodiments, and all other embodiments obtained by those skilled in the art without any creative work based on the embodiments of the present invention belong to the protection scope of the present invention.

The first embodiment is as follows: as shown in fig. 1 to 9, the present embodiment describes a sampling device for an edible fungus constant temperature incubator, which comprises an outer cylinder 1, a connecting pipe 2, an inner cylinder 3, a rubber plug 4, a control device 5 and a power device 6; the lower end of the inner barrel 3 is fixedly connected with a rubber plug 4, the upper end of the inner barrel 3 is provided with a power device 6, and the inner barrel 3 and the rubber plug 4 are arranged inside the outer barrel 1; the bottom end of the side surface of the outer cylinder 1 is provided with a through hole I14, and the bottom end of the side surface of the inner cylinder 3 is provided with a through hole II 314; one end of the connecting pipe 2 is fixedly connected to the outer side of the outer barrel 1, the other end of the connecting pipe 2 is fixedly connected to the outer side of the inner barrel 3, and the through hole I14 and the through hole II 314 are both communicated with the connecting pipe 2; a liquid inlet 15 is formed in the bottom end of the outer cylinder 1; the control device 5 is arranged in the liquid inlet 15.

The second embodiment is as follows: as shown in fig. 1 to 9, this embodiment is further described as a first embodiment, and the outer cylinder 1 includes a cylinder 11; a plurality of limiting grooves 12 parallel to the central axis of the cylinder 11 are arranged on the inner wall of the cylinder; the outer wall of the inner barrel 3 is fixedly connected with a sliding block which is in sliding fit with the limiting groove 12 so as to limit the relative rotation of the inner barrel 3 and the outer barrel 1 and further avoid the connection pipe 2 from being wound together.

The third concrete implementation mode: as shown in fig. 1 to 9, the present embodiment is further described with respect to the first embodiment, and the inner cylinder 3 includes a cylinder 31; a through hole II 314 is formed in the upper portion of the side face of the cylinder body 31, a sliding groove I313 positioned below the through hole II 314 is further formed in the outer side of the cylinder body 31, and a sliding groove II 311 communicating the sliding groove I313 with the through hole II 314 is formed between the sliding groove I313 and the through hole II 314; an L-shaped sliding plate 312 which is in sliding fit with the sliding chute I313 and the sliding chute II 311 is arranged in the sliding chutes I313 and II 311, and the horizontal end of the L-shaped sliding plate 312 is exposed out of the cylinder 31.

The fourth concrete implementation mode: as shown in fig. 1 to 9, in this embodiment, a cavity is formed inside the cylinder 31, a central rod 34 is fixedly connected to an inner wall of the cavity through a partition 37, the partition 37 is provided with a plurality of partitions, the cavity is divided into a plurality of storage cavities, and each storage cavity is communicated with a corresponding through hole ii 314.

The fifth concrete implementation mode: as shown in fig. 1 to 9, the present embodiment is further described with respect to the first embodiment, and the control device 5 includes a sliding rod 51, a baffle i 52, a connecting rod 53, and a baffle ii 56; the bottom end of the central rod 34 is provided with a slideway I35, and the slideway I35 is in sliding fit with the sliding rod 51; the bottom end of the sliding rod 51 is fixedly connected with a baffle I52, and the lower end of the baffle I52 is fixedly connected with a connecting rod 53; the middle lower part of the connecting rod 53 is fixedly connected with a baffle II 56; the baffle I52 is positioned in the outer cylinder 1, the connecting rod 53 penetrates through the liquid inlet 15, and the baffle II 56 is positioned below the liquid inlet 15; a liquid inlet cavity 55 is arranged at the bottom of the connecting rod 53, and a communication hole 54 is arranged in the middle of the side surface of the connecting rod 53, so that the liquid inlet cavity 55 is communicated with the liquid inlet 15; the inside bottom of urceolus 1 is equipped with recess 13, baffle I52 and recess 13 sliding fit.

The sixth specific implementation mode is as follows: as shown in FIGS. 1-9, in this embodiment, the diameter of the baffles I52 and II 56 is larger than the inner diameter of the liquid inlet 15, and the diameter of the connecting rod 53 is smaller than the inner diameter of the liquid inlet 15.

The seventh concrete implementation mode: as shown in fig. 1-9, this embodiment is further described as an embodiment one, and the sliding rod 51 has friction with the inner wall of the slideway i 35 of the central rod 34.

The specific implementation mode is eight: as shown in fig. 1 to 9, this embodiment is further described with respect to the first embodiment, the rubber plug 4 includes an annular rubber plate i 41, an inner rubber ring 42, an annular rubber plate ii 43, an outer rubber ring 44, and a plurality of movable blocks 45; a rubber inner ring 42 and a rubber outer ring 44 are fixedly connected between the annular rubber plate I41 and the annular rubber plate II 43, and the annular rubber plate I41 is fixedly connected to the lower end of the cylinder 31; the sliding rod 51 penetrates through the rubber inner ring 42; the side surface of the rubber outer ring 44 is provided with a plurality of through holes, a movable block 45 which is in sliding fit with the through holes is arranged in each through hole, and the movable block 45 is in sliding fit with the corresponding limiting groove 12; the friction force between the annular rubber plate II 43 and the inner wall of the outer barrel 1 is larger than the friction force between the annular rubber plate I41 and the inner wall of the outer barrel 1.

The specific implementation method nine: as shown in fig. 1 to 9, this embodiment is further described with respect to the first embodiment, and the power device 6 includes a pull ring 61, a push plate 62, a movable plate i 63, an annular plate 64, a vertical rod 66, a support plate 67, a spring 68, a movable plate ii 69, and a stop rod 610; the upper end of the central rod 34 is provided with a limiting groove 36, the limiting rod 610 is in sliding fit with the limiting groove 36, and the upper end of the limiting rod 610 penetrates through the push plate 62 to be fixedly connected with the movable plate I63; the upper end of the push plate 62 is provided with a circular groove, the movable plate I63 is in sliding fit with the circular groove, and the bottom surface of the circular groove of the push plate 62 is also provided with a plurality of holes 65; the lower end of the movable plate I63 is provided with an annular groove, and the annular plate 64 is connected in the annular groove through a bearing; one end of the vertical rod 66 is fixedly connected to the lower end of the annular plate 64, and the other end of the vertical rod 66 penetrates through the corresponding hole 65 and is fixedly connected with a supporting plate 67; the upper end of the supporting plate 67 is fixedly connected with a spring 68, and the upper end of the spring 68 is fixedly connected with a movable plate II 69 sleeved on the corresponding vertical rod 66; the spring 68 on each of the vertical rods 66 has different elasticity; a transverse plate 32 is fixedly connected between two adjacent partition plates 37, the transverse plate 32 is located below the through hole II 314, the transverse plate 32 is located above the movable plate II 69, a circular hole 33 is formed in the movable plate II 69, and the cross-sectional area of the movable plate II 69 is larger than that of the circular hole 33.

The detailed implementation mode is ten: as shown in fig. 1 to 9, the present embodiment describes a method for using a sampling device of an edible fungus constant temperature incubator, the method comprises the following steps:

the method comprises the following steps: pulling the push plate 62 to draw the culture solution into the outer cylinder 1;

step two: the push plate 62 is pushed to drive the rubber plug 4 to push the culture solution into the inner barrel 3;

step three: the pull ring 61 is pulled upward to seal the culture solution at the lower end of the transverse plate 32.

The working principle of the invention is as follows: when the device is used for extracting culture solution, the liquid inlet 15 is placed into the culture solution, then the push plate 62 is pulled, the push plate 62 is fixedly connected with the top end of the central rod 34, so that the push plate 62 drives the central rod 34 to move upwards, the central rod 34 drives the partition plate 37 and the rubber plug 4 to move upwards, in the process that the central rod 34 moves upwards, as friction force exists between the slide I24 at the lower end of the central rod and the slide rod 51, the central rod 34 drives the slide rod 51 to further drive the control device 5 to move upwards, until the baffle II 56 is contacted with the liquid inlet 15, the control device 5 and the outer barrel 1 are relatively static, the culture solution enters the inner part of the outer barrel 1 from the liquid inlet cavity 55 and the communication hole 54, then the pull ring 61 is pulled upwards, so that the movable plate I63 moves upwards to be separated from the push plate 62, the push plate 62 is pushed downwards, the push plate 62 drives the central rod 34 to move downwards, the slide rod 51 is driven to move downwards through friction, after the baffle I52 moves into the groove 13, the baffle I52 shields the liquid inlet 15, the culture solution in the outer barrel 1 enters the barrel 31 through the connecting pipe 2 and the through hole II 314 along with the downward movement of the rubber plug 4, passes through the circular hole 33 and then moves to the lower part of the transverse plate 32, and finally the push plate 62 is pulled upwards again, so that all the movable plates II 69 abut against the lower end face of the transverse plate 32, the circular hole 33 is sealed, and the culture solution can be carried;

in the process that the push plate 62 drives the inner cylinder 3 to move downwards, when the rubber plug 4 is contacted with the bottom of the outer cylinder 1, the upper end surface of the outer cylinder 1 pushes the L-shaped sliding plate 312 to slide upwards to seal the through hole II 314, so that the culture solution is prevented from flowing back into the connecting pipe 2 when the culture solution is poured; meanwhile, in the process that the push plate 62 moves downwards, because the friction force between the annular rubber plate II 43 and the inner wall of the outer cylinder 1 is greater than the friction force between the annular rubber plate I41 and the inner wall of the outer cylinder 1, and no friction force exists between the annular rubber plate I41 and the inner wall of the outer cylinder 1, in the process that the rubber plug 4 moves downwards, the distance between the annular rubber plate II 43 and the annular rubber plate I41 is shortened, the rubber inner ring 42 and the rubber outer ring 44 are compressed, so that the air pressure in the space surrounded by the annular rubber plate II 43, the annular rubber plate I41, the rubber inner ring 42 and the rubber outer ring 44 is increased, the movable block 45 is further pushed to move in the direction away from the rubber outer ring 44 and enter the corresponding limiting groove 12, in the process that the rubber plug 4 moves downwards, a cleaning pad is adhered to the side wall of the movable block 45 close to the inner wall of the outer cylinder 1, the cleaning pad is pushed to clean the limiting groove 12, the culture solution residue in the limiting groove 12 is reduced, the side of the movable block 45 close to the outer cylinder 1 is set as an inclined surface, and the movable block 45 is pressed to contact with the bottom of the limiting groove 12, and then the inner ring 44 is pushed again;

when the culture solution in the inner cylinder 3 needs to be poured out, the movable plate I63 is pushed towards the push plate 62, due to the different elasticity of the spring 38, the movable plates II 69 are sequentially separated from the transverse plate 32 in the process of pushing the movable plate I63, so that when the culture solution is poured out, the movable plate I63 is pushed, one movable plate II 69 is separated from the transverse plate 32, then the culture solution can be poured out by inverting the culture solution pouring device, the operation is repeated, and multiple parts of culture solution can be poured out sequentially.

Claims

1. The utility model provides an edible mushroom constant temperature incubator sampling device which characterized in that: comprises an outer cylinder (1), a connecting pipe (2), an inner cylinder (3), a rubber plug (4), a control device (5) and a power device (6); the lower end of the inner barrel (3) is fixedly connected with a rubber plug (4), the upper end of the inner barrel (3) is provided with a power device (6), and the inner barrel (3) and the rubber plug (4) are arranged inside the outer barrel (1); the bottom end of the side surface of the outer cylinder (1) is provided with a through hole I (14), and the bottom end of the side surface of the inner cylinder (3) is provided with a through hole II (314); one end of the connecting pipe (2) is fixedly connected to the outer side of the outer barrel (1), the other end of the connecting pipe (2) is fixedly connected to the outer side of the inner barrel (3), and the through hole I (14) and the through hole II (314) are communicated with the connecting pipe (2); a liquid inlet (15) is formed in the bottom end of the outer cylinder (1); the control device (5) is arranged in the liquid inlet (15).

2. The sampling device of the edible fungus constant temperature incubator according to the claim 1 is characterized in that: the outer cylinder (1) comprises a cylinder body (11); a plurality of limiting grooves (12) parallel to the central axis of the cylinder body (11) are formed in the inner wall of the cylinder body; fixedly connected with and spacing groove (12) sliding fit's slider on the outer wall of inner tube (3) to restriction inner tube (3), urceolus (1) relative rotation, and then avoid connecting pipe (2) winding together.

3. The sampling device of the edible fungus constant temperature incubator according to the claim 1 is characterized in that: the inner cylinder (3) comprises a cylinder body (31); a through hole II (314) is formed in the upper portion of the side face of the cylinder body (31), a sliding groove I (313) located below the through hole II (314) is further formed in the outer side of the cylinder body (31), and a sliding groove II (311) communicating the sliding groove I (313) with the through hole II (314) is formed between the sliding groove I (313) and the through hole II (314); an L-shaped sliding plate (312) in sliding fit with the sliding groove I (313) and the sliding groove II (311) is arranged in the sliding groove I (313) and the sliding groove II (311), and the horizontal end of the L-shaped sliding plate (312) is exposed out of the cylinder body (31).

4. The sampling device of the edible fungus constant temperature incubator according to the claim 3 is characterized in that: barrel (31) inside is equipped with the cavity, through center rod (34) of baffle (37) fixedly connected with on the inner wall of cavity, baffle (37) are equipped with a plurality ofly, cut apart into a plurality of storage chambeies with the cavity, and every storage chamber communicates with through-hole II (314) that correspond.

5. The sampling device of the edible fungus constant temperature incubator according to the claim 4 is characterized in that: the control device (5) comprises a sliding rod (51), a baffle I (52), a connecting rod (53) and a baffle II (56); the bottom end of the central rod (34) is provided with a slideway I (35), and the slideway I (35) is in sliding fit with the sliding rod (51); the bottom end of the sliding rod (51) is fixedly connected with a baffle I (52), and the lower end of the baffle I (52) is fixedly connected with a connecting rod (53); the middle lower part of the connecting rod (53) is fixedly connected with a baffle II (56); the baffle I (52) is positioned in the outer barrel (1), the connecting rod (53) penetrates through the liquid inlet (15), and the baffle II (56) is positioned below the liquid inlet (15); a liquid inlet cavity (55) is formed in the bottom of the connecting rod (53), and a communication hole (54) is formed in the middle of the side face of the connecting rod (53) so that the liquid inlet cavity (55) is communicated with the liquid inlet (15); the inside bottom of urceolus (1) is equipped with recess (13), baffle I (52) and recess (13) sliding fit.

6. The sampling device of the edible fungus constant temperature incubator according to the claim 5 is characterized in that: the diameters of the baffle I (52) and the baffle II (56) are larger than the inner diameter of the liquid inlet (15), and the diameter of the connecting rod (53) is smaller than the inner diameter of the liquid inlet (15).

7. The sampling device of the edible fungus constant temperature incubator according to the claim 6 is characterized in that: and friction is formed between the sliding rod (51) and the inner wall of the slideway I (35) of the central rod (34).

8. The sampling device of the edible fungus constant temperature incubator according to the claim 5 is characterized in that: the rubber plug (4) comprises an annular rubber plate I (41), an inner rubber ring (42), an annular rubber plate II (43), an outer rubber ring (44) and a plurality of movable blocks (45); a rubber inner ring (42) and a rubber outer ring (44) are fixedly connected between the annular rubber plate I (41) and the annular rubber plate II (43), and the annular rubber plate I (41) is fixedly connected to the lower end of the cylinder body (31); the sliding rod (51) penetrates through the rubber inner ring (42); a plurality of through holes are formed in the side face of the rubber outer ring (44), a movable block (45) in sliding fit with the through holes is arranged in each through hole, and the movable blocks (45) are in sliding fit with the corresponding limiting grooves (12); the friction force between the annular rubber plate II (43) and the inner wall of the outer barrel (1) is larger than the friction force between the annular rubber plate I (41) and the inner wall of the outer barrel (1).

9. The sampling device of the edible fungus constant temperature incubator according to the claim 8 is characterized in that: the power device (6) comprises a pull ring (61), a push plate (62), a movable plate I (63), an annular plate (64), a vertical rod (66), a supporting plate (67), a spring (68), a movable plate II (69) and a limiting rod (610); the upper end of the central rod (34) is provided with a limiting groove (36), the limiting rod (610) is in sliding fit with the limiting groove (36), and the upper end of the limiting rod (610) penetrates through the push plate (62) to be fixedly connected with the movable plate I (63); a circular groove is formed in the upper end of the push plate (62), the movable plate I (63) is in sliding fit with the circular groove, and a plurality of holes (65) are formed in the bottom surface of the circular groove of the push plate (62); the lower end of the movable plate I (63) is provided with an annular groove, and the annular plate (64) is connected in the annular groove through a bearing; one end of the vertical rod (66) is fixedly connected to the lower end of the annular plate (64), and the other end of the vertical rod (66) penetrates through the corresponding hole (65) and is fixedly connected with a supporting plate (67); the upper end of the supporting plate (67) is fixedly connected with a spring (68), and the upper end of the spring (68) is fixedly connected with a movable plate II (69) sleeved on the corresponding vertical rod (66); the elasticity of the spring (68) on each vertical rod (66) is different; two adjacent partition plates (37) are fixedly connected with a transverse plate (32), the transverse plate (32) is located below the through hole II (314), the transverse plate (32) is located above the movable plate II (69), a round hole (33) is formed in the movable plate II (69), and the cross section area of the movable plate II (69) is larger than that of the round hole (33).

10. The use method of the sampling device of the edible fungus constant-temperature incubator according to the claim 9 is characterized in that: the using method comprises the following steps:

the method comprises the following steps: pulling the push plate (62) to draw the culture solution into the outer cylinder (1);

step two: the push plate (62) is pushed to drive the rubber plug (4) to push the culture solution into the inner cylinder (3);

step three: the pull ring (61) is pulled upwards to seal the culture solution at the lower end of the transverse plate (32).