CN114199635B

CN114199635B - Biological sample stoving sampling device

Info

Publication number: CN114199635B
Application number: CN202111359627.2A
Authority: CN
Inventors: 许林龙
Original assignee: Shanghai Ling Ling Biotechnology Co ltd
Current assignee: Shanghai Ling Ling Biotechnology Co ltd
Priority date: 2021-11-17
Filing date: 2021-11-17
Publication date: 2024-01-12
Anticipated expiration: 2041-11-17
Also published as: CN114199635A

Abstract

The invention relates to a sampling device, in particular to a biological sample drying and sampling device. The invention aims to solve the technical problems that: provided is a biological sample drying and sampling device which can simultaneously dry a large amount of biological samples and has high drying efficiency. The utility model provides a biological sample stoving sampling device, including placing seat, spill frame, storage frame, apron, unloading pipe, heater, otter board, thermal-insulated handle etc. place to be connected with the spill frame on the seat, be connected with the storage frame on the spill frame, placed the apron on the storage frame, be connected with the unloading pipe on the storage frame, be connected with the heater on the spill frame, rotate and slidingtype detachable is equipped with two at least otter boards on the spill frame, all be connected with thermal-insulated handle on the otter board. The invention is matched with the collecting assembly through the clamping assembly, thereby being convenient for collecting and taking out the dried biological sample.

Description

Biological sample stoving sampling device

Technical Field

The invention relates to a sampling device, in particular to a biological sample drying and sampling device.

Background

Biological samples generally refer to flowers, leaves, stems, roots, seeds, etc. of plants, body fluids, hairs, muscles and some tissue organs of animals, as well as various microorganisms. Some biological samples need to be dried and sampled, the biological samples are generally dried manually, when the biological samples are dried manually, the biological samples are dried by holding the heating lamp manually, then the drying condition is observed by naked eyes, the heating lamp is turned off after the biological samples are dried, and when the biological samples are dried manually, a large number of biological samples cannot be dried simultaneously, so that the drying efficiency is lower.

It is therefore desirable to design a biological sample drying and sampling device that can simultaneously dry a large number of biological samples and has high drying efficiency.

Disclosure of Invention

In order to overcome the defect that when a biological sample is dried manually, a large number of biological samples cannot be dried simultaneously, and the drying efficiency is low, the technical problem to be solved is that: provided is a biological sample drying and sampling device which can simultaneously dry a large amount of biological samples and has high drying efficiency.

The technical scheme of the invention is as follows: the utility model provides a biological sample stoving sampling device, including placing the seat, the spill frame, the storage frame, the apron, the unloading pipe, the heater, the otter board, thermal-insulated handle, collection subassembly, screens subassembly, pulling subassembly and drive assembly, place to be connected with the spill frame on the seat, be connected with the storage frame on the spill frame, the apron has been placed on the storage frame, be connected with the unloading pipe on the storage frame, be connected with the heater on the spill frame, rotate on the spill frame and slidingtype detachable is equipped with two at least otter boards, all be connected with thermal-insulated handle on the otter board, be equipped with on the spill frame and collect the subassembly, be equipped with screens subassembly between spill frame and the collection subassembly, be equipped with the pulling subassembly on the spill frame, be equipped with drive assembly on the spill frame.

As a preferable technical scheme of the invention, the collecting assembly comprises a semi-cylinder, an arc-shaped telescopic rod and a first spring, wherein the lower side of the concave frame is rotatably connected with the semi-cylinder, the arc-shaped telescopic rod is connected between the semi-cylinder and two sides of the concave frame, and the first spring is connected between the fixed end and the telescopic end of the arc-shaped telescopic rod.

As a preferable technical scheme of the invention, the clamping component comprises a first fixed block, a guide block, a first special-shaped rod, a second spring, a square frame, a wedge block and a third spring, wherein the first fixed block is arranged on the semi-cylinder, the guide block is arranged on the concave frame, the first special-shaped rod is connected onto the guide block in a sliding manner, the second spring is connected between the first special-shaped rod and the guide block, the square frame is connected onto the first special-shaped rod, the wedge block is arranged on the square frame in a sliding manner, the wedge block is matched with the first fixed block, and two third springs are connected between the wedge block and the square frame.

As a preferable technical scheme of the invention, the pulling assembly comprises a concave plate, a shielding plate, fourth springs and a pull rod, wherein the concave plate is arranged on the upper side of the left part of the concave frame, the shielding plate is arranged on the concave frame in a sliding mode, the shielding plate is matched with the concave plate in a sliding mode, the two fourth springs are connected between the shielding plate and the concave plate, and the pull rod is connected to the shielding plate.

As a preferable technical scheme of the invention, the driving assembly comprises a gear motor, a disc, a second fixed block and a second special-shaped rod, the gear motor is connected to the concave frame, the disc is connected to an output shaft of the gear motor, the second fixed block is connected to the disc, and the second special-shaped rod is rotatably connected between the second fixed block and the pull rod.

As a preferred technical scheme of the invention, the device further comprises a shaking component, the shaking component comprises a fixed rod, a guide rail, a moving block, a connecting rod, a sliding rod, a fifth spring, a short rack, gears and U-shaped round blocks, the fixed rod is connected to the pull rod, the guide rail is arranged on the concave frame, at least two moving blocks are connected to the guide rail in a sliding mode, the connecting rod is connected between the uppermost moving block and the fixed rod in a rotating mode, the sliding rod is connected between the moving blocks, the fifth spring is connected between the sliding rod and the guide rail, the short racks are connected to the moving blocks, four gears are connected to the concave frame in a uniformly rotating mode, the gears are correspondingly meshed with the short racks, the U-shaped round blocks are connected to the gears, and the U-shaped round blocks are correspondingly matched with the screen.

As a preferred technical scheme of the invention, the multifunctional movable frame comprises a pushing component, wherein the pushing component comprises a movable plate, a square telescopic rod, a round telescopic rod, ratchets and a push rod, the movable plate is arranged on a guide rail in a sliding mode, the square telescopic rod is connected between the movable plate and a concave frame, an elastic piece is arranged on the square telescopic rod, the round telescopic rod is connected to the movable plate, the ratchets are connected to the round telescopic rod, the ratchets are matched with the gears at the lowest side, the push rod is connected to the ratchets, and the push rod is matched with the first special-shaped rod.

As a preferable technical scheme of the invention, the sizes of the net plates are different.

The beneficial effects are that: 1. the invention is matched with the collecting assembly through the clamping assembly, thereby being convenient for collecting and taking out the dried biological sample.

2. According to the automatic intermittent blanking device, the device can automatically intermittently blanking through the pulling assembly and the driving assembly, and further the drying effect is better.

3. The biological sample on the screen plate can be dithered through the dithering component, so that the dropping of the dried biological sample can be quickened, and the dried biological sample is prevented from staying on the screen plate all the time.

4. According to the semi-cylinder automatic rotary drying device, the semi-cylinder can be automatically rotated and opened by pushing the assembly, so that the effect of timing drying is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first part of the present invention.

Fig. 3 is a schematic perspective view of a second part of the present invention.

Fig. 4 is a schematic perspective view of a collection assembly according to the present invention.

FIG. 5 is an enlarged schematic view of section A of the present invention.

Fig. 6 is a schematic perspective view of the pulling assembly of the present invention.

Fig. 7 is a schematic perspective view of a driving assembly according to the present invention.

Fig. 8 is a schematic perspective view of a jitter assembly of the present invention.

Fig. 9 is a schematic perspective view of a pushing assembly according to the present invention.

Wherein: the device comprises a 1-placing seat, a 2-concave frame, a 21-storage frame, a 22-cover plate, a 23-blanking pipe, a 24-heater, a 3-screen plate, a 4-heat insulation handle, a 5-collecting component, a 51-semi-cylinder, a 52-arc telescopic rod, a 53-first spring, a 6-clamping component, a 61-first fixed block, a 62-guiding block, a 63-first special-shaped rod, a 64-second spring, a 65-square frame, a 66-wedge block, a 67-third spring, a 7-pulling component, a 71-concave plate, a 72-shielding plate, a 73-fourth spring, a 74-pull rod, a 8-driving component, a 81-speed reducing motor, a 82-disc, a 83-second fixed block, a 84-second special-shaped rod, a 9-shaking component, a 91-fixed rod, a 92-guide rail, a 93-moving block, a 94-connecting rod, a 95-sliding rod, a 96-fifth spring, a 97-short, a 98-gear, a 99-U-shaped round block, a 10-pushing component, a 101-moving plate, a 102-telescopic rod, a 103-ratchet rod, a 103-shaking component, a 105-telescopic rod, and a 105-telescopic rod.

Detailed Description

The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.

Example 1

1-7, including placing seat 1, spill frame 2, storage frame 21, apron 22, unloading pipe 23, heater 24, otter board 3, thermal-insulated handle 4, collection subassembly 5, clamping component 6, pulling subassembly 7 and actuating component 8, the upside of placing seat 1 is connected with spill frame 2, the rear portion upside of spill frame 2 is connected with storage frame 21, apron 22 has been placed to the upside of storage frame 21, the downside of storage frame 21 is connected with unloading pipe 23, the upside of spill frame 2 is connected with heater 24, rotate and slidingtype on the spill frame 2 is equipped with four otter board 3, the rear side of otter board 3 all is connected with thermal-insulated handle 4, the downside of spill frame 2 is equipped with collection subassembly 5, be equipped with clamping component 6 between spill frame 2 and the collection subassembly 5, be equipped with pulling subassembly 7 on the spill frame 2, the right side of spill frame 2 is equipped with actuating component 8.

When the biological sample needs to be dried and sampled, the cover plate 22 is opened, the biological sample is placed in the storage frame 21, the cover plate 22 is controlled to be closed, the heat insulation handle 4 is controlled to place the screen plate 3 in the concave frame 2, the pulling component 7 can block the lower side of the blanking pipe 23, the biological sample in the storage frame 21 can not fall off, the driving component 8 can be started, the driving component 8 can drive the pulling component 7 to operate, the pulling component 7 can intermittently not block the blanking pipe 23 any more, the biological sample can fall in the concave frame 2 due to gravity and then fall on the screen plate 3, the heater 24 is started, the biological sample can be dried, the dried biological sample can shrink and then gradually fall into the lower screen plate 3, finally the biological sample can fall into the collecting component 5, the driving component 8 and the heater 24 are closed, the clamping component 6 is controlled to open the collecting component 5, and the biological sample can be collected.

The collecting assembly 5 comprises a semi-cylinder 51, an arc telescopic rod 52 and a first spring 53, the lower side of the concave frame 2 is rotatably connected with the semi-cylinder 51, the arc telescopic rod 52 is connected between the semi-cylinder 51 and the front side and the rear side of the left part of the concave frame 2, and the first spring 53 is connected between the fixed end and the telescopic end of the arc telescopic rod 52.

When the device is in a normal state, the first spring 53 is in a stretching state, when the biological sample is dried and sampled, the biological sample falls into the semi-cylinder 51 after being dried, when the biological sample is completely dried, the clamping component 6 can be controlled, so that the clamping component 6 does not fix the semi-cylinder 51 any more, at the moment, the first spring 53 retracts to drive the semi-cylinder 51 to rotate and open, and then the biological sample can be sampled and collected, and after the collection is completed, the semi-cylinder 51 is controlled to rotate and reset to be matched with the clamping component 6 again.

The clamping component 6 comprises a first fixed block 61, a guide block 62, a first special-shaped rod 63, a second spring 64, a square frame 65, a wedge block 66 and a third spring 67, wherein the first fixed block 61 is arranged on the right side of the upper front part of the half cylinder 51, the guide block 62 is arranged on the front side of the lower right part of the concave frame 2, the first special-shaped rod 63 is connected onto the guide block 62 in a sliding manner, the second spring 64 is connected between the first special-shaped rod 63 and the guide block 62, the square frame 65 is connected onto the lower side of the first special-shaped rod 63, the wedge block 66 is matched with the first fixed block 61 in a sliding manner, and two third springs 67 are connected between the wedge block 66 and the square frame 65.

When the dried biological sample needs to be taken out, the first special-shaped rod 63 is controlled to move to the right, the second spring 64 is compressed, the square frame 65 and the wedge block 66 are driven to move to the right, the wedge block 66 is further enabled to be free from clamping the first fixing block 61, the half cylinder 51 is further enabled to be fixed, the half cylinder 51 can be rotated to be opened, the first special-shaped rod 63 is further enabled to be not controlled, the second spring 64 is rebounded to drive the square frame 65 and the wedge block 66 to move to the left for resetting, then the dried biological sample can be collected, after collection is completed, the half cylinder 51 is controlled to rotate for resetting, the first fixing block 61 is enabled to reset, the first fixing block 61 is enabled to be in contact with the wedge block 66, the wedge block 66 is driven to move to the right, the third spring 67 is compressed, when the first fixing block 61 is moved to be separated from the wedge block 66, the third spring 67 is rebounded to drive the wedge block 66 to move to the left for resetting, and the wedge block 66 is enabled to clamp the first fixing block 61 again.

The pulling assembly 7 comprises a concave plate 71, a shielding plate 72, fourth springs 73 and a pull rod 74, wherein the concave plate 71 is arranged on the upper side of the left part of the concave frame 2, the shielding plate 72 is slidably arranged on the upper side of the right part of the concave frame 2, the shielding plate 72 is slidably matched with the concave plate 71, the front and rear fourth springs 73 are connected between the shielding plate 72 and the concave plate 71, and the pull rod 74 is connected on the upper side of the shielding plate 72.

When the biological sample needs to be dried and sampled, the biological sample is placed in the storage frame 21, then the driving component 8 is started, the driving component 8 drives the pull rod 74 to move left and right, the shielding plate 72 is driven to move left and right, meanwhile, the concave plate 71 can limit the movement of the shielding plate 72, the fourth spring 73 can enable the shielding plate 72 to reset better, so that the shielding plate 72 can intermittently not block the blanking pipe 23, the biological sample falls into the concave frame 2 through the blanking pipe 23 due to gravity, then falls onto the screen plate 3 to be dried, and after the biological sample is completely dried, the driving component 8 is closed.

The driving assembly 8 comprises a gear motor 81, a disc 82, a second fixing block 83 and a second special-shaped rod 84, wherein the gear motor 81 is connected to the right side of the upper portion of the concave frame 2, the disc 82 is connected to the output shaft of the gear motor 81, the second fixing block 83 is connected to the disc 82, and the second special-shaped rod 84 is rotatably connected between the second fixing block 83 and the pull rod 74.

When the biological sample needs to be dried and sampled, the gear motor 81 is started, the gear motor 81 drives the disc 82 to rotate, so that the second fixed block 83 moves, the pull rod 74 is driven to move left and right through the second special-shaped rod 84, the shielding plate 72 is driven to move left and right, the shielding plate 72 can intermittently stop the blanking pipe 23, the biological sample falls into the concave frame 2 through the blanking pipe 23 due to gravity, and then falls onto the screen plate 3 to be dried, and after the biological sample is dried completely, the gear motor 81 is turned off.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 8 and 9, the device further comprises a shaking component 9, the shaking component 9 comprises a fixed rod 91, a guide rail 92, a moving block 93, a connecting rod 94, a sliding rod 95, a fifth spring 96, a short rack 97, a gear 98 and a U-shaped round block 99, the front side of the pull rod 74 is connected with the fixed rod 91, the guide rail 92 is arranged at the front side of the concave frame 2, four moving blocks 93 are connected on the guide rail 92 in a sliding mode, a connecting rod 94 is connected between the uppermost moving block 93 and the fixed rod 91 in a rotating mode, a sliding rod 95 is connected between the moving blocks 93, a fifth spring 96 is connected between the sliding rod 95 and the guide rail 92, short racks 97 are connected on the right side of the moving blocks 93, four gears 98 are connected on the front side of the concave frame 2 in a uniformly rotating mode, the gears 98 are correspondingly meshed with the short racks 97, U-shaped round blocks 99 are connected on the rear side of the gears 98, and the U-shaped round blocks 99 are correspondingly matched with the screen 3.

When needs are dried and sampled, the control heat insulation handle 4 places the otter board 3 in the concave frame 2, and makes otter board 3 and U type circle piece 99 cooperate, when pull rod 74 moves about, still can drive the dead lever 91 and control the removal, and then can drive movable block 93 and slide bar 95 through the effect of connecting rod 94 and fifth spring 96 and reciprocate, thereby drive short rack 97 and reciprocate, and then drive gear 98 and U type circle piece 99 and make a round trip to rotate, and then drive otter board 3 and make a round trip to rotate, thereby make the biological sample on the otter board 3 shake, and then can accelerate the dropping of stoving biological sample, and then prevent that the biological sample of drying from staying always on obtaining otter board 3.

Still including pushing the subassembly 10, pushing the subassembly 10 including movable plate 101, square telescopic link 102, circular telescopic link 103, ratchet 104 and push rod 105, the last slidingtype of guide rail 92 is equipped with movable plate 101, be connected with square telescopic link 102 between movable plate 101 and the spill frame 2, square telescopic link 102 is from taking the elastic component, the front side of movable plate 101 is connected with circular telescopic link 103, be connected with ratchet 104 on the circular telescopic link 103, ratchet 104 cooperates with the downside gear 98, ratchet 104's right side is connected with push rod 105, push rod 105 cooperates with first dysmorphism pole 63.

When the gear 98 rotates anticlockwise, the ratchet 104 and the push rod 105 are driven to move to the right side, so that the circular telescopic rod 103 is stretched, when the gear 98 rotates clockwise, the ratchet 104 moves downwards, so that the circular telescopic rod 103 and the moving plate 101 move downwards, the square telescopic rod 102 is stretched, then the square telescopic rod 102 retracts under the action of the elastic piece, the circular telescopic rod 103 and the moving plate 101 are driven to move upwards for resetting, the device repeats the process, the push rod 105 is further driven to move to the right side continuously, when the push rod 105 moves to be in contact with the first special-shaped rod 63, the first special-shaped rod 63 is further driven to move to the right side, the semicircular cylinder 51 is further driven to automatically rotate for opening, and therefore the effect of timing drying is achieved, and after all biological samples are collected and sampled, resetting of all parts is controlled.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims

1. A biological sample stoving sampling device, its characterized in that: the novel heat insulation device comprises a placing seat (1), a concave frame (2), a storage frame (21), a cover plate (22), a blanking pipe (23), a heater (24), screen plates (3), heat insulation handles (4), a collecting assembly (5), a clamping assembly (6), a pulling assembly (7) and a driving assembly (8), wherein the concave frame (2) is connected to the placing seat (1), the storage frame (21) is connected to the concave frame (2), the cover plate (22) is placed on the storage frame (21), the blanking pipe (23) is connected to the storage frame (21), the heater (24) is connected to the concave frame (2), the at least two screen plates (3) are rotatably and slidably arranged on the concave frame (2), the heat insulation handles (4) are connected to the screen plates (3), the collecting assembly (5) is arranged on the concave frame (2), the clamping assembly (6) is arranged between the concave frame (2) and the collecting assembly (5), the pulling assembly (7) is arranged on the concave frame (2), and the driving assembly (8) is arranged on the concave frame (2);

the pulling assembly (7) comprises a concave plate (71), a shielding plate (72), fourth springs (73) and a pull rod (74), wherein the concave plate (71) is arranged on the upper side of the left part of the concave frame (2), the shielding plate (72) is arranged on the concave frame (2) in a sliding mode, the shielding plate (72) is matched with the concave plate (71) in a sliding mode, two fourth springs (73) are connected between the shielding plate (72) and the concave plate (71), and the pull rod (74) is connected to the shielding plate (72);

the driving assembly (8) comprises a gear motor (81), a disc (82), a second fixed block (83) and a second special-shaped rod (84), the gear motor (81) is connected to the concave frame (2), the disc (82) is connected to an output shaft of the gear motor (81), the second fixed block (83) is connected to the disc (82), and the second special-shaped rod (84) is connected between the second fixed block (83) and the pull rod (74) in a rotating mode.

2. A biological specimen drying and sampling apparatus according to claim 1, wherein: the collecting assembly (5) comprises a semi-cylinder (51), an arc-shaped telescopic rod (52) and a first spring (53), the lower side of the concave frame (2) is rotatably connected with the semi-cylinder (51), the arc-shaped telescopic rod (52) is connected between the semi-cylinder (51) and two sides of the concave frame (2), and the first spring (53) is connected between the fixed end and the telescopic end of the arc-shaped telescopic rod (52).

3. A biological specimen drying and sampling apparatus according to claim 2, wherein: the clamping assembly (6) comprises a first fixing block (61), a guide block (62), a first special-shaped rod (63), a second spring (64), a square frame (65), a wedge block (66) and a third spring (67), wherein the first fixing block (61) is arranged on the semicircular cylinder (51), the guide block (62) is arranged on the concave frame (2), the first special-shaped rod (63) is connected onto the guide block (62) in a sliding mode, the second spring (64) is connected between the first special-shaped rod (63) and the guide block (62), the square frame (65) is connected onto the first special-shaped rod (63), the wedge block (66) is arranged on the square frame (65) in a sliding mode, the wedge block (66) is matched with the first fixing block (61), and two third springs (67) are connected between the wedge block (66) and the square frame (65).

4. A biological specimen drying sampling apparatus according to claim 3, wherein: still including shake subassembly (9), shake subassembly (9) including dead lever (91), guide rail (92), movable block (93), connecting rod (94), slide bar (95), fifth spring (96), short rack (97), gear (98) and U type circle piece (99), be connected with dead lever (91) on pull rod (74), be equipped with guide rail (92) on concave frame (2), sliding connection has two at least movable blocks (93) on guide rail (92), be connected with connecting rod (94) between the movable block (93) and the dead lever (91) in the rotation mode, be connected with slide bar (95) between movable block (93), be connected with fifth spring (96) between slide bar (95) and the guide rail (92), all be connected with short rack (97) on movable block (93), even rotation is connected with four gears (98) on concave frame (2), gear (98) correspond the meshing with short rack (97), all be connected with U type circle piece (99) on gear (98), U type circle piece (99) correspond the cooperation with otter board (3).

5. The biological specimen drying and sampling apparatus of claim 4, wherein: still including pushing the subassembly (10), pushing the subassembly (10) including movable plate (101), square telescopic link (102), circular telescopic link (103), ratchet (104) and push rod (105), sliding type is equipped with movable plate (101) on guide rail (92), be connected with square telescopic link (102) between movable plate (101) and concave frame (2), square telescopic link (102) are from taking the elastic component, be connected with circular telescopic link (103) on movable plate (101), be connected with ratchet (104) on circular telescopic link (103), ratchet (104) are with downside gear (98) cooperation, be connected with push rod (105) on ratchet (104), push rod (105) are with first dysmorphism pole (63) cooperation.

6. The biological specimen drying and sampling apparatus of claim 5, wherein: the size of the net plate (3) is different.