CN112539948A

CN112539948A - Large-scale production device with sampling and comparing functions for biological breeding

Info

Publication number: CN112539948A
Application number: CN202011428195.1A
Authority: CN
Inventors: 沈斌华
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-07
Filing date: 2020-12-07
Publication date: 2021-03-23

Abstract

The invention discloses a large-scale production device with a sampling and comparing function for biological breeding, which comprises a base body, a placement groove, a movable circular ring, a lower sliding block and a cleaning block, wherein the placement groove is formed in the inner surface of the base body, the movable circular ring is embedded in the inner surface of the placement groove, a straight-tooth gear is meshed and connected with the outer surface of the movable circular ring, a supporting frame is fixedly arranged on the inner surface of the base body, and a fixed base is embedded in the upper surface of the supporting frame. This scale apparatus for producing is used in biological breeding with sampling contrast function sets up the base member in the device of difference to the growth mode of biological breeding that the observation support through installation between the device is completely cut off both differences, and the clamping piece of accessible base member installation in growth process, the culture dish of placing the growth with the layer board upper end is released to the conveyer belt upper end, carries out contrast detection to the growth of its two parts, and also can detect the contrast to two kinds of random extractions in same part in the extraction inspection process.

Description

Large-scale production device with sampling and comparing functions for biological breeding

Technical Field

The invention relates to the technical field of biological breeding, in particular to a large-scale production device with a sampling and comparing function for biological breeding.

Background

Biological breeding is the most rapid technology applied and popularized in modern agricultural history, and has produced huge social, economic and ecological benefits in the global scope, however, the variety breeding of main crops in China still stays in the traditional breeding mode mainly based on phenotype selection, the empirical breeding has long period and slow variety improvement progress, is difficult to meet the strong economic development requirements of China, and can only partially realize large-scale production, so that the existing large-scale production device has certain defects in use, such as:

1. the existing large-scale production device can not sample, compare and detect the organisms in breeding and is inconvenient to adjust the breeding mode according to data;

2. in the existing large-scale production device, when breeding organisms are extracted, extraction and inspection are generally carried out in a manual extraction mode, so that the environment of a culture room is slightly changed easily, and the culture effect is influenced;

3. according to the existing large-scale production device, the extracted breeding organisms cannot be timely collected, and the organisms in different culture rooms cannot be timely compared and detected.

Aiming at the problems, innovative design is urgently needed on the basis of the structure of the original large-scale production device.

Disclosure of Invention

The invention aims to provide a large-scale production device with a sampling comparison function for biological breeding, which aims to solve the problems that the conventional large-scale production device provided in the background art cannot perform sampling comparison detection on organisms in breeding, is inconvenient to adjust a breeding mode according to data, generally adopts a manual extraction mode to perform extraction detection when the breeding organisms are extracted, easily causes slight change of the environment of a breeding room, influences the breeding effect, cannot timely collect the data of the extracted breeding organisms, and cannot timely perform comparison reference detection on the organisms in different breeding rooms.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a scale apparatus for producing is used in biological breeding with sampling contrast function, includes base member, arrangement groove, removal ring, lower slider and clearance piece, the arrangement groove has been seted up to the internal surface of base member, and the internal surface nestification of arrangement groove installs the removal ring to the surface meshing that removes the ring is connected with straight-tooth gear, the internal surface fixed mounting of base member has the support frame, and the last surface mosaic of support frame installs fixed base, the internal surface of fixed base runs through installs the main shaft, and the surface of main shaft inlays and installs U type key, and the last surface mosaic of U type key installs rotating base, the discharge gate has been seted up to the external surface of base member, and the external surface fixed connection of discharge gate observes the support to observe the internal surface fixed mounting of support and have the main shaft, and the external surface nestification of main shaft installs the conveyer belt simultaneously, the last surface fixed mounting of removal ring has the, and the last fixed surface of layer board installs the culture dish, the last fixed surface who observes the support installs the baffler, and the lower fixed surface of baffler installs the reset block to the outer surface limit end fixed mounting of reset block has lower slider, and the internal surface fixed mounting who observes the support simultaneously has the clearance piece.

Preferably, the base body and the movable circular ring form a nested structure through the placement groove, the outer surface of the movable circular ring is in a gear-shaped structure, and the movable circular ring and the straight-tooth gear form a meshing structure.

Preferably, the upper surface of the movable circular ring is attached to the lower surface of the supporting plate, the upper surface of the supporting plate is connected with the lower surface of the culture dish, and the height of the outer surface of the culture dish is consistent with that of the outer surface of the discharge hole.

Preferably, the support frame, the base body and the fixed base form an embedded structure, the support frame and the U-shaped key form a rotating structure through the main shaft and the straight-tooth gear, the upper surface of the U-shaped key and the lower surface of the rotating base form an integrated structure, and meanwhile the main shaft and the support frame form a penetrating structure.

Preferably, the rotating base is provided with a sliding groove, the inner surface of the sliding groove is provided with a sliding rail in a sliding manner, the upper surface of the sliding rail is fixedly provided with a gear rack, and the outer surface of the sliding rail is fixedly provided with a push plate and a clamping arm.

Preferably, the rotating base forms a sliding structure with the sliding rail through the sliding groove, the sliding rail and the gear rack form an embedded structure, the gear rack and the straight-tooth gear form a meshing structure, meanwhile, the straight-tooth gear and the rotating base form a rotating structure through the main shaft, and the outer surface edge end of the sliding rail and the outer surface edge end of the push plate and the outer surface edge end of the clamping arm form an integrated structure.

Preferably, the main shaft is embedded and installed on the inner surface of the clamping arm, the clamping block is installed on the outer surface of the main shaft in a penetrating mode, the limiting block is fixedly installed at the edge end of the outer surface of the clamping block, and meanwhile the torsion spring is installed on the inner surface of the clamping block in a nesting mode.

Preferably, the clamping arm and the clamping block form a rotating structure through the main shaft, the clamping block and the limiting block form an embedded structure, the clamping block is arranged in 2 groups at equal angles relative to the middle end of the outer surface of the main shaft, meanwhile, the 2 assembling clamping blocks form an elastic structure through the torsion springs, and the 2 assembling clamping blocks form a clamping structure through the limiting block.

Preferably, observe the support and pass through main shaft and conveyer belt constitution revolution mechanic, and observe the support and constitute mosaic structure with baffler and reset block to the upper surface of conveyer belt is laminated with the lower surface of reset block, lower slider and clearance piece mutually, and the surface shape of gliding block is the triangle-shaped structure simultaneously.

Compared with the prior art, the invention has the beneficial effects that: the large-scale production device with the sampling and comparison functions for biological breeding is provided;

1. setting the matrixes in different devices, isolating different biological breeding growth modes of the matrixes through an observation bracket arranged between the devices, pushing a culture dish placed at the upper end of a supporting plate to the upper end of a conveying belt through a clamping block arranged on the matrixes in the growth process, carrying out contrast detection on the growth of the two parts of the conveying belt, and randomly drawing two parts of the same part for detection and contrast in the drawing and checking process;

2. the culture dish picking device is provided with the rotary base capable of automatically rotating, the using angle is adjusted through a rotating structure between the U-shaped key and the fixed base which are fixedly installed, the length during grabbing is convenient to adjust through the matching use between the gear rack and the sliding rail, and the movable circular ring capable of rotating is arranged, so that a required culture dish is convenient to select, artificial contact is reduced, and the culture effect and the change of data are prevented from being influenced;

3. the setting can be simultaneously to two sets of biological breeding extraction samples and load the observation support of keeping apart, and prevents through the lower sliding block who observes the support mounting that the bacterium that exists from getting into the arrangement groove on the conveyer belt to baffle and the reset block through the installation conveniently prevent that two kinds of breeding environment from taking place to overlap when extracting the sample, and conveniently carry the sample culture dish of taking out simultaneously, and separate each other and observe the inspection.

Drawings

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

FIG. 2 is a schematic diagram of a semi-sectional three-dimensional structure of a substrate according to the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a schematic perspective view of a fixing base according to the present invention;

FIG. 5 is a schematic view of a moving ring structure according to the present invention;

FIG. 6 is an enlarged view of the structure at B in FIG. 5 according to the present invention;

FIG. 7 is a schematic view of a half-sectional three-dimensional structure of the clamping block of the present invention;

fig. 8 is a schematic diagram of the exploded perspective structure of the present invention.

In the figure: 1. a substrate; 2. a placing groove; 3. moving the circular ring; 4. a straight-tooth gear; 5. a support plate; 6. a support frame; 7. a fixed base; 8. a U-shaped key; 9. rotating the base; 901. a chute; 902. a slide rail; 903. a gear rack; 10. pushing the plate; 11. installing a clamping arm; 1101. installing a clamping block; 1102. a limiting block; 1103. a torsion spring; 12. a discharge port; 13. a culture dish; 14. an observation support; 15. a main shaft; 16. a barrier plate; 17. a conveyor belt; 18. a reset block; 19. a lower slide block; 20. and (6) cleaning the blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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 present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: a large-scale production device with a sampling and comparing function for biological breeding comprises a base body 1, a placement groove 2, a moving circular ring 3, a straight-tooth gear 4, a supporting plate 5, a supporting frame 6, a fixed base 7, a U-shaped key 8, a rotating base 9, a sliding groove 901, a sliding rail 902, a gear rack 903, a pushing plate 10, a clamping arm 11, a clamping block 1101, a limiting block 1102, a torsion spring 1103, a discharge port 12, a culture dish 13, an observation support 14, a main shaft 15, a blocking plate 16, a conveying belt 17, a reset block 18, a lower sliding block 19 and a cleaning block 20, wherein the placement groove 2 is formed in the inner surface of the base body 1, the moving circular ring 3 is embedded in the inner surface of the placement groove 2, the outer surface of the moving circular ring 3 is connected with the straight-tooth gear 4 in a meshing manner, the supporting frame 6 is fixedly installed on the inner surface of the base body 1, the fixed base 7 is embedded in the upper surface, and the outer surface of main shaft 15 inlays and installs U type key 8, and the upper surface of U type key 8 inlays and installs rotating base 9, discharge gate 12 has been seted up to the surface of base member 1, and the outer fixed surface of discharge gate 12 is connected with observes support 14, and the internal surface of observing support 14 installs main shaft 15, and the surface nestification of main shaft 15 installs conveyer belt 17, the last fixed surface of removal ring 3 installs layer board 5, and the last fixed surface of layer board 5 installs culture dish 13, the last fixed surface of observing support 14 installs baffler 16, and the lower fixed surface of baffler 16 installs reset block 18, and the outer surface limit end fixed mounting of reset block 18 has lower slider 19, the internal surface fixed mounting of observing support 14 installs clearance piece 20 simultaneously.

Base member 1 constitutes nested structure through settling tank 2 and removal ring 3, and the surface shape that removes ring 3 is gear column structure, and remove ring 3 and straight-tooth gear 4 constitution engagement structure, through base member 1 and the nested structure who removes ring 3, the device is changed to the convenience when using, and the surface shape that removes ring 3 is gear column structure, and remove ring 3 and straight-tooth gear 4's engagement structure, can rotate when the extraction sample carries out contrast detection.

The upper surface that removes ring 3 laminates with the lower surface of layer board 5 mutually, and the upper surface of layer board 5 is connected with the lower surface of culture dish 13, and the surface height of culture dish 13 is highly unanimous with the surface height of discharge gate 12, the upper surface through removing ring 3 laminates with the lower surface of layer board 5 mutually, can carry out the simultaneous movement and use, and the upper surface of layer board 5 is connected with the lower surface of culture dish 13, increase the stability of sample when cultivating, and the surface height of culture dish 13 is highly unanimous with the surface height of discharge gate 12, conveniently press from both sides it and get the removal, prevent to remove and take place to empty.

Support frame 6 constitutes mosaic structure with base member 1 and fixed baseplate 7, and support frame 6 passes through main shaft 15 and straight-tooth gear 4 and U type key 8 constitution rotating-structure, and the upper surface of U type key 8 constitutes integrated structure with rotating baseplate 9's lower surface, main shaft 15 constitutes the structure that runs through with support frame 6 simultaneously, through support frame 6 and base member 1 and fixed baseplate 7's mosaic structure, stability when increasing the device and using, and support frame 6 and U type key 8's rotating-structure, conveniently adjust grabbing device's application angle, and the integrated structure of U type key 8's upper surface and rotating baseplate 9's lower surface, prevent the fracture phenomenon when using, main shaft 15 and support frame 6's the structure that runs through simultaneously, conveniently rotate and carry on spacingly.

The rotating base 9 is provided with a sliding groove 901, a sliding rail 902 is slidably mounted on the inner surface of the sliding groove 901, a gear strip 903 is fixedly mounted on the upper surface of the sliding rail 902, a push plate 10 and a clamping arm 11 are fixedly mounted on the outer surface of the sliding rail 902, the sliding groove 901, the sliding rail 902 and the gear strip 903 are arranged to facilitate grabbing of the culture dish 13, manual operation is prevented, and influence is caused on the internal environment of the culture dish.

The rotary base 9 and the sliding rail 902 form a sliding structure through the sliding chute 901, the sliding rail 902 and the gear rack 903 form an embedded structure, the gear rack 903 and the straight-tooth gear 4 form a meshing structure, the straight-tooth gear 4 and the rotary base 9 form a rotating structure through the main shaft 15, the outer surface edge end of the sliding rail 902 and the outer surface edge end of the push plate 10 and the clamping arm 11 form an integrated structure, the use position of the device can be conveniently adjusted according to the grabbing condition through the sliding structure of the rotary base 9 and the sliding rail 902, the embedded structure of the sliding rail 902 and the gear rack 903 increases the stability of the device when in use, the meshing structure of the gear rack 903 and the straight-tooth gear 4 can accurately adjust the position, the rotating structure of the straight-tooth gear 4 and the rotary base 9 facilitates the angle of the device when in use, and the outer surface edge end of the sliding rail 902 and the outer surface edge end of the push plate 10 and the clamping arm 11 form an integrated structure, preventing damage and leakage of the culture dish 13 due to breakage during use.

The main shaft 15 is mounted on the inner surface of the clamping arm 11 in an embedded mode, the clamping block 1101 is mounted on the outer surface of the main shaft 15 in a penetrating mode, the limiting block 1102 is fixedly mounted at the edge end of the outer surface of the clamping block 1101, meanwhile, the torsion spring 1103 is mounted on the inner surface of the clamping block 1101 in an embedded mode, the culture dish 13 can be prevented from falling when the culture dish is grabbed through the clamping device, and automatic grabbing can be achieved.

The clamping arm 11 and the clamping block 1101 form a rotating structure through the spindle 15, the clamping block 1101 and the limiting block 1102 form an embedding structure, 2 groups of the clamping block 1101 are arranged at equal angles relative to the middle end of the outer surface of the spindle 15, meanwhile, 2 groups of the clamping block 1101 form an elastic structure through the

torsion spring

1103, 2 groups of the clamping block 1101 are arranged at equal angles relative to the middle end of the outer surface of the spindle 15 through the limiting block 1102, the use position can be adjusted through the rotating structure of the clamping arm 11 and the clamping block 1101 through the clamping condition, the embedding structure of the clamping block 1101 and the limiting block 1102 facilitates control of the rotating angle, 2 groups of the clamping block 1101 are arranged at equal angles relative to the middle end of the outer surface of the spindle 15, meanwhile, 2 groups of the clamping block 1101 can automatically grab the culture dish 13 to work through the elastic structure of the torsion spring 1103, and excessive angle adjustment can be prevented through the.

The observation bracket 14 forms a rotating structure with the conveying belt 17 through the main shaft 15, the observation bracket 14 forms an embedding structure with the blocking plate 16 and the reset block 18, the upper surface of the conveying belt 17 is attached to the lower surfaces of the reset block 18, the lower slide block 19 and the cleaning block 20, meanwhile, the outer surface of the lower slide block 19 is in a triangular structure, the culture dish 13 is conveniently conveyed through the rotating structure of the observation bracket 14 and the conveying belt 17, the embedding structure of the observation bracket 14 with the blocking plate 16 and the reset block 18 prevents the pollution inside the matrix 1 through isolating and controlling the moving position of the culture dish 13, the upper surface of the conveying belt 17 is attached to the lower surfaces of the reset block 18, the lower slide block 19 and the cleaning block 20, the culture dish 13 can be glidingly moved, the pollution is prevented through the height difference between the conveying belt 17 and the matrix 1, and residues on the conveying belt 17 are reduced through the cleaning of the cleaning block 20, meanwhile, the outer surface of the lower slide block 19 is in a triangular structure.

The working principle is as follows: when the large-scale production device with the sampling and comparing function for biological breeding is used, according to the figures 1-8, the device is firstly placed at a position needing to work, when a sample needs to be extracted for comparison and detection, a motor arranged at the upper end of a base body 1 is opened to drive a main shaft 15 arranged on a fixed base 7 connected with a supporting frame 6 to rotate, a spur gear 4 connected with the edge end of the motor is driven to be meshed with a spur gear 4 fixedly arranged on a U-shaped key 8 to move, the using position of a rotating base 9 is adjusted, then the spur gear 4 arranged on the rotating base 9 drives a gear rack 903 to move, the gear rack 903 moves while driving a sliding rail 902 arranged inside a sliding groove 901 formed in the rotating base 9 to slide, the movable sliding rail 902 is convenient to limit, and a push plate 10 and a clamping arm 11 are driven to move, after moving to a certain position, the culture dish 13 placed on the supporting plate 5 installed on the moving ring 3 is moved to the middle end of the clamping arm 11 through the engaging motion of the moving ring 3 and the straight-tooth gear 4 installed in the installation groove 2 formed in the base body 1, the clamping block 1101 is driven to rotate through the pushing of the gear strip 903, the culture dish 13 is clamped through an included angle generated by the clamping blocks 1101 which are symmetrically arranged, the limiting block 1102 prevents the rotating angle from being too large, the torsion spring 1103 applies pressure to form automatic clamping and fixing, the culture dish 13 is pushed to the upper end of the conveying belt 17 installed on the observation bracket 14 through the discharge port 12, the conveying belt 17 is separated into half parts through the blocking plate 16 to prevent the culture dishes 13 in two groups of different environments from polluting the cultivation environment each other when being pushed out, and the culture dish is conveniently delivered to the upper end of the conveying belt 17 through the lower sliding block 19, and settle it at the both ends of conveyer belt 17 through reset block 18 and carry to conveyer belt 17 installs clearance piece 20 and can clear up it, prevents to cause the pollution to base member 1 inside, has increased holistic practicality.

Those not described in detail in this specification are within the skill of the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a biological breeding is with large-scale apparatus for producing with sampling contrast function, includes base member (1), arrangement groove (2), removes ring (3), lower slider (19) and clearance piece (20), its characterized in that: the utility model discloses a rotary table, including base member (1), the internal surface of base member (1) has seted up arrangement groove (2), and the internal surface nestification of arrangement groove (2) installs and removes ring (3) to the outer surface meshing of removing ring (3) is connected with straight-tooth gear (4), the internal surface fixed mounting of base member (1) has support frame (6), and the upper surface of support frame (6) inlays and installs fixed baseplate (7), the internal surface of fixed baseplate (7) runs through installs main shaft (15), and the external surface of main shaft (15) inlays and installs U type key (8), and the upper surface of U type key (8) inlays and installs rotating base (9), discharge gate (12) have been seted up to the external surface of base member (1), and the external surface fixed connection of discharge gate (12) observes support (14), and the internal surface fixed mounting who observes support (14) has main shaft (, simultaneously conveyer belt (17) are installed to the surface nestification of main shaft (15), the last fixed surface who removes ring (3) installs layer board (5), and the last fixed surface of layer board (5) installs culture dish (13), the last fixed surface who observes support (14) installs baffler (16), and the lower fixed surface of baffler (16) installs reset block (18) to the outer surface limit end fixed mounting of reset block (18) has lower slider (19), and the internal fixed surface who observes support (14) simultaneously installs clearance piece (20).

2. The mass production device for biological breeding with the sampling and comparison function according to claim 1, wherein: the base body (1) and the movable circular ring (3) form a nested structure through the placement groove (2), the outer surface of the movable circular ring (3) is in a gear-shaped structure, and the movable circular ring (3) and the straight-tooth gear (4) form a meshing structure.

3. The mass production device for biological breeding with the sampling and comparison function according to claim 1, wherein: the upper surface of the movable circular ring (3) is attached to the lower surface of the supporting plate (5), the upper surface of the supporting plate (5) is connected with the lower surface of the culture dish (13), and the height of the outer surface of the culture dish (13) is consistent with that of the outer surface of the discharge hole (12).

4. The mass production device for biological breeding with the sampling and comparison function according to claim 1, wherein: support frame (6) and base member (1) and fixed baseplate (7) constitute mosaic structure, and support frame (6) constitute rotating-structure through main shaft (15) and straight-tooth gear (4) and U type key (8) to the upper surface of U type key (8) constitutes integrated structure with the lower surface of rotating baseplate (9), and main shaft (15) constitute with support frame (6) simultaneously and run through the structure.

5. The mass production device for biological breeding with the sampling and comparison function according to claim 1, wherein: the rotary base (9) is provided with a sliding groove (901), a sliding rail (902) is slidably mounted on the inner surface of the sliding groove (901), a gear bar (903) is fixedly mounted on the upper surface of the sliding rail (902), and a push plate (10) and a clamping arm (11) are fixedly mounted on the outer surface of the sliding rail (902).

6. The mass production device for biological breeding with the sampling and comparison function according to claim 5, wherein: the rotary base (9) forms a sliding structure with the sliding rail (902) through the sliding groove (901), the sliding rail (902) and the gear rack (903) form an embedded structure, the gear rack (903) and the straight-tooth gear (4) form a meshing structure, meanwhile, the straight-tooth gear (4) forms a rotating structure with the rotary base (9) through the main shaft (15), and the outer surface edge end of the sliding rail (902) and the outer surface edge ends of the push plate (10) and the clamping arm (11) form an integrated structure.

7. The mass production device for biological breeding with the sampling and comparison function according to claim 5, wherein: the inner surface of the clamping arm (11) is embedded with a spindle (15), the outer surface of the spindle (15) is provided with a clamping block (1101) in a penetrating mode, the outer surface edge end of the clamping block (1101) is fixedly provided with a limiting block (1102), and meanwhile the inner surface of the clamping block (1101) is provided with a torsion spring (1103) in a nested mode.

8. The mass production device for biological breeding with sampling and comparison functions as claimed in claim 7, wherein: the clamping arm (11) forms a rotating structure through the spindle (15) and the clamping block (1101), the clamping block (1101) and the limiting block (1102) form an embedding structure, 2 groups of the clamping block (1101) are arranged at equal angles relative to the middle end of the outer surface of the spindle (15), meanwhile, the 2 groups of the clamping block (1101) form an elastic structure through the torsion spring (1103), and the 2 groups of the clamping block (1101) form a clamping structure through the limiting block (1102).

9. The mass production device for biological breeding with the sampling and comparison function according to claim 1, wherein: observe support (14) and constitute revolution mechanic through main shaft (15) and conveyer belt (17), and observe support (14) and constitute mosaic structure with baffler (16) and reset block (18) to the upper surface of conveyer belt (17) laminates mutually with reset block (18), lower slider (19) and the lower surface of clearance piece (20), and the surface shape of lower slider (19) is the triangle-shaped structure simultaneously.