CN115997725B - Clam seedling sperm and ovum device that promotes to arrange - Google Patents

Abstract

The invention discloses a clam seedling sperm and ovum emission promoting device, which belongs to the technical field of clam emission promotion and comprises an emission promoting box, wherein a top shell is fixedly arranged at the top of the emission promoting box, an electric push rod is fixedly arranged on the top surface of the top shell, and a longitudinal meshing gear shaft is longitudinally and fixedly arranged on the bottom surface of the top shell; according to the invention, through the design, after the clams are contacted with the water body, synchronous and good cleaning treatment can be carried out, in the cleaning process, the stable state of the clams can be ensured without manual subsequent treatment, the whole process can be carried out intelligently, preparation work can be carried out before the clams are forced to be discharged, and the water body stirring without a driving source can be continuously carried out when the clams are forced to be discharged, so that the forced to be discharged effect of the clams is continuously ensured, meanwhile, the position of the clams can be changed at any time, the forced to be discharged effect of the clams is further improved, and the whole forced to be discharged process is carried out intelligently without manual control.

Description

Clam seedling sperm and ovum device that promotes to arrange

Technical Field

The invention belongs to the technical field of clam forcing and discharging, and particularly relates to a clam seedling sperm and ovum forcing and discharging device.

Background

The clam is a common shellfish, the shell of the clam is generally yellow brown, but has purple color at the outer edge, such as a purple ring, so as to obtain the red mouth clam. The shell has growing wheels and radial ribs which are particularly clear at the purple outer ring portion to form a moire pattern. The inner surface of the shell is white, the edge of the inner shell is provided with purple and tiny sawtooth arrangement, the teeth are hard, in order to improve the yield of the clams, the clams need to be quickly propagated by utilizing the clam seedling raising technology, and when the clams are raised, the clams need to be subjected to sperm and ovum arrangement promotion.

The current method for promoting the excretion of the clams is to take out the developed parent clams, dry the parent clams in the shade for 5 to 8 hours, then transfer the parent clams into a prepared indoor cement pool, add water for 30 to 40 cm, and filter the water by sand filtration or 300 mesh bolting silk. Spreading parent shellfish on the bottom of the pond, and inflating to make water boiling. In the whole spawning process, spawning conditions are required to be checked in time, if fertilized eggs or excessive sperms are found, fertilized eggs are required to be removed in time, the fertilized eggs are placed into a prepared pond for hatching after counting, new water is timely filled into the cement pond to stimulate parent clams to continue ovulation until the parent clams are finished, the steps of the whole method for promoting the growth of the clams are tedious, the whole method is required to be completed manually, the whole labor intensity is high, water body boiling is driven only by introducing gas, more effective promoting effect on the clams is often not achieved directly, the success rate of the whole method for promoting the growth of the clams is low, the application effect is poor, and in order to solve the problems, a device for promoting the growth of the clams seedling sperm and the ovum is required to be needed.

Disclosure of Invention

The invention aims at: the device for promoting the emission of the sperm and the ovum of the clam seedlings is provided for solving the problems that the existing method for promoting the emission of the clam is complicated in steps, needs to be completed manually, has high overall labor intensity, can not directly achieve a more effective promoting effect on the clam by only leading in gas to drive water body to boil, has low success rate and poor application effect.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a clam seedling sperm, ovum are promoted row device, includes and is urged row case, it has the top shell to urge the top fixed mounting of row case, fixed mounting has the electricity push rod on the top surface of top shell, vertical fixed mounting has the meshing tooth axle of indulging on the bottom surface of top shell, it is provided with the cultivation chamber to urge the inside of row case, fixed mounting has the water injection pipe on the rear side outer wall of urging row case, the chamber door is installed through the hinge to urge the outside of row case, the output shaft one end fixed mounting of electricity push rod has the installation arc, rotate on the outer wall of installation arc and install built-in mechanism of urging, built-in mechanism of urging is used for the stable of clam to place to urge to arrange.

As a further description of the above technical solution:

the built-in exhaust promoting mechanism comprises a built-in box, a mounting assembly is arranged on the top surface of the built-in box and comprises a mounting frame, and the mounting frame is fixedly arranged on the top surface of the built-in box.

As a further description of the above technical solution:

the installation structure is characterized in that an installation shaft is fixedly installed on the outer wall of one side of the installation frame, meshing teeth are fixedly installed on the outer portion of the installation shaft, the longitudinally-arranged meshing teeth shaft and the meshing teeth are connected in a meshed mode, and one end of the installation shaft is movably connected with side holes formed in the side wall of the installation arc plate through a connecting spring.

As a further description of the above technical solution:

the inner surface of the built-in box is fixedly provided with a guide rail, the guide rail is provided with a clam placing component in a sliding mode, the clam placing component comprises a clam placing plate, and the top surface of the clam placing plate is provided with a plurality of clam placing grooves.

As a further description of the above technical solution:

the bottom of clam standing groove is provided with the screen, fixed mounting has the sucking disc on the screen, the one end fixed mounting of clam standing plate has the curb plate, the curb plate is located the outside of built-in case, be provided with the spout on the lateral wall of clam standing plate.

Furthermore, by being provided with an electric push rod and a built-in arranging mechanism in a matching way, before the clams are arranged in a promoting way, the door of the arranging box is opened, clams are placed in a clams placing groove of a clams placing component, water is injected to the bottom of a cultivating cavity through a water injection pipe until the water injection liquid level reaches a specified height, before the clams are arranged in the promoting way, the electric push rod can control the built-in arranging mechanism to descend, when the built-in arranging mechanism descends, a longitudinal meshing gear shaft can mesh with meshing teeth of a mounting component, so that the mounting shaft with the meshing teeth is driven to deflect at a certain angle, the integral posture of the built-in arranging mechanism also deflects, meanwhile, as the two ends of a connecting spring are respectively connected with the mounting shaft and a mounting arc plate, the connecting spring can continuously stretch upwards, and after the built-in arranging mechanism arrives in a water body, when the clams are not completely immersed in the water body, the meshing stroke of the longitudinally arranged meshing gear shaft and the meshing gear is completed, and the connecting spring can drive the built-in mechanism to wholly reset and swing, so that the clams in the built-in mechanism can obtain a good cleaning effect.

As a further description of the above technical solution:

the bottom of built-in case rotates installs and stirs the water subassembly, stir the water subassembly and including installing the jackshaft, install the jackshaft and rotate and install in the commentaries on classics downthehole that the bottom of built-in case set up, the bottom fixed mounting of installation jackshaft has the screw sleeve.

As a further description of the above technical solution:

the outside slant fixed mounting of screw sleeve has stirs the water sheet, vertical fixed mounting has the end double-screw bolt on the bottom surface inner wall in cultivation chamber, and end double-screw bolt is located screw sleeve's inside screw hole screw adaptation that sets up under end double-screw bolt and screw sleeve.

Further, through the supporting water stirring subassembly that installs in built-in mechanism bottom that forces, after the cleaning of clam is accomplished, open the bin outlet, discharge the washing sewage, fill the water with equipment again, when forcing to arrange, direct through electric push rod control built-in mechanism that forces continuously descends, until the water stirring subassembly contacts the bottom screw column in the equipment, because the screw hole screw thread adaptation that bottom screw column and screw sleeve set up in the inside, consequently, screw sleeve can drive the stirring piece and take place to rotate, the stirring piece can effectively improve the water velocity of flow, thereby to the clam stirs and forces to arrange, the circulated messenger built-in mechanism that forces up and down in this process, stirring piece can synchronous circulation rotation, play the continuous stirring effect to the water, it is continuous to guarantee the forcing effect of clam, can fast adjustment clam in the water position in the time of forcing, adapt to the clam and force the different stages's demand, through this design, can be when forcing clam, the clam continuously carry out the water stirring of no driving source, thereby continuously guarantee the forcing effect to the clam, can change the position at any time, further promote the whole intelligent control of forcing course, the clam is carried out.

As a further description of the above technical solution:

the gas guide assembly is used for quickly introducing gas and comprises a mounting side plate, the mounting side plate is fixedly mounted on one side outer wall of the top shell, and a gas tank is fixedly mounted on the top surface of the mounting side plate.

As a further description of the above technical solution:

the bottom fixed mounting of gas pitcher has the gas-supply pipe, the bottom fixed mounting of gas-supply pipe has the air current acceleration rate cover, the inside of air current acceleration rate cover is provided with the air current acceleration rate subassembly, the bottom fixed mounting of air duct of air current acceleration rate cover, the one end of air duct passes through the gas pocket sealing connection that sets up on side air pipe and the top shell's the lateral wall.

As a further description of the above technical solution:

the airflow speed increasing assembly comprises a first combined scroll type air passage and a second combined scroll type air passage, the first combined scroll type air passage and the second combined scroll type air passage are mutually clamped, and the volumes of the first combined scroll type air passage and the second combined scroll type air passage are consistent.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. according to the invention, the electric push rod and the built-in arranging mechanism are arranged in a matching way, before the clams are arranged in the arranging groove, the door of the arranging box is opened, clams are placed in the arranging groove of the clams placing component, water is injected to the bottom of the cultivating cavity through the water injection pipe until the water injection liquid level reaches a specified height, before the clams are arranged in the arranging groove, the electric push rod can control the built-in arranging mechanism to descend, when the built-in arranging mechanism descends, the longitudinal meshing toothed shaft can be meshed with the meshing teeth of the mounting component, so that the mounting shaft with the meshing teeth is driven to deflect by a certain angle, the integral posture of the built-in arranging mechanism can deflect, meanwhile, as the two ends of the connecting spring are respectively connected with the mounting shaft and the mounting arc plate, the connecting spring can continuously take up force, when the built-in arranging mechanism is arranged in a water body, the water body is not completely immersed in the clams, at the moment, the meshing stroke of the longitudinal meshing toothed shaft and the meshing teeth is completed, and at the moment, the connecting spring can drive the built-in arranging mechanism to wholly reset and swing, so that the clams in the built-in arranging mechanism can obtain good cleaning effect, the clams in the arranging mechanism can be stably arranged in the following condition, and can be kept in a stable condition, and can be cleaned without being manually, and can be continuously arranged in the following condition, and can be stably, and can be continuously cleaned, and stably, and can be continuously arranged, and can be continuously and continuously in the following by the arranging condition, and can be cleaned.

2. According to the invention, the water stirring assembly is arranged at the bottom of the built-in drainage mechanism in a matched manner, after the cleaning of the clams is finished, the discharge port is opened, cleaning sewage is discharged, the water body is filled in the device again, during drainage, the built-in drainage mechanism is controlled to continuously descend directly through the electric push rod until the water stirring assembly is in contact engagement with the bottom screw column in the device, due to the threaded fit of the threaded hole formed in the bottom screw column and the threaded sleeve, the threaded sleeve can drive the water stirring sheet to rotate, the water stirring sheet can effectively improve the flow rate of the water body, so that the clams are stimulated to drain, the built-in drainage mechanism can be circularly moved up and down in the process, the water stirring sheet can synchronously and circularly rotate to achieve the continuous stirring effect on the water body, the drainage effect of the clams is continuously ensured, meanwhile, the position of the clams in the water body can be quickly adjusted to adapt to the requirements of different stages of the drainage, the clams in the drainage of the clams, the water stirring without a driving source can be continuously performed, the drainage effect of the clams can be continuously ensured, meanwhile, the position of the clams can be further improved, the whole clam drainage is controlled, and the drainage effect of the clams is controlled intelligently, and the clams is not required.

3. According to the invention, the air guide assembly is arranged in a matching way, when the clams are forced to exhaust, the air tank can be started, the air tank inputs air into the water body in the forced exhaust box, so that a large number of bubbles can be generated in the water body in the forced exhaust box, the forced exhaust effect of the clams is further improved by combining the forced exhaust mechanism with the stirring of the water body, and the air guide assembly is internally provided with the air flow accelerating assembly which consists of the first combined volute air channel and the second combined volute air channel, and when the air enters the air flow accelerating hood, the air can be accelerated in the narrow air channels of the first combined volute air channel and the second combined volute air channel, so that the air flow rate is effectively improved, and the air finally guided into the forced exhaust box can generate a larger number of bubbles, and the forced exhaust effect is improved.

Drawings

Fig. 1 is a schematic perspective view of a clam seedling sperm and ovum arrangement promoting device.

Fig. 2 is a schematic perspective view of another angle of a clam seedling sperm and ovum arrangement promoting device.

Fig. 3 is an exploded perspective view of a clam seedling sperm and ovum arrangement promoting device.

Fig. 4 is an enlarged combined perspective view of a mechanism for promoting the discharge of sperm and ovum of a clam.

Fig. 5 is an enlarged exploded perspective view of a mechanism for promoting the discharge of sperm and ovum of a clam.

Fig. 6 is an enlarged exploded perspective view of an air guide assembly in a clam seedling sperm and ovum evacuation promoting device.

FIG. 7 is an enlarged schematic view of the structure of the A part of the clam seedling sperm and ovum arrangement promoting device.

FIG. 8 is an enlarged perspective view of an airflow accelerating assembly in a clam seedling sperm and ovum arrangement.

Fig. 9 is an enlarged perspective view of a clam placing assembly in a clam seedling sperm and ovum arrangement promoting device.

Legend description:

1. an electric push rod; 2. a top shell; 3. an air guide assembly; 31. a gas tank; 32. installing a side plate; 33. a gas pipe; 34. an airflow speed increasing cover; 35. an airflow speed increasing component; 351. a first combined scroll air passage; 352. a second combined scroll air passage; 36. an air duct; 4. a discharge accelerating box; 5. a door; 6. a cultivation cavity; 7. a built-in exhaust accelerating mechanism; 71. a mounting assembly; 711. a mounting frame; 712. a mounting shaft; 713. meshing teeth; 714. connecting a spring; 72. a built-in box; 73. a water leakage plate; 74. a water stirring assembly; 741. installing a top shaft; 742. a threaded sleeve; 743. stirring water sheets; 75. a side mounting groove; 76. a guide rail; 77. a clam placement assembly; 771. a side plate; 772. clam placing plates; 773. a clam placing groove; 774. a drain screen; 775. a chute; 8. longitudinally arranged meshing gear shafts; 9. installing an arc-shaped plate; 10. and a discharge port.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a clam seedling sperm, ovum are promoted row device, includes and is urged row case 4, the top fixed mounting that urges row case 4 has top shell 2, fixed mounting has electric putter 1 on the top surface of top shell 2, vertical fixed mounting has on the bottom surface of top shell 2 and indulges and put meshing tooth axle 8, the inside that urges row case 4 is provided with cultivates chamber 6, fixed mounting has the water injection pipe on the rear side outer wall that urges row case 4, the chamber door 5 is installed through the hinge in the outside that urges row case 4, the output shaft one end fixed mounting of electric putter 1 has installation arc 9, rotate on the outer wall of installation arc 9 and install built-in mechanism 7 that urge row, built-in mechanism 7 that urge row 7 is used for the stable of urging row of clam.

The built-in exhaust mechanism 7 comprises a built-in box 72, a mounting assembly 71 is arranged on the top surface of the built-in box 72, the mounting assembly 71 comprises a mounting frame 711, the mounting frame 711 is fixedly mounted on the top surface of the built-in box 72, a mounting shaft 712 is fixedly mounted on the outer wall of one side of the mounting frame 711, meshing teeth 713 are fixedly mounted on the outer side of the mounting shaft 712, the longitudinal meshing teeth shafts 8 are connected with the meshing teeth 713 in a meshed mode, and one end of the mounting shaft 712 is movably connected with side holes formed in the side wall of the mounting arc plate 9 through a connecting spring 714.

The inner surface of the built-in box 72 is fixedly provided with a guide rail 76, the guide rail 76 is provided with a clam placing assembly 77 in a sliding manner, the clam placing assembly 77 comprises a clam placing plate 772, the top surface of the clam placing plate 772 is provided with a plurality of clam placing grooves 773, the bottom of the clam placing grooves 773 is provided with a drain net 774, the drain net 774 is fixedly provided with a sucking disc, one end of the clam placing plate 772 is fixedly provided with a side plate 771, the side plate 771 is positioned on the outer side of the built-in box 72, and the side wall of the clam placing plate 772 is provided with a sliding groove 775.

The specific implementation mode is as follows: before the clam is forced to be discharged, the box door 5 of the forcing box 4 is opened, the clam is placed in the clam placing groove 773 of the clam placing component 77, water is injected to the bottom of the cultivating cavity 6 through the water injection pipe until the water injection liquid level reaches a specified height, before the clam is forced to be discharged, the electric push rod 1 can control the built-in forcing mechanism 7 to descend, when the built-in forcing mechanism 7 descends, the longitudinal meshing gear shaft 8 can mesh with the meshing gear 713 of the mounting component 71, so as to drive the mounting shaft 712 with the meshing gear 713 to deflect at a certain angle, the integral posture of the built-in forcing mechanism 7 also deflects, and meanwhile, as the two ends of the connecting spring 714 are respectively connected with the mounting shaft 712 and the mounting arc plate 9, therefore, the connecting spring 714 can continuously force upwards, when the built-in arrangement promoting mechanism 7 arrives in the water body, and when the water body does not completely submerge the clams, the meshing stroke of the longitudinally arranged meshing gear shaft 8 and the meshing teeth 713 is completed, and the forced connecting spring 714 can drive the built-in arrangement promoting mechanism 7 to integrally reset and swing, so that clams in the built-in arrangement promoting mechanism 7 can obtain good cleaning effect, and as the depth of the clams placing groove 773 is deeper, and the sucking discs are further arranged in the clams placing groove 773, clams can still keep the clams in a stable state during cleaning without manual subsequent adjustment.

Through this design, can make the clam contact with the water after, can carry out synchronous good cleaning treatment, and in the cleaning process, still can guarantee its steady state, need not the manual work and carry out subsequent treatment, whole can intelligent the going on, can be for forcing the preparation work before arranging.

The bottom of the built-in box 72 is rotatably provided with a water stirring component 74, the water stirring component 74 comprises a mounting top shaft 741, the mounting top shaft 741 is rotatably arranged in a rotating hole formed in the bottom of the built-in box 72, the bottom end of the mounting top shaft 741 is fixedly provided with a threaded sleeve 742, the outside oblique direction of the threaded sleeve 742 is fixedly provided with a water stirring sheet 743, the inner wall of the bottom surface of the cultivation cavity 6 is longitudinally and fixedly provided with a bottom stud, the bottom stud is positioned under the threaded sleeve 742, and the bottom stud is in threaded fit with a threaded hole formed in the threaded sleeve 742.

The specific implementation mode is as follows: after the clams are cleaned, the discharge outlet 10 is opened, cleaning sewage is discharged, the water body is filled in the device again, when the clams are forced to be discharged, the built-in forced-discharge mechanism 7 is controlled to continuously descend directly through the electric push rod 1 until the water stirring component 74 is in contact engagement with a bottom screw column in the device, the screw threads of the screw threads are matched with the screw threads of the screw threads sleeve 742, so that the screw threads sleeve 742 can drive the water stirring sheet 743 to rotate, the water stirring sheet 743 can effectively improve the water flow rate, the clams are stimulated to be forced to be discharged, the built-in forced-discharge mechanism 7 can be circulated in the process to move up and down, the water stirring sheet 743 can synchronously and circularly rotate, the forced-discharge effect of the clams is continuously guaranteed, and meanwhile, the position of the clams in the water body can be quickly adjusted, and the clams in different stages of forced to be discharged is met.

Through this design, can be when promoting the row to the clam, continuously carry out the water stirring that does not have the driving source to continuously guarantee to promote the row effect to the clam, can change the position of clam at any time simultaneously, further improve the row effect that promotes the clam, whole row process intellectuality goes on of promoting, need not artifical management and control.

The top shell is characterized in that a discharge port 10 is fixedly arranged on the outer wall of one side of the top shell 2, an air guide component 3 is arranged on the outer wall of the other side of the top shell 2, the air guide component 3 is used for quick air introduction, the air guide component 3 comprises a mounting side plate 32, the mounting side plate 32 is fixedly arranged on the outer wall of one side of the top shell 2, a gas tank 31 is fixedly arranged on the top surface of the mounting side plate 32, a gas pipe 33 is fixedly arranged at the bottom of the gas tank 31, an air flow accelerating cover 34 is fixedly arranged at the bottom of the gas pipe 33, an air guide pipe 36 is arranged in the air flow accelerating cover 34, one end of the air guide pipe 36 is in sealing connection with an air hole arranged on the side wall of the top shell 2 through a side air pipe, the air guide component 35 comprises a first combined scroll type air passage 351 and a second combined scroll type air passage 352, the first combined scroll type air passage 351 and the second combined scroll type air passage 352 are mutually clamped, and the first combined scroll type air passage 351 is in a small size.

The specific implementation mode is as follows: when the clams are forced to exhaust, the air tank 31 can be started, the air tank 31 inputs air into the water body in the forced exhaust box 4, a large amount of bubbles can be generated in the water body in the forced exhaust box 4, the forced exhaust effect of the clams is further improved by combining the forced exhaust mechanism 7 with the stirring of the water body, and the air flow accelerating assembly 35 is arranged in the air guide assembly 3 and consists of the first combined scroll type air channel 351 and the second combined scroll type air channel 352, and the air can be accelerated in the narrow air channels of the first combined scroll type air channel 351 and the second combined scroll type air channel 352 when the air enters the air flow accelerating hood 34, so that the air flow rate is effectively improved, and the air finally guided into the forced exhaust box 4 can generate a large amount of bubbles, and the forced exhaust effect is improved.

Working principle: before the clam is forced to be discharged, the box door 5 of the forcing box 4 is opened, the clam is placed in the clam placing groove 773 of the clam placing component 77, water is injected to the bottom of the cultivating cavity 6 through the water injection pipe until the water injection liquid level reaches a specified height, before the clam is forced to be discharged, the electric push rod 1 can control the built-in forcing mechanism 7 to descend, when the built-in forcing mechanism 7 descends, the longitudinal meshing gear shaft 8 can mesh with the meshing gear 713 of the mounting component 71, so as to drive the mounting shaft 712 with the meshing gear 713 to deflect at a certain angle, the integral posture of the built-in forcing mechanism 7 also deflects, and meanwhile, as the two ends of the connecting spring 714 are respectively connected with the mounting shaft 712 and the mounting arc plate 9, therefore, the connecting spring 714 can continuously force upwards, when the built-in arrangement promoting mechanism 7 arrives in the water body, and when the water body is not fully immersed in the clams, the meshing stroke of the longitudinally arranged meshing gear shaft 8 and the meshing teeth 713 is completed, and the forced connecting spring 714 can drive the built-in arrangement promoting mechanism 7 to wholly reset and swing, so that clams in the built-in arrangement promoting mechanism 7 can obtain good cleaning effect, and as the depth of the clams placing groove 773 is deeper, and the sucking discs are further arranged in the clams placing groove 773, clams can still keep the state stably during cleaning without manual subsequent adjustment; after the clams are cleaned, the discharge outlet 10 is opened, cleaning sewage is discharged, the water body is filled in the equipment again, when the clams are forced to be discharged, the built-in forced discharging mechanism 7 is controlled to continuously descend directly through the electric push rod 1 until the water stirring component 74 is in contact engagement with a bottom screw column in the equipment, the screw threads of the screw threads sleeve 742 are matched with the screw threads arranged in the screw threads sleeve 742, so that the screw threads sleeve 742 can drive the water stirring sheet 743 to rotate, the water stirring sheet 743 can effectively improve the water flow rate, the clams are stimulated to be forced to be discharged, the built-in forced discharging mechanism 7 can be circularly moved up and down in the process, the water stirring sheet 743 can synchronously and circularly rotate, the forced discharging effect of the clams is continuously ensured, and meanwhile, the position of the clams in the water body can be quickly adjusted, and the clams are suitable for the requirements of different stages of forced to be discharged; when the clams are forced to exhaust, the air tank 31 can be started, the air tank 31 inputs air into the water body in the forced exhaust box 4, a large amount of bubbles can be generated in the water body in the forced exhaust box 4, the forced exhaust effect of the clams is further improved by combining the forced exhaust mechanism 7 with the stirring of the water body, and the air flow accelerating assembly 35 is arranged in the air guide assembly 3 and consists of the first combined scroll type air channel 351 and the second combined scroll type air channel 352, and the air can be accelerated in the narrow air channels of the first combined scroll type air channel 351 and the second combined scroll type air channel 352 when the air enters the air flow accelerating hood 34, so that the air flow rate is effectively improved, and the air finally guided into the forced exhaust box 4 can generate a large amount of bubbles, and the forced exhaust effect is improved.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed within the scope of the present invention.

Claims (7)

1. The utility model provides a clam seedling sperm, ovum promote device of arranging, includes and promotes case (4), its characterized in that: the top of the air forcing and exhausting box (4) is fixedly provided with a top shell (2), the top surface of the top shell (2) is fixedly provided with an electric push rod (1), the bottom surface of the top shell (2) is longitudinally and fixedly provided with a longitudinal meshing gear shaft (8), the interior of the air forcing and exhausting box (4) is provided with a cultivation cavity (6), the rear side outer wall of the air forcing and exhausting box (4) is fixedly provided with a water injection pipe, the exterior of the air forcing and exhausting box (4) is provided with a box door (5) through a hinge, one end of an output shaft of the electric push rod (1) is fixedly provided with an installation arc plate (9), the installation arc plate (9) is rotatably provided with a built-in air forcing and exhausting mechanism (7) for stably placing and exhausting clams, one side outer wall of the top shell (2) is fixedly provided with an exhaust port (10), the other side outer wall of the top shell (2) is provided with an air guide assembly (3), the air guide assembly (3) is used for rapidly introducing air, the air guide assembly (3) comprises an air guide pipe (32), the air guide assembly (32) is fixedly provided with an air tank (32) and is fixedly provided with an air tank (31) on the bottom surface (31) of the top shell (32), the inside of air current acceleration rate cover (34) is provided with air current acceleration rate subassembly (35), the bottom fixed mounting of air duct (36) of air current acceleration rate cover (34), the one end of air duct (36) is through the gas pocket sealing connection that sets up on the lateral wall of side trachea and top shell (2), air current acceleration rate subassembly (35) include first combination snail type air flue (351) and second combination snail type air flue (352), mutual joint between first combination snail type air flue (351) and the second combination snail type air flue (352), the volume size of first combination snail type air flue (351) and second combination snail type air flue (352) is unanimous.

2. The clam sperm and ovum arrangement promoting device according to claim 1, wherein the internal arrangement promoting mechanism (7) comprises an internal box (72), a mounting assembly (71) is arranged on the top surface of the internal box (72), the mounting assembly (71) comprises a mounting frame (711), and the mounting frame (711) is fixedly mounted on the top surface of the internal box (72).

3. The clam seedling sperm and ovum row-promoting device according to claim 2, wherein a mounting shaft (712) is fixedly mounted on the outer wall of one side of the mounting frame (711), a meshing tooth (713) is fixedly mounted on the outer part of the mounting shaft (712), the longitudinally-arranged meshing tooth shaft (8) is in meshed connection with the meshing tooth (713), and one end of the mounting shaft (712) is movably connected with a side hole arranged on the side wall of the mounting arc plate (9) through a connecting spring (714).

4. A clam seedling sperm and ovum arrangement promotion device according to claim 3, wherein a guide rail (76) is fixedly arranged on the inner surface of the inner box (72), a clam placing component (77) is slidably arranged on the guide rail (76), the clam placing component (77) comprises a clam placing plate (772), and a plurality of clam placing grooves (773) are formed in the top surface of the clam placing plate (772).

5. The clam seedling sperm and ovum arrangement promoting device according to claim 4, wherein a drain net (774) is arranged at the bottom of the clam placing groove (773), a sucker is fixedly arranged on the drain net (774), a side plate (771) is fixedly arranged at one end of the clam placing plate (772), the side plate (771) is arranged at the outer side of the built-in box (72), and a sliding groove (775) is arranged on the side wall of the clam placing plate (772).

6. The clam sperm and ovum emission promotion device according to claim 5, wherein the bottom of the inner box (72) is rotatably provided with a water stirring assembly (74), the water stirring assembly (74) comprises a mounting top shaft (741), the mounting top shaft (741) is rotatably mounted in a rotating hole arranged at the bottom of the inner box (72), and the bottom end of the mounting top shaft (741) is fixedly provided with a threaded sleeve (742).

7. The clam seedling sperm and ovum row-promoting device according to claim 6, wherein a water stirring sheet (743) is obliquely and fixedly arranged outside the threaded sleeve (742), a bottom stud is longitudinally and fixedly arranged on the inner wall of the bottom surface of the cultivation cavity (6), the bottom stud is positioned under the threaded sleeve (742), and the bottom stud is in threaded fit with a threaded hole formed in the threaded sleeve (742).

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