CN220511975U - Snake egg incubator - Google Patents

Abstract

The utility model belongs to the technical field of hatching, in particular to a snake egg incubator which comprises an incubator, wherein a cover plate is rotationally connected to the top surface of the incubator, the front end of the cover plate is fixedly connected with the incubator through bilateral symmetry buckles, the left wall of the incubator is provided with an air outlet with a filter screen, the right wall of the incubator is provided with a blower through a mounting seat, a hatching plate is arranged inside the incubator, brackets are fixedly arranged at four corners of the bottom surface of the hatching plate, the bottom surface of the brackets is fixedly connected with the inner wall of the incubator, a plurality of slots are formed in the top surface of the hatching plate, hatching components are inserted in the slots, the front side of the hatching plate is rotationally connected with a rotating shaft through supporting blocks at the left end and the right end of the hatching plate, and the rear wall of the hatching plate is slidingly connected with an egg illuminator mechanism. The utility model realizes the safe hatching of the snake eggs, reduces the influence of overflows of unfertilized or dead fetus caused by the deterioration and rupture of the snake eggs on the surrounding snake eggs, improves the hatching environment of the snake eggs, and is convenient for hatching the snake eggs.

Description

Snake egg incubator

Technical Field

The utility model relates to the technical field of hatching, in particular to a snake egg incubator.

Background

The artificial hatching of the snake eggs is to selectively hatch normal snake eggs, the appearance is more correct, the color and luster are more consistent, the key of the artificial hatching of the snake eggs is to grasp the temperature and humidity, not to make the temperature and humidity change too large, in order to make the temperature and humidity in a hatching jar balanced, the embryo is suitable to move, 1 egg is turned every 7-10 days, the eggs are slightly moved and lightly put when turned, so as to avoid extrusion and severe oscillation, unfertilized eggs or dead-fetus eggs are degraded and broken after being placed for a long time, overflows of the eggs are immersed in other eggs, other eggs can be influenced, fresh sand is paved at the bottom of a jar in the artificial hatching of the snake eggs, the thickness of the paved sand is preferably 30-40 cm away from the jar mouth, and then the collected snake eggs are placed in a horizontal row one by one;

when the eggs in the prior art are hatched, the eggs need to be turned for 1 time every 7-10 days, when the hatching quantity is large, the time and the labor are wasted when the eggs are turned, a protection device is not arranged between two adjacent eggs, unfertilized eggs or dead eggs can deteriorate and break after being placed for a long time, overflows of the unfertilized eggs or dead eggs are immersed into peripheral eggs, the peripheral eggs are influenced, a certain loss is caused, and the hatching of the eggs is not facilitated.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a snake egg incubator, which solves the technical problems that in the prior art, a protective device is not arranged between two adjacent snake eggs, unfertilized eggs or dead-fetus eggs can deteriorate and break after being placed for a long time, overflows of the unfertilized eggs or dead-fetus eggs are immersed into surrounding snake eggs, influence is caused on the surrounding snake eggs, certain loss is caused, and hatching and use of the snake eggs are not facilitated.

In order to solve the technical problems, the utility model provides the following technical scheme: the utility model provides a snake ovum incubator, includes the insulation can, the insulation can top surface rotates and is connected with the apron, the apron front end is connected fixedly with the insulation can through bilateral symmetry's hasp, the air outlet that has the filter screen has been seted up to the insulation can left wall, the air-blower is installed through the mount pad to the insulation can right wall, the inside hatching board that is equipped with of insulation can, hatching board bottom surface four corners department has all set firmly the support, the support bottom surface is fixed with insulation can inner wall connection, a plurality of slots have been seted up to hatching board top surface, inside grafting of slot has the hatching subassembly, the supporting shoe rotation through controlling both ends in hatching board front side is connected with the pivot, hatching board back wall sliding connection has egg candler mechanism.

Preferably, the output tube of air-blower is linked together with the insulation can is inside, a plurality of bleeder vents have been seted up to slot tank bottom be linear equidistant structure, slot internally mounted has the constant temperature heating wire, the constant temperature heating wire front end runs through the hatching board and extends to outside, the insulation can is insulation material preparation, and the constant temperature heating wire is convenient to provide suitable incubation temperature for snake ovum hatching.

Preferably, one of the side walls of the supporting block is provided with a servo motor through a mounting seat, an output shaft of the servo motor is coaxially connected with a rotating shaft, a plurality of worms are fixedly arranged on the rotating shaft in a linear equidistant structure, and the rotating shaft is driven to rotate along the supporting block through the servo motor to drive the worms to synchronously rotate.

Preferably, the hatching subassembly includes the hatching box, the hatching box outer wall is evenly arranged structure joint through the draw-in groove and has a plurality of elasticity chucks, elasticity chuck bottom surface is fixed with hatching board top surface connection, hatching box and slot grafting cooperation, hatching box bottom surface and slot tank bottom clearance fit, constant temperature heating wire is located between hatching box and the slot.

Preferably, a plurality of dogs are set firmly in the inside equidistant structure of linearity that is of hatching box, hatching box is inside to be bilateral symmetry structure rotation and is connected with two bull sticks, and bull stick outer wall cover between two adjacent dogs is equipped with the sleeve pipe, has placed snake ovum body between two adjacent dogs, snake ovum body outer wall all contacts with sleeve pipe outer wall friction, shelters from around the snake ovum body through dog and hatching box, when making unfertilized ovum or dead fetus's ovum rotten rupture, has reduced the influence that overflows caused peripheral snake ovum.

Preferably, the bull stick front end runs through the hatching box and extends to outside, extends to outside set firmly the gear on the bull stick, one of them gear and another gear engagement are connected, one of them gear front end set firmly the worm wheel, the worm wheel is connected with the worm meshing, and the worm is rotatory and the meshing transmission is to worm wheel synchronous rotation, and the worm wheel drives bull stick synchronous rotation, promotes the snake ovum body and rotates, conveniently turns simultaneously a plurality of snake ovum bodies.

Preferably, the egg candler mechanism comprises a sliding block, a T-shaped groove is formed in the rear wall of the hatching plate, the sliding block is in sliding connection with the T-shaped groove, a screw rod is arranged in the T-shaped groove, and the left end and the right end of the screw rod are both in rotary connection with the hatching plate through fixing blocks.

Preferably, the slider passes through screw hole and lead screw threaded connection, one of them the fixed block lateral wall is installed through the mount pad and is just reversing the motor, the output shaft and the lead screw coaxial coupling of positive and negative rotation motor, positive and negative rotation motor drive lead screw along the fixed block is rotatory, promotes the slider and slides along T type groove.

Preferably, the slider top surface has set firmly L shape piece, sliding connection has the stopper on the L shape piece, the cylinder is installed through the mount pad to L shape piece lateral wall, the piston rod back wall and the stopper antetheca of cylinder are connected fixedly, the stopper bottom surface is installed through the mount pad and is shone egg ware body, shines egg ware body and remove to snake ovum body top and shine egg use, conveniently look over the hatching condition of snake ovum body, in time rejects the snake ovum body of unfertilized ovum or dead fetus.

The utility model has the beneficial effects that:

1. the outside air is conveyed to the inside of the incubator through intermittent operation of the blower, a proper incubation environment is provided for the snake egg body on the incubation plate, the inside of the incubator is extruded to be discharged to the outside from the air outlet with the filter screen, the air inside the incubator is changed, the cover plate is conveniently rotated and opened along the incubator through the hasp, materials such as sandy soil for incubating the snake egg are paved inside the slot and compacted after the cover plate is opened, the constant temperature heating wire is covered by the sandy soil, the incubation box is inserted into the incubation plate through the slot after the cover plate, the bottom surface of the incubation box is in frictional contact with the top surface of the compacted sandy soil at the moment, then the snake egg body is placed between two adjacent check blocks, the snake egg body is in frictional contact with the outer wall of the sleeve, the sandy soil is covered to the middle upper end of the snake egg body, the placement of the snake egg body is completed, the sandy soil is heated and kept constant temperature through the constant temperature heating wire, a proper temperature is provided for incubating the snake egg body, and the periphery of the snake egg body is shielded through the check blocks and the incubation box. The safe hatching of the snake eggs is realized, the influence of overflows of unfertilized or dead-fetus snake eggs which deteriorate and break on surrounding snake eggs is reduced, the hatching environment of the snake eggs is improved, and the hatching use of the snake eggs is facilitated.

2. The worm wheel is driven to be meshed with the worm when the hatching box is installed, the rotating shaft is driven to rotate along the supporting block through the servo motor, at the moment, the worm is rotated and meshed to be driven to rotate synchronously, the worm wheel drives one of the rotating rods and the gear to rotate synchronously, the two gears rotate in opposite directions to drive the rotating rod and the sleeve to rotate synchronously, the sleeve at the left end rotates anticlockwise, the sleeve at the right end rotates clockwise to push the snake egg bodies to rotate, simultaneous turning of a plurality of snake egg bodies is facilitated, the turning efficiency of the snake egg bodies is improved in a labor-saving mode, and hatching and use of the snake egg bodies are facilitated.

3. The screw rod is driven to rotate along the fixed block through the forward and reverse rotation motor, the sliding block is pushed to slide along the T-shaped groove, the sliding block drives the L-shaped block to synchronously move, the air cylinder, the limiting block and the egg candler body are simultaneously driven to synchronously slide through the piston rod of the air cylinder, the limiting block is pushed to slide along the L-shaped block, the egg candler body is driven to move to the upper side of the snake egg body to use the egg candling, hatching conditions of the snake egg body are conveniently checked, and unfertilized eggs or dead-fetus snake egg bodies are timely removed so as to prevent other snake eggs which are hatched.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a cross-sectional view of the incubator of the present utility model;

FIG. 3 is a cross-sectional view of the hatching plate structure of the present utility model;

FIG. 4 is a cross-sectional view of the structure of the hatching box of the present utility model;

FIG. 5 is an enlarged schematic view of the structure at A of the present utility model;

FIG. 6 is a schematic view of an egg candler mechanism according to the present utility model;

FIG. 7 is a schematic diagram illustrating the assembly of a slider structure according to the present utility model.

In the figure: 1. an insulation box; 2. a cover plate; 3. a hasp; 4. an air outlet of the filter screen; 5. a blower; 6. an incubation plate; 7. a bracket; 8. a slot; 801. ventilation holes; 802. constant temperature electric heating wire; 9. a hatching assembly; 901. a hatching box; 902. a stop block; 903. a rotating rod; 904. a sleeve; 905. a snake egg body; 906. a gear; 907. a worm wheel; 908. an elastic chuck; 10. a support block; 11. a rotating shaft; 12. a worm; 13. an egg candler mechanism; 1301. a slide block; 1302. a T-shaped groove; 1303. a screw rod; 1304. a fixed block; 1305. a forward and reverse rotation motor; 1306. an L-shaped block; 1307. a limiting block; 1308. a cylinder; 1309. an egg candler body; 14. a servo motor.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments.

Example 1

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, a snake egg incubator comprises an incubator 1, a cover plate 2 is rotationally connected to the top surface of the incubator 1, the front end of the cover plate 2 is fixedly connected with the incubator 1 through a hasp 3 which is bilaterally symmetrical, an air outlet 4 with a filter screen is formed in the left wall of the incubator 1, a blower 5 is mounted on the right wall of the incubator 1 through a mounting seat, an incubator 1 is internally provided with an incubator 6, brackets 7 are fixedly arranged at four corners of the bottom surface of the incubator 6, the bottom surface of the brackets 7 is fixedly connected with the inner wall of the incubator 1, a plurality of slots 8 are formed in the top surface of the incubator 6, incubation assemblies 9 are inserted in the slots 8, rotating shafts 11 are rotationally connected to the front side of the incubator 6 through supporting blocks 10 at the left end and the right end, and an egg candler mechanism 13 is slidingly connected to the rear wall of the incubator 6.

The output pipe of the blower 5 is communicated with the inside of the incubator 1, a plurality of air holes 801 are formed in the bottom of the slot 8 in a linear equidistant structure, a constant-temperature heating wire 802 is installed in the slot 8, the front end of the constant-temperature heating wire 802 penetrates through the hatching plate 6 to extend to the outside, and the incubator 1 is made of heat-insulating materials; the constant temperature heating wire 802 conveniently provides a suitable incubation temperature for the snake eggs to incubate.

A servo motor 14 is arranged on the side wall of one supporting block 10 through a mounting seat, an output shaft of the servo motor 14 is coaxially connected with a rotating shaft 11, and a plurality of worms 12 are fixedly arranged on the rotating shaft 11 in a linear equidistant structure; the servo motor 14 drives the rotating shaft 11 to rotate along the supporting block 10, and drives the worm 12 to synchronously rotate.

The hatching assembly 9 comprises a hatching box 901, wherein the outer wall of the hatching box 901 is in a uniformly arranged structure through a clamping groove, a plurality of elastic clamping heads 908 are clamped and connected with the top surface of a hatching plate 6, the bottom surface of the elastic clamping heads 908 is fixedly connected with the top surface of the hatching plate 6, the hatching box 901 is in plug-in fit with a slot 8, the bottom surface of the hatching box 901 is in clearance fit with the slot 8, a constant-temperature heating wire 802 is positioned between the hatching box 901 and the slot 8, a plurality of check blocks 902 are fixedly arranged in the hatching box 901 in a linear equidistant structure, two rotating rods 903 are rotatably connected in the hatching box 901 in a bilateral symmetry structure, a sleeve 904 is sleeved on the outer wall of each rotating rod 903 between two adjacent check blocks 902, a snake egg body 905 is placed between two adjacent check blocks 902, and the outer wall of each snake egg body 905 is in friction contact with the outer wall of the sleeve 904; the baffle 902 and the hatching box 901 are used for shielding the periphery of the snake egg body 905, so that when unfertilized eggs or dead eggs deteriorate and break, the influence of overflows on the surrounding snake eggs is reduced.

The front end of the rotating rod 903 penetrates through the hatching box 901 and extends to the outside, a gear 906 is fixedly arranged on the rotating rod 903 extending to the outside, one gear 906 is meshed with the other gear 906, a worm wheel 907 is fixedly arranged at the front end of one gear 906, and the worm wheel 907 is meshed with the worm 12; the worm 12 rotates and is meshed with the worm wheel 907 to synchronously rotate, the worm wheel 907 drives the rotating rod 903 to synchronously rotate, the snake egg bodies 905 are pushed to rotate, and a plurality of snake egg bodies 905 can be turned over simultaneously.

The working principle of the utility model is as follows: firstly, intermittently working through a blower 5 to convey external air into an incubator 1, providing a proper hatching environment for a snake egg body 905 on a hatching plate 6, extruding the interior of the incubator 1 to be discharged to the outside from an air outlet 4 with a filter screen, replacing air in the interior of the incubator 1, conveniently rotating and opening a cover plate 2 along the incubator 1 through a hasp 3, paving materials such as sandy soil for hatching the snake egg into a slot 8 and compacting the materials after opening, covering a constant-temperature heating wire 802 by the sandy soil, plugging a hatching box 901 into the hatching plate 6 through the slot 8, at the moment, enabling the bottom surface of the hatching box 901 to be in frictional contact with the top surface of the compacted sandy soil, then placing the snake egg body 905 between two adjacent stoppers 902, enabling the snake egg body 905 to be in frictional contact with the outer wall of a sleeve 904, covering the sandy soil to the upper end of the snake egg body 905, completing placement of the snake egg body 905, heating and keeping the sandy soil constant temperature through the constant-temperature heating wire 802, providing proper temperature for hatching the snake egg body 905, shielding the periphery of the snake egg body 905, and reducing the influence of the snake egg which is not broken or overflows when the snake egg is broken;

when the snake egg body 905 is rotated, the worm wheel 907 is driven to be meshed with the worm 12 when the hatching box 901 is installed, the rotating shaft 11 is driven to rotate along the supporting block 10 through the servo motor 14, at the moment, the worm 12 rotates and is meshed with the worm wheel 907 to be driven to rotate synchronously, the worm wheel 907 drives one of the rotating rods 903 and the gears 906 to rotate synchronously, the rotating directions of the two gears 906 are opposite to each other to drive the rotating rods 903 and the sleeve 904 to rotate synchronously, at the moment, the sleeve 904 at the left end rotates anticlockwise, the sleeve 904 at the right end rotates clockwise, the snake egg body 905 is pushed to rotate, and simultaneous turning of the snake egg bodies 905 is facilitated.

Example two

As shown in fig. 6 and 7, on the basis of the first embodiment, the egg candler mechanism 13 includes a slider 1301, a T-shaped groove 1302 is formed in the rear wall of the hatching plate 6, the slider 1301 is slidably connected with the T-shaped groove 1302, a screw rod 1303 is arranged in the T-shaped groove 1302, the left end and the right end of the screw rod 1303 are both rotatably connected with the hatching plate 6 through a fixed block 1304, the slider 1301 is in threaded connection with the screw rod 1303 through a threaded hole, a forward and reverse rotation motor 1305 is mounted on the side wall of one fixed block 1304 through a mounting seat, and an output shaft of the forward and reverse rotation motor 1305 is coaxially connected with the screw rod 1303; the forward and reverse motor 1305 drives the screw rod 1303 to rotate along the fixed block 1304, pushing the slider 1301 to slide along the T-shaped groove 1302.

An L-shaped block 1306 is fixedly arranged on the top surface of the sliding block 1301, a limiting block 1307 is connected onto the L-shaped block 1306 in a sliding manner, a cylinder 1308 is arranged on the side wall of the L-shaped block 1306 through a mounting seat, the rear wall of a piston rod of the cylinder 1308 is fixedly connected with the front wall of the limiting block 1307, and an egg candler body 1309 is arranged on the bottom surface of the limiting block 1307 through the mounting seat; the egg candler body 1309 moves to the upper portion of the snake egg body 905 to carry out egg candling, so that hatching conditions of the snake egg body 905 are conveniently checked, and unfertilized eggs or dead-fetus snake egg bodies 905 are removed in time.

When the egg candler is used, the screw rod 1303 is driven to rotate along the fixed block 1304 by the forward and reverse rotation motor 1305, the sliding block 1301 is pushed to slide along the T-shaped groove 1302, the sliding block 1301 drives the L-shaped block 1306 to synchronously move, the L-shaped block 1306 simultaneously drives the air cylinder 1308, the limiting block 1307 and the egg candler body 1309 to synchronously slide, the piston rod of the air cylinder 1308 pushes the limiting block 1307 to slide along the L-shaped block 1306, the egg candler body 1309 is driven to move to the upper side of the snake egg body 905 for egg candling, hatching conditions of the snake egg body 905 are conveniently checked, and unfertilized eggs or dead-fetus snake egg bodies 905 are removed in time.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (9)

1. The utility model provides a snake ovum incubator, includes insulation can (1), its characterized in that: the utility model discloses a incubator, including incubator (1), buckle (3), incubator (1), air inlet (4), air-blower (5), incubator (1) are installed through the mount pad to the left and right walls of incubator (1), incubator (1) inside hatching board (6), hatching board (6) bottom surface four corners department has all set firmly support (7), support (7) bottom surface is fixed with incubator (1) inner wall connection, a plurality of slots (8) have been seted up to hatching board (6) top surface, inside grafting of slot (8) has hatching subassembly (9), supporting shoe (10) rotation connection of both ends have pivot (11) are passed through to hatching board (6) front side, hatching board (6) back wall sliding connection has egg candler mechanism (13).

2. A snake egg incubator according to claim 1, wherein: the output pipe of air-blower (5) is linked together with incubator (1) inside, a plurality of bleeder vents (801) have been seted up to slot (8) tank bottom be linear equidistant structure, slot (8) internally mounted has constant temperature heating wire (802), constant temperature heating wire (802) front end runs through hatching board (6) and extends to outside.

3. A snake egg incubator according to claim 2, wherein: one of them supporting shoe (10) lateral wall is installed servo motor (14) through the mount pad, the output shaft and the pivot (11) coaxial coupling of servo motor (14), be linear equidistant structure on pivot (11) and set firmly a plurality of worms (12).

4. A snake egg incubator according to claim 3, wherein: the hatching subassembly (9) is including hatching box (901), hatching box (901) outer wall is evenly arranged structure joint through the draw-in groove has a plurality of elasticity dop (908), elasticity dop (908) bottom surface is fixed with hatching board (6) top surface connection, hatching box (901) are pegged graft the cooperation with slot (8), hatching box (901) bottom surface and slot (8) tank bottom clearance fit, constant temperature heating wire (802) are located between hatching box (901) and slot (8).

5. The snake egg incubator of claim 4, wherein: the hatching box (901) is internally provided with a plurality of stop blocks (902) in a fixed mode in a linear equidistant structure, two rotary rods (903) are connected in a rotary mode in a bilateral symmetry structure mode in the hatching box (901), a sleeve (904) is sleeved on the outer wall of each rotary rod (903) between two adjacent stop blocks (902), a snake egg body (905) is placed between two adjacent stop blocks (902), and the outer walls of the snake egg bodies (905) are in friction contact with the outer walls of the sleeve (904).

6. A snake egg incubator according to claim 5, wherein: the front end of the rotating rod (903) penetrates through the hatching box (901) to the outside, a gear (906) is fixedly arranged on the rotating rod (903) which extends to the outside, one gear (906) is meshed with the other gear (906), a worm wheel (907) is fixedly arranged at the front end of one gear (906), and the worm wheel (907) is meshed with the worm (12).

7. The snake egg incubator of claim 6, wherein: the egg candler mechanism (13) comprises a sliding block (1301), a T-shaped groove (1302) is formed in the rear wall of the hatching plate (6), the sliding block (1301) is connected with the T-shaped groove (1302) in a sliding mode, a screw rod (1303) is arranged in the T-shaped groove (1302), and the left end and the right end of the screw rod (1303) are connected with the hatching plate (6) in a rotating mode through fixing blocks (1304).

8. A snake egg incubator according to claim 7, wherein: the sliding block (1301) is in threaded connection with the screw rod (1303) through a threaded hole, a forward and reverse rotation motor (1305) is installed on the side wall of one fixed block (1304) through a mounting seat, and an output shaft of the forward and reverse rotation motor (1305) is coaxially connected with the screw rod (1303).

9. A snake egg incubator according to claim 8, wherein: the utility model discloses a device for illuminating eggs, including slider (1301), stopper (1309) are installed through the mount pad, L shape piece (1306) have been set firmly to slider (1301) top surface, sliding connection has stopper (1307) on L shape piece (1306), cylinder (1308) are installed through the mount pad to L shape piece (1306) lateral wall, the piston rod back wall of cylinder (1308) is connected fixedly with stopper (1307) front wall, stopper (1307) bottom surface is installed through the mount pad and is shined egg ware body (1309).