CN113019645B

CN113019645B - Tortoise is bred with husky processing apparatus that lays eggs

Info

Publication number: CN113019645B
Application number: CN202110299548.0A
Authority: CN
Inventors: 孙庆生
Original assignee: Jiangsu Jusheng Intelligent Transmission Technology Co ltd
Current assignee: Jiangsu Jusheng Intelligent Transmission Technology Co ltd
Priority date: 2021-03-22
Filing date: 2021-03-22
Publication date: 2022-09-09
Anticipated expiration: 2041-03-22
Also published as: CN113019645A

Abstract

The invention relates to an egg-laying sand treatment device, in particular to an egg-laying sand treatment device for turtle breeding, which comprises a fixed sand taking base, a sand feeding device, a sand adding sleeve and a sand crushing and screening device, wherein the fixed sand taking base is fixedly provided with the sand feeding device, the sand feeding device slides on the sand adding sleeve, the sand feeding device is welded on the sand crushing and screening device, the sand crushing and screening device is fixedly arranged on the fixed sand taking base, the sand adding sleeve is fixedly arranged on the sand crushing and screening device, and the fixed sand taking base is provided with a sand guiding groove; this device can feed the laying sand automatically in the processing procedure, and it is very convenient that this device is collected the laying sand after handling.

Description

Tortoise is bred with husky processing apparatus that lays eggs

Technical Field

The invention relates to a device for treating egg-laying sand, in particular to a device for treating egg-laying sand for breeding turtles.

Background

In tortoise cultivation, the eggs laid and hatched of the tortoise are main profits, the tortoise can lay the eggs under the sand, the tortoise is very selective in selecting the egg laying position, the tortoise often has a period of time to find the egg laying position before laying eggs, the uniform and fine sand can improve the comfort level of the tortoise and reduce the time for finding the egg laying position, the prior art mostly utilizes the cleaned river sand or sea sand for the egg laying sand of the tortoise, and inevitably has some larger sand grains in the natural sand, the tortoise eggs are very fragile, if the tortoise eggs directly fall on the larger sand grains, the risk of breaking the tortoise eggs is caused, and the output of the tortoise seedlings is reduced.

Disclosure of Invention

The invention mainly solves the technical problem of providing the egg-laying sand treatment device for turtle breeding, 1. the device can circularly treat egg-laying sand, discharge qualified sand, and repeatedly treat larger sand grains until the sand grains are qualified; 2. the device can treat the egg laying sand more uniformly, thereby avoiding the waste of the sand; 3. the device can automatically feed the egg laying sand in the treatment process; 4. this device is collected very conveniently to the egg-laying sand after handling.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a tortoise is bred with husky processing apparatus that lays eggs, includes fixed husky base of getting, sand feeding device, adds husky cover and the screening device is smashed to the sand, fixed husky base of getting on fixed mounting have sand feeding device, sand feeding device slides and is adding husky sheatheeing, sand feeding device welds on the screening device is smashed to the sand, screening device fixed mounting is smashed to the sand is fixed get husky base on, fixed mounting is gone up to the screening device is smashed to the sand adds husky cover, is provided with on the fixed husky base of getting and draws husky groove.

The sand feeding device comprises a power driving mechanism, a feeding sleeve, an inner blocking sleeve and guide plates, wherein the power driving mechanism is fixedly provided with the feeding sleeve, the power driving mechanism is fixedly arranged on the fixed sand taking base, the top of the feeding sleeve is arranged to be an inclined plane, the feeding sleeve is slidably arranged on the inner blocking sleeve, and the inner blocking sleeve is fixedly provided with a plurality of guide plates.

The power driving mechanism comprises a fixed U-shaped frame, a power motor A, a driving gear, a driven gear, a driving belt wheel, a driving belt, a driven belt wheel, an S-shaped top frame, a driving plate, a tension spring, a sliding shaft, a thrust spring and a spring fixing plate, wherein the power motor A is fixedly arranged on the fixed U-shaped frame, the driving gear is arranged at the output end of the power motor A, the driving gear is meshed with the driven gear through teeth, the driven gear is movably arranged on the fixed U-shaped frame through a shaft, the driven gear is fixedly provided with the driving belt wheel through a shaft, the driving belt is sleeved on the driving belt wheel and the driven belt wheel, the driven belt wheel is movably arranged on the fixed U-shaped frame through a shaft, the S-shaped top frame is fixedly arranged on the driven belt wheel through a shaft, the two driving plates are arranged, the two driving plates are connected through the tension spring and are respectively and fixedly arranged on the fixed sand taking base and the feeding sleeve, the driving plate is slidably mounted on the sliding shaft, two ends of the thrust spring are fixedly mounted on the driving plate and the spring fixing plate respectively, and the spring fixing plate is fixedly mounted on the sliding shaft.

Add the sand cover include L type mount, add the sand cover body, add husky mouth, fixed mounting has and adds the sand cover body on the L type mount, add husky mouth fixed mounting on adding the sand cover body.

The sand crushing and screening device comprises a fixed supporting rod, a sand outlet sleeve, a sand outlet hopper and a sand treatment device, wherein the fixed supporting rod is fixedly arranged on the sand outlet sleeve, the sand outlet sleeve is fixedly provided with the sand outlet hopper, and the sand treatment device is fixedly arranged on the sand outlet sleeve.

The sand processing device comprises a sand screening hopper, a sand storage hopper, a sand outlet channel and a sand processing mechanism, wherein the sand screening hopper is fixedly mounted on the sand outlet sleeve, the sand storage hopper is fixedly mounted in the sand screening hopper, an interval is arranged between the sand screening hopper and the conical surface of the sand storage hopper, and two ends of the sand outlet channel are respectively and fixedly mounted on the sand storage hopper and the sand processing mechanism.

The sand treatment mechanism comprises a power motor B, a transmission shaft, a sand poking wheel, a sand discharging sleeve, a sand treatment sleeve and a spiral blade, wherein the power motor B is fixedly installed on the sand discharging sleeve, the output end of the power motor B is provided with the transmission shaft, the spiral blade is fixedly installed on the transmission shaft and is located in the sand discharging sleeve, a sand discharging opening is formed in the sand discharging sleeve, the sand treatment sleeve is fixedly installed below the sand discharging sleeve, the spiral blade is located in the sand treatment sleeve, and the spiral blade is fixedly installed on the transmission shaft.

The egg-laying sand treatment device for turtle breeding has the beneficial effects that:

1. connecting the sand adding port 303 to an external sand conveying device, allowing sand to enter the sand adding sleeve body 302 through the sand adding port 303, starting the power motor A206, driving the output end driving gear 207 to rotate by the power motor A206, driving the driven gear 208 to rotate by the driving gear 207 being meshed with the driven gear 208, driving the driving pulley 209 to rotate by the driven gear 208, driving the driven pulley 211 to rotate by the driving belt 210, driving the S-shaped top frame 212 to rotate by the driven pulley 211, driving the driving plate 213 by the S-shaped top frame 212, pulling the tension spring 214 to push the thrust spring 216, driving the plate 213 to move and driving the feeding sleeve 202 to move, allowing the feeding sleeve 202 to move to jack up the sand through the upper end surface and discharge the sand through the guide plate 204, when the feeding sleeve 202 moves upwards, preventing the lower extension end of the feeding sleeve 202 from rising when the feeding sleeve 202 moves upwards, the sand continues to flow in.

2. The S-shaped top frame 212, the driving plate 213, the tension spring 214 and the thrust spring 216 release elastic potential energy to return the driving plate 213 to an initial position, and the tension spring 214 and the thrust spring 216 are adopted to simultaneously apply force to the driving plate 213, so that the state of the driving plate 213 can be rapidly adjusted, and a large external force is provided.

3. The sand falls into to depositing sand hopper 406, start power motor B409, power motor B409 drives through transmission shaft 410 and dials sand wheel 411 and helical blade 414 and rotates, helical blade 414 rotates and realizes transporting the sand to row's husky cover 412 the time, smash the sand, when dialling sand wheel 411 and rotating, get into the sand of arranging husky cover 412, dial sand wheel 411 and dial, discharge from the sand discharge mouth, fall into to screening sand hopper 405 through going out husky way 407, the sand that accords with the specification is discharged via screening sand hopper 405, great sand is through depositing the gap between sand hopper 406 and the screening sand hopper 405, carry out the reprocess, until qualified, thereby realize the homogeneity that the sand was handled, the waste of sand has been avoided.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic overall three-dimensional structure diagram of an egg-laying sand treatment device for turtle breeding according to the present invention.

Fig. 2 is a schematic view of an overall supplementary three-dimensional structure of the egg-laying sand treatment device for turtle breeding according to the present invention.

Fig. 3 is a schematic perspective view of a fixed sand-taking base 1 of the egg-laying sand treatment device for turtle breeding according to the present invention.

Fig. 4 is a schematic perspective view of a sand feeding device 2 of the egg-laying sand treatment device for turtle breeding according to the present invention.

Fig. 5 is a schematic three-dimensional structure diagram of a power driving mechanism 201 of an egg-laying sand processing device for turtle breeding according to the present invention.

Fig. 6 is a schematic perspective view of a sand adding sleeve 3 of the egg laying sand treatment device for turtle breeding according to the present invention.

Fig. 7 is a schematic perspective view of a sand crushing and screening device 4 of the egg-laying sand treatment device for turtle breeding according to the present invention.

Fig. 8 is a supplementary three-dimensional structural schematic diagram of a sand crushing and screening device 4 of the egg-laying sand treatment device for turtle breeding according to the present invention.

Fig. 9 is a schematic perspective view of a sand treatment device 404 of the egg-laying sand treatment device for turtle breeding according to the present invention.

Fig. 10 is a supplementary perspective view of a sand treatment device 404 of the egg-laying sand treatment device for turtle breeding according to the present invention.

Fig. 11 is a schematic cross-sectional structure diagram of a sand treatment mechanism 408 of the egg-laying sand treatment device for turtle breeding according to the present invention.

Fig. 12 is a supplementary cross-sectional structural diagram of a feeding mechanism body 408 of the egg-laying sand treatment device for turtle breeding according to the present invention.

In the figure: fixing a sand taking base 1; a sand feeding device 2; a power drive mechanism 201; a feed sleeve 202; an inner spacer sleeve 203; a lead-to plate 204; a stationary U-shaped frame 205; a power motor A206; a drive gear 207; a driven gear 208; a driving pulley 209; a belt 210; a driven pulley 211; an S-shaped top frame 212; a driving plate 213; a tension spring 214; a slide shaft 215; a thrust spring 216; a spring fixing plate 217; a sand adding sleeve 3; an L-shaped fixing frame 301; a sand adding sleeve body 302; a sand adding port 303; a sand crushing and screening device 4; a fixed strut 401; a sand outlet sleeve 402; a sand outlet hopper 403; a sand handling device 404; a sand screening hopper 405; a sand storage hopper 406; a sand outlet passage 407; a sand handling mechanism 408; a power motor B409; a drive shaft 410; a sand shifting wheel 411; a sand discharge jacket 412; a sand treatment sleeve 413; a helical blade 414.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the following description of the embodiment with reference to fig. 1, 2 and 3 shows that the egg-laying sand treatment device for turtle breeding comprises a fixed sand taking base 1, a sand feeding device 2, a sand adding sleeve 3 and a sand crushing and screening device 4, wherein the fixed sand taking base 1 is fixedly provided with the sand feeding device 2, the sand feeding device 2 slides on the sand adding sleeve 3, the sand feeding device 2 is welded on the sand crushing and screening device 4, the sand crushing and screening device 4 is fixedly arranged on the fixed sand taking base 1, the sand adding sleeve 3 is fixedly arranged on the sand crushing and screening device 4, and a sand guiding groove is formed in the fixed sand taking base 1.

The second embodiment is as follows:

the sand feeding device 2 includes a power driving mechanism 201, a feeding sleeve 202, an inner blocking sleeve 203, and a guiding plate 204, the power driving mechanism 201 is fixedly installed with the feeding sleeve 202, the power driving mechanism 201 is fixedly installed on the fixed sand taking base 1, the top of the feeding sleeve 202 is set as an inclined plane, the feeding sleeve 202 is slidably installed on the inner blocking sleeve 203, and the inner blocking sleeve 203 is fixedly installed with a plurality of guiding plates 204.

The power driving mechanism 201 comprises a fixed U-shaped frame 205, a power motor A206, a driving gear 207, a driven gear 208, a driving pulley 209, a transmission belt 210, a driven pulley 211, an S-shaped top frame 212, a driving plate 213, a tension spring 214, a sliding shaft 215, a thrust spring 216 and a spring fixing plate 217, wherein the power motor A206 is fixedly arranged on the fixed U-shaped frame 205, the driving gear 207 is arranged at the output end of the power motor A206, the driving gear 207 is meshed with the driven gear 208 through teeth, the driven gear 208 is movably arranged on the fixed U-shaped frame 205 through a shaft, the driving pulley 209 is fixedly arranged on the driven gear 208 through a shaft, the transmission belt 210 is sleeved on the driving pulley 209 and the driven pulley 211, the driven pulley 211 is movably arranged on the fixed U-shaped frame 205 through a shaft, the S-shaped top frame 212 is fixedly arranged on the driven pulley 211 through a shaft, the driving plate 213 is provided with two tensions, and the two driving plates 213 are connected through the spring 214, the driving plate 213 is slidably mounted on a sliding shaft 215, two ends of a thrust spring 216 are respectively fixedly mounted on the driving plate 213 and a spring fixing plate 217, the spring fixing plate 217 is fixedly mounted on the sliding shaft 215, a power motor A206 is started, the power motor A206 drives an output end driving gear 207 to rotate, the driving gear 207 is meshed with a driven gear 208 to further drive the driven gear 208 to rotate, the driven gear 208 drives a driving pulley 209 to rotate through a shaft, the driving pulley 209 drives a driven pulley 211 to rotate through a driving belt 210, the driven pulley 211 drives an S-shaped top frame 212 to rotate through a shaft, the S-shaped top frame 212 rotates to push the driving plate 213 to further pull a tension spring 214 to push the thrust spring 216, the driving plate 213 moves to drive the feeding sleeve 202 to move, and the feeding sleeve 202 moves to jack up sand through an upper end face, and is discharged through the guide plate 204, when the feed sleeve 202 moves upwards, the lower extension end of the feed sleeve 202 plays a role of preventing sand from continuously flowing in when the feed sleeve 202 rises, elastic potential energy is released at the S-shaped top frame 212 and the driving plate 213, and the tension spring 214 and the thrust spring 216, so that the driving plate 213 returns to the initial position, the driving plate 213 is stressed by the tension spring 214 and the thrust spring 216 at the same time, the state of the driving plate 213 can be rapidly adjusted, and a large external force is provided.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 6, and the present embodiment further describes the first embodiment, the sand adding cover 3 includes an L-shaped fixing frame 301, a sand adding cover body 302, and a sand adding port 303, the sand adding cover body 302 is fixedly mounted on the L-shaped fixing frame 301, and the sand adding port 303 is fixedly mounted on the sand adding cover body 302.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the sand crushing and screening device 4 includes a fixing support rod 401, a sand outlet sleeve 402, a sand outlet bucket 403, and a sand treatment device 404, the fixing support rod 401 is fixedly installed on the sand outlet sleeve 402, the sand outlet bucket 403 is fixedly installed on the sand outlet sleeve 402, and the sand treatment device 404 is fixedly installed on the sand outlet sleeve 402.

The sand processing device 404 comprises a sand sieving hopper 405, a sand storage hopper 406, a sand outlet channel 407 and a sand processing mechanism 408, wherein the sand sieving hopper 405 is fixedly arranged on the sand outlet sleeve 402, the sand storage hopper 406 is fixedly arranged in the sand sieving hopper 405, a gap is arranged between conical surfaces of the sand sieving hopper 405 and the sand storage hopper 406, and two ends of the sand outlet channel 407 are respectively and fixedly arranged on the sand storage hopper 406 and the sand processing mechanism 408.

The sand treatment mechanism 408 comprises a power motor B409, a transmission shaft 410, a sand shifting wheel 411, a sand discharging sleeve 412, a sand treatment sleeve 413 and a spiral blade 414, wherein the power motor B409 is fixedly installed on the sand discharging sleeve 412, the output end of the power motor B409 is provided with the transmission shaft 410, the transmission shaft 410 is fixedly installed with the spiral blade 414, the spiral blade 414 is positioned in the sand discharging sleeve 412, the sand discharging sleeve 412 is provided with a sand discharging port, the sand treatment sleeve 413 is fixedly installed below the sand discharging sleeve 412, the spiral blade 414 is positioned in the sand treatment sleeve 413, the spiral blade 414 is fixedly installed on the transmission shaft 410, sand falls into a sand storage hopper 406, the power motor B409 is started, the power motor B409 drives the sand shifting wheel 411 and the spiral blade 414 to rotate through the transmission shaft 410, the spiral blade 414 rotates to convey the sand to the sand discharging sleeve 412 and crush the sand, and the sand enters the sand in the sand discharging sleeve 412 when the sand shifting wheel 411 rotates, poke via the sand shifting wheel 411, discharge from the sand discharge port, fall into to sieve sand fill 405 through going out husky way 407, the sand that accords with the specification is discharged via sieve sand fill 405, and great sand is through depositing the gap between sand fill 406 and the sieve sand fill 405, handles repeatedly until qualified to realize the homogeneity that the sand was handled, avoided the waste of sand.

The invention relates to an egg-laying sand treatment device for turtle breeding, which has the working principle that:

connecting the sand adding port 303 to an external sand conveying device, allowing sand to enter the sand adding sleeve body 302 through the sand adding port 303, starting the power motor a206, driving the output end driving gear 207 to rotate by the power motor a206, driving the gear 207 to rotate by engaging with the driven gear 208, further rotating the driven gear 208, driving the driving pulley 209 to rotate by the shaft, driving the driven pulley 211 to rotate by the driving belt 210, driving the S-shaped top frame 212 to rotate by the driven pulley 211, driving the driving plate 213 by the S-shaped top frame 212 to rotate, further pulling the tension spring 214, pushing the thrust spring 216, driving the plate 213 to move, driving the feeding sleeve 202 to jack up the sand through the upper end surface and discharging the sand through the guide plate 204, when the feeding sleeve 202 moves upwards, the lower extension end of the feeding sleeve 202 serves to prevent the feeding sleeve 202 from rising, the sand continues to flow in, elastic potential energy is released by the S-shaped top frame 212 and the driving plate 213, the tension spring 214 and the thrust spring 216, the driving plate 213 returns to the initial position, the tension spring 214 and the thrust spring 216 are adopted to simultaneously stress the driving plate 213, the state of the driving plate 213 can be rapidly adjusted, and a large external force is provided.

The sand falls into a sand storage hopper 406, a power motor B409 is started, the power motor B409 drives a sand shifting wheel 411 and a spiral blade 414 to rotate through a transmission shaft 410, the spiral blade 414 rotates to realize the transportation of the sand to a sand discharging sleeve 412 and smashes the sand, when the sand shifting wheel 411 rotates, the sand entering the sand discharging sleeve 412 is shifted through the sand shifting wheel 411, is discharged from a sand discharging port and falls into a sand screening hopper 405 through a sand discharging channel 407, the sand meeting the specification is discharged through the sand screening hopper 405 and falls onto a fixed sand taking base 1 through the sand discharging sleeve 402 and a sand discharging hopper 403, the sand is collected through a sand guiding groove arranged on the fixed sand taking base 1, and the larger sand passes through a gap between the sand storage hopper 406 and the sand screening hopper 405 and is repeatedly treated until the sand is qualified, so that the uniformity of sand treatment is realized, and the waste of the sand is avoided.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a tortoise is bred with husky processing apparatus that lays eggs, includes fixed husky base (1), sand feeding device (2), adds husky cover (3) and sand and smashes sieving mechanism (4), its characterized in that of getting: the sand feeding device (2) is fixedly installed on the fixed sand taking base (1), the sand feeding device (2) slides on the sand adding sleeve (3), the sand feeding device (2) is welded on the sand crushing and screening device (4), the sand crushing and screening device (4) is fixedly installed on the fixed sand taking base (1), the sand adding sleeve (3) is fixedly installed on the sand crushing and screening device (4), and a sand guiding groove is formed in the fixed sand taking base (1);

the sand feeding device (2) comprises a power driving mechanism (201), a feeding sleeve (202), an inner blocking sleeve (203) and guide plates (204), wherein the feeding sleeve (202) is fixedly installed on the power driving mechanism (201), the power driving mechanism (201) is fixedly installed on the fixed sand taking base (1), the top of the feeding sleeve (202) is arranged to be an inclined plane, the feeding sleeve (202) is slidably installed on the inner blocking sleeve (203), and the inner blocking sleeve (203) is fixedly provided with the guide plates (204);

the power driving mechanism (201) comprises a fixed U-shaped frame (205), a power motor A (206), a driving gear (207), a driven gear (208), a driving belt wheel (209), a transmission belt (210), a driven belt wheel (211), an S-shaped top frame (212), a driving plate (213), a tension spring (214), a sliding shaft (215), a thrust spring (216) and a spring fixing plate (217), wherein the power motor A (206) is fixedly arranged on the fixed U-shaped frame (205), the driving gear (207) is arranged at the output end of the power motor A (206), the driving gear (207) is meshed with the driven gear (208) through teeth, the driven gear (208) is movably arranged on the fixed U-shaped frame (205) through a shaft, the driving belt wheel (209) is fixedly arranged on the driven gear (208) through a shaft, and the transmission belt (210) is sleeved on the driving belt wheel (209) and the driven belt wheel (211), the driven belt wheel (211) is movably arranged on the fixed U-shaped frame (205) through a shaft, the driven belt wheel (211) is fixedly provided with an S-shaped top frame (212) through a shaft, two driving plates (213) are arranged, the two driving plates (213) are connected through tension springs (214) and are respectively and fixedly arranged on the fixed sand taking base (1) and the feeding sleeve (202), the driving plates (213) are slidably arranged on a sliding shaft (215), two ends of each thrust spring (216) are respectively and fixedly arranged on the driving plates (213) and a spring fixing plate (217), and the spring fixing plate (217) is fixedly arranged on the sliding shaft (215);

the sand adding sleeve (3) comprises an L-shaped fixing frame (301), a sand adding sleeve body (302) and a sand adding opening (303), the sand adding sleeve body (302) is fixedly installed on the L-shaped fixing frame (301), and the sand adding opening (303) is fixedly installed on the sand adding sleeve body (302);

the sand crushing and screening device (4) comprises a fixed supporting rod (401), a sand outlet sleeve (402), a sand outlet hopper (403) and a sand treatment device (404), wherein the fixed supporting rod (401) is fixedly arranged on the sand outlet sleeve (402), the sand outlet hopper (403) is fixedly arranged on the sand outlet sleeve (402), and the sand treatment device (404) is fixedly arranged on the sand outlet sleeve (402);

the sand processing device (404) comprises a sand screening hopper (405), a sand storage hopper (406), a sand outlet channel (407) and a sand processing mechanism (408), wherein the sand screening hopper (405) is fixedly installed on the sand outlet sleeve (402), the sand storage hopper (406) is fixedly installed in the sand screening hopper (405), a gap is formed between the sand screening hopper (405) and the conical surface of the sand storage hopper (406), and two ends of the sand outlet channel (407) are respectively and fixedly installed on the sand storage hopper (406) and the sand processing mechanism (408);

sand processing mechanism (408) include power motor B (409), transmission shaft (410), dial sand wheel (411), arrange husky cover (412), sand processing cover (413), helical blade (414), power motor B (409) fixed mounting is on arranging husky cover (412), the output of power motor B (409) is provided with transmission shaft (410), fixed mounting has helical blade (414) on transmission shaft (410), helical blade (414) are located arrange husky cover (412), it arranges the husky mouth to be provided with on arranging husky cover (412), the below fixed mounting of arranging husky cover (412) has sand processing cover (413), helical blade (414) are located sand processing cover (413), helical blade (414) fixed mounting is on transmission shaft (410).