CN216492667U - Reptile feeder - Google Patents
Reptile feeder Download PDFInfo
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- CN216492667U CN216492667U CN202122935130.2U CN202122935130U CN216492667U CN 216492667 U CN216492667 U CN 216492667U CN 202122935130 U CN202122935130 U CN 202122935130U CN 216492667 U CN216492667 U CN 216492667U
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- keeping box
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Abstract
The utility model discloses a reptile feeder, and relates to the technical field of feeding and correlation thereof. The device comprises a transverse plate, wherein one diagonal of the upper surface of the transverse plate is respectively connected with a liquid trough and a particle trough, the other diagonal of the upper surface of the transverse plate is respectively connected with a storage fresh-keeping box and a recovery fresh-keeping box, one side of the inner lower surface of the storage fresh-keeping box is connected with a second sealing partition plate, one side of the inner lower surface of the recovery fresh-keeping box is connected with a first sealing partition plate, and the lower surface of the recovery fresh-keeping box is sequentially provided with a water pump and a material pump from left to right. According to the utility model, through the arrangement of the material pump, the water pump, the first sealing partition plate and the second sealing partition plate, and the existence of the material pump and the water pump, people can control the device to recycle and store the residual water and granular food, so that the waste amount of the water and granular food is reduced, and the existence of the first sealing partition plate and the second sealing partition plate enables the device to store the water and granular food simultaneously, so that the device can provide the water and granular food for the reptiles simultaneously.
Description
Technical Field
The utility model belongs to the field of feeding and related technologies, and particularly relates to a reptile feeder.
Background
With the continuous development of social economy, the quality of life of people is improved. Some pets are raised in people's daily life, such as: dogs, cats, and reptiles, among others. In order to conveniently raise the reptiles, people use the reptile feeder, but the reptile feeder still has the following disadvantages in practical use:
1. the existing reptile feeder cannot recover and collect water and granular food which are not eaten by the reptiles, so that the pollution degree of the water and the granular food caused by external factors is increased, even the water and the granular food are eaten differently, and the waste of the water and the granular food is increased;
2. the single structure of current reptile feeder leads to current reptile feeder can only provide granular food or can only provide water, and then leads to the functional singleness of current reptile feeder.
Therefore, the existing reptile feeders cannot meet the requirements in practical use, so that there is a strong need in the market for improved techniques to solve the above problems.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a reptile feeder, which solves the problems that the existing reptile feeder cannot recover residual food and has single function by arranging a material pump, a water pump, a first sealing partition plate and a second sealing partition plate.
In order to solve the technical problems, the utility model is realized by the following technical scheme:
the utility model relates to a reptile feeder which comprises a transverse plate, wherein one diagonal of the upper surface of the transverse plate is respectively connected with a liquid trough and a particle trough, the other diagonal of the upper surface of the transverse plate is respectively connected with a storage fresh-keeping box and a recovery fresh-keeping box, one side of the inner lower surface of the storage fresh-keeping box is connected with a second sealing partition plate, one side of the inner lower surface of the recovery fresh-keeping box is connected with a first sealing partition plate, the lower surface of the recovery fresh-keeping box is sequentially provided with a water pump and a material pump from left to right, the upper end surface of a first conduit connected with the upper surface of the water pump is communicated with the lower part of the recovery fresh-keeping box, one end of a second conduit connected with the lower surface of the water pump is communicated with one side surface of the liquid trough, a fourth conduit connected with the upper surface of the material pump is communicated with the lower part of the recovery fresh-keeping box, and one end of a third conduit connected with the lower surface of the material pump is communicated with one side surface of the particle trough.
Further, the upper surface of the recycling preservation box is connected with a first cover plate, the upper surface of the storage preservation box is connected with a second cover plate, the lower surfaces of the first cover plate and the second cover plate are sequentially connected with a second sealing plug and a first sealing plug from left to right, specifically, the first cover plate is used for sealing the upper portion of the recycling safe box, and the second cover plate is used for sealing the upper portion of the storage preservation box.
Further, one side surface lower part intercommunication that the fresh-keeping case of recovery is close to the liquid trough has first pipe, and the lower terminal surface of first pipe is located the top of liquid trough, be connected with first solenoid valve on the first pipe, one side surface lower part intercommunication that the fresh-keeping case of recovery is close to the granule trough has the second pipe, and the lower terminal surface of second pipe is located the top of granule trough, be connected with the second solenoid valve on the second pipe, specifically, the existence of first pipe, a liquid food for discharging the inside of fresh-keeping case of recovery, the existence of first solenoid valve, a unobstructed for controlling first pipe, the existence of second pipe, a granule food for discharging the inside of fresh-keeping case of recovery, the existence of second solenoid valve, a unobstructed for controlling the second pipe.
Further, the lower surface of retrieving fresh-keeping case is provided with first bottom plate, equal threaded connection has first bolt on four corners in the lower surface outside of first bottom plate, the upper end of first bolt runs through the lower surface threaded connection of first bottom plate and retrieving fresh-keeping case, the upper surface of first bottom plate is connected with first ramp, four corners in the lower surface inboard of first bottom plate all are connected with first worker shape post, specifically, the existence of first bottom plate, a lower part for sealing retrieving fresh-keeping case, the existence of first bolt, a first bottom plate and retrieving safe box are used for the locking to connect, the existence of first ramp, a material guide, the existence of first worker shape post, a first bottom plate is used for supporting.
Further, the upper surface of the first pump seat that outer peripheral face one side of water pump is connected on the lower surface of first bottom plate, and the upper surface of the second pump seat that outer peripheral face one side of material pump is connected on the lower surface of first bottom plate, specifically, the existence of first pump seat for connect water pump and first bottom plate, the existence of second pump seat for connect material pump and first bottom plate.
Further, one side surface lower part intercommunication that the fresh-keeping case of storage is close to the liquid trough has the fourth pipe, and the lower terminal surface of fourth pipe is located the top of liquid trough, be connected with the fourth solenoid valve on the fourth pipe, one side surface lower part intercommunication that the fresh-keeping case of storage is close to the granule trough has the third pipe, and the lower terminal surface of third pipe is located the top of granule trough, be connected with the third solenoid valve on the third pipe, specifically, the existence of fourth pipe, be used for discharging the inside liquid food of the fresh-keeping incasement of storage, the existence of fourth solenoid valve, be used for controlling the unobstructed of fourth pipe, the existence of third pipe, be used for discharging the inside granule food of fresh-keeping incasement portion, the existence of third solenoid valve, be used for controlling the unobstructed of third pipe.
Further, the lower surface of the storage preservation box is provided with a second bottom plate, the equal threaded connection in four corners in the lower surface outside of second bottom plate has the second bolt, the upper end of second bolt runs through the lower surface threaded connection of second bottom plate and storage preservation box, the upper surface of second bottom plate is connected with the second swash plate platform, four corners in the lower surface inboard of second bottom plate all are connected with second worker shape post, specifically, the existence of second bottom plate, a bottom for sealing the storage preservation box, the existence of second bolt, a second bottom plate and storage preservation box are connected in the locking, the existence of second swash plate platform, a material guide, the existence of second worker shape post, a material storage preservation box is supported.
Further, four corners of the lower surface of granule trough and liquid trough all are connected with the internal thread cover, are provided with supporting component under the internal thread cover, and supporting component includes circular seat and external screw thread axle, and threaded connection is sheathe in at the external screw thread axle upper end of the upper surface connection of circular seat is internal thread, specifically, the existence of internal thread cover for the external screw thread axle respectively with granule trough and liquid trough between detachable connection, the external screw thread axle supports granule trough and liquid trough respectively.
The utility model has the following beneficial effects:
1. the utility model is provided with a material pump and a water pump structure, one diagonal of the upper surface of a transverse plate is respectively connected with a liquid trough and a particle trough, the other diagonal of the upper surface of the transverse plate is respectively connected with a storage fresh-keeping box and a recovery fresh-keeping box, the lower surface of the recovery fresh-keeping box is sequentially provided with the water pump and the material pump from left to right, the upper end surface of a first conduit connected with the upper surface of the water pump is communicated with the lower part of the recovery fresh-keeping box, one end of a second conduit connected with the lower surface of the water pump is communicated with one side surface of the liquid trough, a fourth conduit connected with the upper surface of the material pump is communicated with the lower part of the recovery fresh-keeping box, one end of a third conduit connected with the lower surface of the material pump is communicated with one side surface of the particle trough, the design is adopted, so that a user can guide the residual water in the liquid trough into the recovery fresh-keeping box by controlling the water pump, and guide the residual particle food in the recovery fresh-keeping box by controlling the material pump, and then reduced the contaminated degree of inside water of liquid trough and the inside granule food of granule trough because of external factors, and then made the inside remaining water of liquid trough and the inside remaining granule food of granule trough can retrieve reuse, and then reduced the waste of water and granule food.
2. According to the device, the first sealing partition plate and the second sealing partition plate are arranged, the second sealing partition plate is connected to one side of the inner lower surface of the storage fresh-keeping box, and the first sealing partition plate is connected to one side of the inner lower surface of the recovery fresh-keeping box.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.
FIG. 1 is a schematic top view of the present invention;
FIG. 2 is a schematic structural view of a material storage and fresh keeping box according to the present invention;
FIG. 3 is a schematic structural view of the recycling and freshness keeping box of the present invention;
FIG. 4 is a bottom view of the second cover of the present invention;
FIG. 5 is a schematic view of the connection of the internally threaded sleeve and the support assembly of the present invention.
In the drawings, the components represented by the respective reference numerals are listed below:
1. a recycling and fresh-keeping box; 11. a first cover plate; 12. a first sealing separator; 13. a first tube; 14. a first solenoid valve; 15. a first base plate; 16. a first bolt; 17. a first i-shaped post; 18. a first ramp table; 19. a second solenoid valve; 110. a second tube; 2. a storage and fresh-keeping box; 21. a second cover plate; 211. a first sealing plug; 212. a second sealing plug; 22. a second sealing separator; 23. a third tube; 24. a third electromagnetic valve; 25. a second base plate; 26. a second i-shaped post; 27. a second bolt; 28. a second ramp table; 29. a fourth tube; 210. a fourth solenoid valve; 3. a particle trough; 4. a transverse plate; 5. a support assembly; 51. a circular seat; 52. an externally threaded shaft; 6. a liquid trough; 61. an internal thread sleeve; 7. a water pump; 71. a first conduit; 72. a first pump mount; 73. a second conduit; 8. a material pump; 81. a third conduit; 82. a second pump mount; 83. and a fourth conduit.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
Referring to fig. 1-5, the utility model is a reptile feeder, comprising a transverse plate 4, a liquid trough 6 and a granule trough 3 are respectively connected to one diagonal of the upper surface of the transverse plate 4, a storage fresh-keeping box 2 and a recovery fresh-keeping box 1 are respectively connected to the other diagonal of the upper surface of the transverse plate 4, a second sealing partition plate 22 is connected to one side of the inner lower surface of the storage fresh-keeping box 2, a first sealing partition plate 12 is connected to one side of the inner lower surface of the recovery fresh-keeping box 1, a water pump 7 and a material pump 8 are sequentially arranged on the lower surface of the recovery fresh-keeping box 1 from left to right, the upper end surface of a first conduit 71 connected to the upper surface of the water pump 7 is communicated with the lower part of the recovery fresh-keeping box 1, one end of a second conduit 73 connected to the lower surface of the water pump 7 is communicated with one side surface of the liquid trough 6, a fourth conduit 83 connected to the upper surface of the material pump 8 is communicated with the lower part of the recovery fresh-keeping box 1, one end of a third conduit 81 connected to the lower surface of the material pump 8 is communicated with one side surface of the granule trough 3, specifically, the user communicates with the external power supply of the fourth electromagnetic valve 210, and then the user uses the external control end to start the fourth electromagnetic valve 210, so that the liquid food in the storage and fresh-keeping box 2 is discharged from the fourth pipe 29 to the inside of the liquid food groove 6;
then, the user communicates with the external power supply of the third electromagnetic valve 24, and then, the user starts the third electromagnetic valve 24 by using the external control end, so that the granular food in the storage and preservation box 2 is discharged to the inside of the granular food groove 3 from the third pipe 23;
then, the reptiles drink water in the liquid feeding trough 6 and eat granular food in the granular feeding trough 3;
when the residual water is in the liquid trough 6, the user is communicated with the external power supply of the water pump 7, and then the user starts the water pump 7 by using the external control end, so that the water in the liquid trough 6 sequentially enters the recycling and fresh-keeping box 1 through the second conduit 73 and the first conduit 71;
when the residual granular food is in the granular food groove 3, the user is communicated with the external power supply of the material pump 8, and then the user starts the material pump 8 by using the external control end, so that the granular food in the granular food groove 3 sequentially enters the recycling and fresh-keeping box 1 through the third guide pipe 81 and the fourth guide pipe 83;
when the reptile eats the food next time, the user is communicated with the external power supply of the first electromagnetic valve 14, and then the user starts the first electromagnetic valve 14 by using the external control end, so that the liquid food in the recycling and fresh-keeping box 1 is discharged to the inside of the liquid food groove 6 from the first pipe 13;
the user communicates the external power supply of the second electromagnetic valve 19, and then the user uses the external control end to start the second electromagnetic valve 19, so that the granular food inside the recycling and freshness-keeping box 1 is discharged from the second pipe 110 to the inside of the granular food trough 3.
As shown in fig. 1 and 4, the upper surface of the recycling preservation box 1 is connected with a first cover plate 11, the upper surface of the storing preservation box 2 is connected with a second cover plate 21, the lower surfaces of the first cover plate 11 and the second cover plate 21 are sequentially connected with a second sealing plug 212 and a first sealing plug 211 from left to right, specifically, a user applies an external force to the first cover plate 11 in a direction away from the recycling preservation box 1 by hand until the first sealing plug 211 and the second sealing plug 212 are completely separated from the inside of the recycling preservation box 1, and the user detaches the first cover plate 11 from the recycling preservation box 1; otherwise, the user connects the first cover plate 11 to the recycling and fresh-keeping box 1;
the user applies an external force to the second cover plate 21 in a direction away from the storage and freshness preservation box 2 by hand until the first sealing plug 211 and the second sealing plug 212 are completely separated from the interior of the storage and freshness preservation box 2, and at this time, the user detaches the second cover plate 21 from the storage and freshness preservation box 2; otherwise, the user connects the second cover plate 21 to the fresh-keeping box 2.
As shown in fig. 3, the lower part of the surface of one side of the recycling and freshness-retaining box 1 close to the liquid trough 6 is communicated with a first pipe 13, the lower end surface of the first pipe 13 is positioned above the liquid trough 6, the first pipe 13 is connected with a first electromagnetic valve 14, the lower part of the surface of one side of the recycling and freshness-retaining box 1 close to the particle trough 3 is communicated with a second pipe 110, the lower end surface of the second pipe 110 is positioned above the particle trough 3, the second pipe 110 is connected with a second electromagnetic valve 19, specifically, a user is communicated with an external power supply of the first electromagnetic valve 14, and then the user starts the first electromagnetic valve 14 by using an external control end, so that the liquid food in the recycling and freshness-retaining box 1 is discharged from the first pipe 13;
the user communicates with the external power supply of the second electromagnetic valve 19, and then the user uses the external control end to start the second electromagnetic valve 19, so that the granular food inside the recycling and fresh-keeping box 1 is discharged from the second pipe 110;
the lower surface of the recycling and fresh-keeping box 1 is provided with a first bottom plate 15, four corners outside the lower surface of the first bottom plate 15 are in threaded connection with first bolts 16, the upper ends of the first bolts 16 penetrate through the first bottom plate 15 and are in threaded connection with the lower surface of the recycling and fresh-keeping box 1, the upper surface of the first bottom plate 15 is connected with a first inclined plate table 18, four corners inside the lower surface of the first bottom plate 15 are connected with first I-shaped columns 17, specifically, a user applies a rotating external force to the first bolts 16 to enable the first bolts 16 to rotate and move in a direction far away from the recycling and fresh-keeping box 1 until the first bolts 16 are completely separated from the recycling and fresh-keeping box 1, and the user removes the first bolts 16 from the first bottom plate 15 and the recycling and fresh-keeping box 1; on the contrary, the user uses the first bolt 16 to lock and connect the first bottom plate 15 to the recycling and fresh-keeping box 1;
the upper surface of the first pump base 72 that the outer peripheral face one side of water pump 7 is connected on the lower surface of the first bottom plate 15, the upper surface of the second pump base 82 that the outer peripheral face one side of material pump 8 is connected on the lower surface of the first bottom plate 15, specifically, the user uses external bolts to lock and connect the first pump base 72 and the second pump base 82 on the first bottom plate 15 respectively, and then makes the water pump 7 and the material pump 8 all lock and connect on the first bottom plate 15.
As shown in fig. 2, the lower part of the surface of one side of the storage and freshness preservation box 2 close to the liquid trough 6 is communicated with a fourth pipe 29, the lower end surface of the fourth pipe 29 is located above the liquid trough 6, the fourth pipe 29 is connected with a fourth electromagnetic valve 210, the lower part of the surface of one side of the storage and freshness preservation box 2 close to the particle trough 3 is communicated with a third pipe 23, the lower end surface of the third pipe 23 is located above the particle trough 3, the third pipe 23 is connected with a third electromagnetic valve 24, specifically, a user is communicated with an external power supply of the fourth electromagnetic valve 210, and then the user starts the fourth electromagnetic valve 210 by using an external control end, so that liquid food in the freshness preservation box 2 is discharged from the fourth pipe 29;
a user communicates with an external power supply of the third electromagnetic valve 24, and then the user starts the third electromagnetic valve 24 by using an external control end, so that the granular food in the storage and preservation box 2 is discharged from the third pipe 23;
a second bottom plate 25 is arranged on the lower surface of the storage fresh-keeping box 2, second bolts 27 are in threaded connection with four corners outside the lower surface of the second bottom plate 25, the upper ends of the second bolts 27 penetrate through the second bottom plate 25 and are in threaded connection with the lower surface of the storage fresh-keeping box 2, a second inclined plate table 28 is connected with the upper surface of the second bottom plate 25, and second I-shaped columns 26 are connected with four corners inside the lower surface of the second bottom plate 25; otherwise, the user uses the second bolt 27 to lock the second bottom plate 25 to the fresh magazine 2.
As shown in fig. 1 and 5, the particle food bowl 3 and the liquid food bowl 6 are connected at four corners of the lower surfaces thereof with an internal thread sleeve 61, a support assembly 5 is arranged right below the internal thread sleeve 61, the support assembly 5 comprises a circular seat 51 and an external thread shaft 52, the upper end of the external thread shaft 52 connected with the upper surface of the circular seat 51 is connected with the internal thread sleeve 61 in a threaded manner, specifically, a user applies a rotating external force to the external thread shaft 52 to rotate the external thread shaft 52 and move the external thread shaft 52 in a direction far away from the internal thread sleeve 61 until the external thread shaft 52 is completely separated from the internal part of the internal thread sleeve 61, and thus, the user completes the separation between the internal thread sleeve 61 and the external thread shaft 52; instead, the user attaches the male threaded shaft 52 to the female threaded sleeve 61.
The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.
Claims (8)
1. Reptile feeder, including diaphragm (4), its characterized in that: one diagonal angle of the upper surface of the transverse plate (4) is respectively connected with a liquid trough (6) and a particle trough (3), the other diagonal angle of the upper surface of the transverse plate (4) is respectively connected with a storage fresh-keeping box (2) and a recovery fresh-keeping box (1), one side of the inner lower surface of the storage fresh-keeping box (2) is connected with a second sealing partition plate (22), one side of the inner lower surface of the recovery fresh-keeping box (1) is connected with a first sealing partition plate (12), the lower surface of the recovery fresh-keeping box (1) is sequentially provided with a water pump (7) and a material pump (8) from left to right, the upper end surface of a first conduit (71) connected with the upper surface of the water pump (7) is communicated with the lower part of the recovery fresh-keeping box (1), one end of a second conduit (73) connected with the lower surface of the water pump (7) is communicated with one side surface of the liquid trough (6), and a fourth conduit (83) connected with the lower part of the recovery fresh-keeping box (1) connected with the upper surface of the material pump (8), one end of a third conduit (81) connected with the lower surface of the material pump (8) is communicated with one side surface of the particle trough (3).
2. The reptile feeder of claim 1, wherein the upper surface of the recycling fresh-keeping box (1) is connected with a first cover plate (11), the upper surface of the storing fresh-keeping box (2) is connected with a second cover plate (21), and the lower surfaces of the first cover plate (11) and the second cover plate (21) are sequentially connected with a second sealing plug (212) and a first sealing plug (211) from left to right.
3. The reptile feeder of claim 2, wherein the lower part of the surface of the recycling fresh-keeping box (1) close to the liquid trough (6) is communicated with a first pipe (13), the lower end surface of the first pipe (13) is positioned above the liquid trough (6), the first pipe (13) is connected with a first electromagnetic valve (14), the lower part of the surface of the recycling fresh-keeping box (1) close to the particle trough (3) is communicated with a second pipe (110), the lower end surface of the second pipe (110) is positioned above the particle trough (3), and the second pipe (110) is connected with a second electromagnetic valve (19).
4. The reptile feeder of claim 3, wherein the lower surface of the fresh-keeping recycling box (1) is provided with a first bottom plate (15), four corners outside the lower surface of the first bottom plate (15) are all in threaded connection with first bolts (16), the upper ends of the first bolts (16) penetrate through the first bottom plate (15) and are in threaded connection with the lower surface of the fresh-keeping recycling box (1), the upper surface of the first bottom plate (15) is connected with a first inclined plate table (18), and four corners inside the lower surface of the first bottom plate (15) are all connected with first I-shaped columns (17).
5. The reptile feeder according to claim 1, wherein the upper surface of the first pump seat (72) connected to the outer circumferential surface side of the water pump (7) is connected to the lower surface of the first base plate (15), and the upper surface of the second pump seat (82) connected to the outer circumferential surface side of the material pump (8) is connected to the lower surface of the first base plate (15).
6. The reptile feeder of claim 2, wherein the lower part of the surface of one side of the storage and fresh-keeping box (2) close to the liquid trough (6) is communicated with a fourth pipe (29), the lower end surface of the fourth pipe (29) is positioned above the liquid trough (6), the fourth pipe (29) is connected with a fourth electromagnetic valve (210), the lower part of the surface of one side of the storage and fresh-keeping box (2) close to the particle trough (3) is communicated with a third pipe (23), the lower end surface of the third pipe (23) is positioned above the particle trough (3), and the third pipe (23) is connected with a third electromagnetic valve (24).
7. The reptile feeder of claim 6, wherein the lower surface of the storage fresh-keeping box (2) is provided with a second bottom plate (25), four corners outside the lower surface of the second bottom plate (25) are in threaded connection with second bolts (27), the upper ends of the second bolts (27) penetrate through the second bottom plate (25) and are in threaded connection with the lower surface of the storage fresh-keeping box (2), the upper surface of the second bottom plate (25) is connected with a second inclined plate platform (28), and four corners inside the lower surface of the second bottom plate (25) are in threaded connection with second I-shaped columns (26).
8. The reptile feeder of claim 6, wherein the particle trough (3) and the liquid trough (6) are connected with an internal thread sleeve (61) at four corners of the lower surface, a support component (5) is arranged right below the internal thread sleeve (61), the support component (5) comprises a circular seat (51) and an external thread shaft (52), and the upper end of the external thread shaft (52) connected with the upper surface of the circular seat (51) is connected with the internal thread sleeve (61) in a threaded manner.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122935130.2U CN216492667U (en) | 2021-11-26 | 2021-11-26 | Reptile feeder |
Applications Claiming Priority (1)
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CN202122935130.2U CN216492667U (en) | 2021-11-26 | 2021-11-26 | Reptile feeder |
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CN216492667U true CN216492667U (en) | 2022-05-13 |
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CN202122935130.2U Active CN216492667U (en) | 2021-11-26 | 2021-11-26 | Reptile feeder |
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2021
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