Scorpion breeding box and breeding system

By setting up separate feeding, drinking, and molting areas in the scorpion breeding box, and utilizing partition boards and pull-out box structures, the problem of interference during scorpion molting was solved, thereby improving the survival rate and economic benefits of scorpions.

CN118140875BActive Publication Date: 2026-06-26ZHANGJIAKOU CHENSHENG AGRI DEV CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
ZHANGJIAKOU CHENSHENG AGRI DEV CO LTD
Filing Date
2024-04-07
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

In existing scorpion farming facilities, scorpions are easily disturbed by other scorpions and reptiles when molting, resulting in low survival rates and poor economic benefits.

Method used

Design a scorpion breeding box containing multiple breeding trough units. Each trough unit is divided into a feeding area, a drinking area, and a molting area. The scorpions are separated by first and second partition plates to form a crawling path, preventing crawlers from entering the molting area. Independent feeding and observation can be achieved through pull-out boxes and adjustable pull plates.

Benefits of technology

It improved the survival rate of scorpions, avoided interference during molting, and enhanced the isolation effect of the scorpions' independent activity space and growth environment.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application provides a scorpion breeding box and a breeding system, and relates to the technical field of scorpion breeding. The scorpion breeding box comprises a box body, a plurality of breeding groove units are arranged on the box body, the plurality of breeding groove units are arranged side by side along the same direction of the box body, and two adjacent breeding groove units are separated by a partition plate. The breeding groove unit comprises an eating area, a drinking water area and a molting area which are arranged in sequence. A first partition plate is arranged between the eating area and the drinking water area, and a second partition plate is arranged between the drinking water area and the molting area. The heights of the first partition plate and the second partition plate are less than the height of the partition plate, so as to form a climbing path for the scorpion between the top ends of the first partition plate and the second partition plate and the top end of the partition plate. The scorpion breeding box avoids the interference of other scorpions and reptiles on the scorpion in the molting area, and improves the survival rate of the scorpion.
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Description

Technical Field

[0001] This invention relates to the field of scorpion farming technology, and in particular to a scorpion farming box and farming system. Background Technology

[0002] Scorpions are carnivorous and have a cannibalistic habit. During their growth, they molt periodically. After molting, their exoskeleton is soft and takes time to harden. Due to the high density of artificial breeding, they are easily eaten by other scorpions, resulting in a low survival rate and poor economic benefits.

[0003] To address the aforementioned issues, patent application number 201820212857.3 discloses a scorpion breeding unit and a scorpion breeding device, including a substrate. The substrate is a cuboid, and at least two spaced-apart receiving grooves are formed on the substrate along its length. Each receiving groove contains a receiving cavity for scorpions to inhabit. The longitudinal section of the receiving groove is inverted "U"-shaped. The length direction of the receiving groove is the same as the width direction of the substrate, and the length of the receiving groove is less than the width of the substrate. The width direction of the receiving groove is the same as the length direction of the substrate. One side of the receiving groove extends through the edge of the substrate along its length direction to form a side opening. The receiving cavity is connected to the scorpion's activity channel through the side opening. However, when using this scorpion breeding device, due to the different growth cycles and molting times of the scorpions, some scorpions may enter the molting chamber through the side opening while others are molting, interfering with the molting scorpions. This makes it impossible to effectively isolate different scorpions and reptiles, thus seriously affecting the survival rate of the scorpions and causing losses to the breeders. Summary of the Invention

[0004] The purpose of this invention is to provide a scorpion breeding box and breeding system to solve the problem in the prior art that scorpions are easily disturbed by other scorpions and reptiles when molting. The scorpion breeding box of this invention avoids the interference of other scorpions and reptiles in the molting area, thereby improving the survival rate of scorpions.

[0005] This invention provides a scorpion breeding box, comprising a box body with multiple breeding trough units arranged side by side along the same direction of the box body. Adjacent breeding trough units are separated by partitions. Each breeding trough unit includes a feeding area, a drinking area, and a molting area arranged sequentially. A first partition is provided between the feeding area and the drinking area, and a second partition is provided between the drinking area and the molting area. The height of both the first and second partitions is less than the height of the partition, so that a crawling path for scorpions to pass through is formed between the top of the first and second partitions and the top of the partition.

[0006] As a preferred embodiment of the present invention, it further includes a pull-out box, on which a window is provided on the side of the box body near the feeding area. The window is arranged across multiple breeding tank units, and the pull-out box is correspondingly arranged at the window. The pull-out box can close or open the window when pushed in or pulled out relative to the box body.

[0007] In a preferred embodiment of the present invention, the pull-out box includes a pull-out base plate, a pull-out side plate, and multiple sets of clamping plates. The pull-out base plate is perpendicular to the pull-out side plate and is perpendicular to the bottom side of the multiple partitions. A gap is provided between the bottom side of the partition in the feeding area and the bottom plate of the box body. When the pull-out base plate slides under the multiple partitions, the pull-out side plate moves closer to or further away from the window. The clamping plates are disposed between the pull-out base plate and the pull-out side plate and are perpendicular to the pull-out base plate and the pull-out side plate. Each set of clamping plates corresponds to one partition, and there are two clamping plates in each set. A clamping groove is formed between the two clamping plates in the same set, and the partition is correspondingly disposed in the clamping groove. When the pull-out box is pulled out, the partition slides relative to each other in the clamping groove.

[0008] As a preferred embodiment of the present invention, it further includes an adjustable drawer plate, which is disposed in the gap on the lower side of the pull-out box. Multiple feeding holes are provided on the bottom plate in the feeding area, and multiple adjusting holes of different diameters are provided on the adjustable drawer plate. These adjusting holes are arranged along the pulling direction of the adjustable drawer plate, and pulling the adjustable drawer plate allows the adjusting holes of different diameters to be aligned with the upper side of the feeding holes. A limiting strip is provided on the bottom side of the adjustable drawer plate along its pulling direction, and a limiting block is provided on one end of the limiting strip that extends into the box body. A limiting notch is provided on the bottom plate of the box body near the window, and multiple limiting slots are provided in the limiting notch along its pulling direction. When the limiting strip moves in the limiting notch, the limiting block engages in different limiting slots.

[0009] As a preferred embodiment of the present invention, a plurality of water passage holes are provided on the bottom plate in the drinking water area, and the top of the water passage holes protrudes from the bottom plate.

[0010] As a preferred embodiment of the present invention, the longitudinal sections of the first partition plate and the second partition plate are both conical. The first partition plate facing the drinking area and the second partition plate facing the molting area are provided with a plurality of laterally extending protrusions, which are arranged in a stepped manner. The height of the first partition plate is greater than the height of the second partition plate.

[0011] As a preferred embodiment of the present invention, the breeding tank unit further includes an exhaust ventilation area, which is located on the side of the molting area away from the drinking water area. Multiple ventilation holes are provided on both side walls and the bottom plate of the exhaust ventilation area in the breeding tank unit.

[0012] In a preferred embodiment of the present invention, the box body includes an upper section and a lower section. The bottom plate of the lower section is lower than the bottom plate of the upper section, and the bottom plate of the lower section and the bottom plate of the upper section are connected by a vertical lower baffle. The top of the lower section is connected between the top of the upper section and the bottom plate. The side wall of the box body and a plurality of partitions form a side edge between the top of the upper section and the top of the lower section. The side edge is vertically arranged above the lower baffle. The upper section and the lower section are connected in the molting area. The side edge and the lower baffle are both located in the molting area. A plurality of vertical through holes are provided on the bottom plate of the lower section.

[0013] The present invention also provides a breeding system, including the aforementioned scorpion breeding box and a connecting plate. Two connecting grooves are provided on the side of the box near the exhaust ventilation area. The two connecting grooves are respectively provided on the front and rear sides of the box. The connecting grooves of the two scorpion breeding boxes on the same layer are respectively arranged opposite to each other. The left and right sides of the connecting plate are respectively inserted into the connecting grooves of the two scorpion breeding boxes on the same layer, forming a central ventilation area between the two scorpion breeding boxes.

[0014] As a preferred embodiment of the present invention, a plurality of slots corresponding to the partition are provided on the bottom side of the box body. Two vertically adjacent scorpion breeding boxes are stacked on the partition of the lower layer by the slot of the upper layer, and the lower baffle of the upper layer abuts against the side edge of the lower layer.

[0015] Compared with the prior art, the present invention has the following positive effects:

[0016] The scorpion breeding box provided by this invention includes a box body with multiple breeding trough units arranged side by side along the same direction of the box body. Adjacent breeding trough units are separated by partitions. Each breeding trough unit includes a feeding area, a drinking area, and a molting area arranged sequentially. A first partition is provided between the feeding area and the drinking area, and a second partition is provided between the drinking area and the molting area. The height of both the first and second partitions is less than the height of the partition, forming a crawling path for scorpions to pass through between the tops of the first and second partitions and the top of the partition. In breeding scorpions, this invention allows one scorpion to be raised in each breeding trough unit, separated from each other by partitions. This provides each scorpion with independent space, separating scorpions at different growth stages and preventing cannibalism caused by overcrowding. The feeding area provides scorpions with reptiles and other food, while the drinking area provides water. The molting area contains a mat for molting. Young scorpions are placed from the feeding area into the rearing tank. They feed on reptiles in the feeding area, crawl across the first partition to the drinking area for water, and then crawl across the second partition to the molting area to molt. By providing a separate molting area for each scorpion to molt and rest individually, and separating the molting area from the feeding area with the first and second partitions on either side of the drinking area, the double-layered barrier effectively prevents reptiles from entering the molting area. This avoids the scorpions being eaten by reptiles in the feeding area while molting, and also prevents interference from other scorpions in the molting area, thus improving the survival rate of the scorpions. Attached Figure Description

[0017] To more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0018] Figure 1 This is a first-view structural schematic diagram of the scorpion breeding box of the present invention;

[0019] Figure 2 This is a top view of the scorpion breeding box of the present invention;

[0020] Figure 3 for Figure 2 Cross-sectional view of AA;

[0021] Figure 4 This is a schematic diagram of the internal structure of the scorpion breeding box of the present invention;

[0022] Figure 5 This is a second-view structural schematic diagram of the scorpion breeding box of the present invention;

[0023] Figure 6 This is a bottom view of the scorpion breeding box of the present invention;

[0024] Figure 7 This is an exploded view of the scorpion breeding box of the present invention from a third-person perspective;

[0025] Figure 8 This is an exploded view of the scorpion breeding box of the present invention from a fourth perspective;

[0026] Figure 9 This is a schematic diagram of the aquaculture system of the present invention;

[0027] Figure 10 This is a schematic diagram of the internal structure of the scorpion breeding boxes of the present invention when stacked vertically.

[0028] In the diagram: 1. Box body; 11. Feeding area; 111. Window; 112. Limiting notch; 113. Limiting latch; 114. Gap; 115. Feeding hole; 12. Drinking area; 121. Water passage hole; 13. Molting area; 131. Side edge; 132. Lower baffle; 133. Through hole; 14. Exhaust and ventilation area; 141. Ventilation hole; 15. Breeding trough unit; 151. Slot; 16. Connecting slot; 17. 18. Partition plate; 181. Boss; 182. Bottom groove; 19. Second partition plate; 101. Upward section; 102. Downward section; 2. Pull-out box; 21. Top handle; 22. Pull-out bottom plate; 23. Pull-out side plate; 24. Clamping plate; 25. Clamping groove; 3. Adjustable pull plate; 31. Bottom handle; 32. Adjustment hole; 33. Limiting strip; 331. Limiting block; 4. Connecting plate; 41. Connecting block. Detailed Implementation

[0029] In the description of this invention, it should be noted that, unless otherwise stated, "a plurality of" means two or more; the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," "front end," "rear end," "head," "tail," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing the invention and simplifying it, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of the invention. Furthermore, the terms "first," "second," "third," etc., are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0030] In the description of this invention, it should also be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to fixed connections, detachable connections, or integral connections; they can refer to mechanical connections or electrical connections; they can refer to direct connections or indirect connections through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms in this invention according to the specific circumstances.

[0031] The specific embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

[0032] Example 1:

[0033] This embodiment provides a scorpion breeding box, such as Figures 1-10 As shown, the device includes a box body 1, on which multiple breeding trough units 15 are arranged side by side along the same direction of the box body 1. Adjacent breeding trough units 15 are separated by partitions 17. Each breeding trough unit 15 is used to raise one scorpion. Each breeding trough unit 15 includes a feeding area 11, a drinking area 12, and a molting area 13 arranged sequentially. A first partition plate 18 is provided between the feeding area 11 and the drinking area 12, and a second partition plate 19 is provided between the drinking area 12 and the molting area 13. The height of both the first partition plate 18 and the second partition plate 19 is less than the height of the partition plate 17, so that a crawling path for the scorpion to pass through is formed between the top of the first partition plate 18 and the second partition plate 19 and the top of the partition plate 17.

[0034] In the scorpion breeding box of the present invention, one scorpion is raised in each breeding tank unit 15, and the scorpions are separated from each other by partitions 17, so that each scorpion has an independent activity space, separating scorpions at different growth stages and avoiding cannibalism among scorpions due to excessive breeding density. Feeding area 11 provides scorpions with reptiles and other food for growth, while drinking area 12 provides water. Molting area 13 contains a mat for molting. Young scorpions are placed from feeding area 11 into rearing tank unit 15. Scorpions feed on insects in feeding area 11, crawl over the first partition plate 18 to enter drinking area 12 to drink water, and crawl over the second partition plate 19 to enter molting area 13 to molt. By setting up a separate molting area 13, each scorpion can molt and rest alone. Molting area 13 is separated from feeding area 11 by the first partition plate 18 and the second partition plate 19 on both sides of drinking area 12. The double-layer barrier effectively prevents reptiles from entering molting area 13, thus preventing scorpions from being eaten by reptiles in feeding area 11 while molting in molting area 13, and also preventing scorpions from being disturbed by other scorpions in molting area 13, thereby improving the survival rate of scorpions.

[0035] Preferably, the scorpion breeding box of the present invention further includes a pull-out box 2. A window 111 is provided on the side of the box body 1 near the feeding area 11, and the window 111 is arranged across multiple breeding trough units 15. The window 111 is located on the side wall of the box body 1. The pull-out box 2 is correspondingly arranged at the window 111, and the pull-out box 2 can close or open the window 111 when pushed in or pulled out relative to the box body 1. When breeding scorpions, the pull-out box 2 is opened to put the young scorpions into the pull-out box 2 and push them into the breeding trough unit 15; during the breeding process, the window 111 can be opened by moving the pull-out box 2 to observe the activity status of the scorpions in the multiple breeding trough units 15.

[0036] Preferably, the pull-out box 2 includes a pull-out base plate 22, pull-out side plates 23, and multiple sets of clamping plates 24. The pull-out base plate 22 and the pull-out side plates 23 are arranged perpendicularly. A gap 114 is provided between the bottom side of the partition 17 in the feeding area 11 and the bottom plate of the box body 1. The pull-out base plate 22 is arranged perpendicularly to the bottom side of the multiple partitions 17. When the pull-out base plate 22 slides along the bottom side of the multiple partitions 17, the pull-out side plates 23 move closer to or further away from the window 111. The clamping plates 24 are arranged between the pull-out base plate 22 and the pull-out side plates 23 and are arranged perpendicularly to the pull-out base plate 22 and the pull-out side plates 23. Each set of clamping plates 24 is corresponding to one partition 17. Each set of clamping plates 24 has two plates, forming a clamping groove 25 between the two plates 24 in the same set. A partition 17 is correspondingly set in the clamping groove 25. When the pull-out box 2 is pulled out, the partition 17 slides relative to each other in the clamping groove 25, thereby making the pull-out box more stable during movement. Furthermore, the multiple breeding tank units 15 remain isolated during the movement of the pull-out box, preventing the scorpions from affecting each other. The pull-out box 2 also includes an upper handle 21, which is set on the outside of the pull-out side plate 23 for easy handling and movement of the pull-out box 2.

[0037] Preferably, such as Figure 8 As shown, the scorpion breeding box of the present invention also includes an adjusting slide plate 3, which is disposed in the gap 114 on the lower side of the pull-out box 2. Multiple feeding holes 115 are provided on the bottom plate within the feeding area 11, and multiple adjusting holes 32 of different diameters are provided on the adjusting slide plate 3. These adjusting holes 32 are arranged along the pulling direction of the adjusting slide plate 3, and pulling the adjusting slide plate 3 allows the adjusting holes 32 of different diameters to be aligned with the upper side of the feeding holes 115. Figure 4 As shown, the length of the pull-out bottom plate 22 extending into the box is less than the length of the adjusting pull plate 3 extending into the box.

[0038] Scorpions vary in size at different growth stages, requiring different sizes of reptiles for feeding. When scorpions are small, adjusting the sliding plate 3 allows the smaller aperture adjustment hole 32 to align with the upper side of the feeding hole 115, enabling reptiles of appropriate size to pass through while preventing scorpions from crawling downwards. This ensures controllability of the size of the reptiles fed. When multiple scorpion rearing boxes are stacked vertically, it facilitates the feeding of reptiles through the feeding hole 115 to the next layer.

[0039] like Figure 5 and Figure 6 As shown, a limiting strip 33 is provided on the bottom side of the adjusting slide plate 3, extending along its pulling direction. A limiting block 331 is provided on one end of the limiting strip 33 that extends into the box body 1. A limiting notch 112 is provided on the bottom plate of the box body 1 near the window 111. Multiple limiting slots 113 are provided in the limiting notch 112, extending along its pulling direction. When the limiting strip 33 moves in the limiting notch 112, the limiting block 331 is engaged in different limiting slots 113. The number of limiting slots 113 in the same limiting notch 112 is equal to the number of adjusting holes 32 with different diameters. Preferably, three limiting slots 113 are provided in the same limiting notch 112, and the adjusting holes 32 are provided with three different hole diameters. The limiting block 331 engages with different limiting slots 113 to position the corresponding adjusting hole 32 on the feeding hole 115, preventing the adjusting plate 3 from moving easily and ensuring that the adjusting hole 32 is aligned with the feeding hole 115. A lower handle 31 is provided on the outer side of the adjusting plate 3 for easy pulling of the adjusting plate 3 by holding the lower handle 31.

[0040] Preferably, such as Figure 3 As shown, multiple water passage holes 121 are provided on the bottom plate within the drinking water area 12, with the tops of the water passage holes 121 protruding from the bottom plate. Figure 6 As shown, a breeding tank unit 15 has three water passage holes 121 in its drinking area 12. When multiple scorpion breeding boxes are stacked vertically, water flows through the water passage holes 121 from the upper box 1 to the lower box 1. The water flows into the drinking area 12 and forms a water reservoir between the bottom plate of the drinking area 12 and the top of the water passage hole 121 to provide drinking water for the scorpions in that layer. When the liquid level in the drinking area 12 is higher than the top of the water passage hole 121, the water flows through the water passage hole 121 to the drinking area of ​​the lower layer.

[0041] Preferably, such as Figure 3 and Figure 4As shown, the longitudinal sections of both the first partition plate 18 and the second partition plate 19 are conical. Multiple laterally extending protrusions 181 are provided on the side of the first partition plate 18 facing the drinking area 12 and the side of the second partition plate 19 facing the molting area 13. These protrusions 181 are arranged in a stepped manner. The stepped protrusions 181 facilitate scorpions crawling across the first partition plate 18 and the second partition plate 19 to enter different areas. A bottom groove 182 is provided on the lower side of the first partition plate 18 and the second partition plate 19 near the drinking area 12 to facilitate scorpion crawling. The height of the first partition plate 18 is greater than the height of the second partition plate 19. The side of the first partition plate 18 facing the feeding area 11 is a smooth plane. Due to the different crawling abilities of reptiles and scorpions, the height of the first partition plate 18 allows scorpions to crawl across while simultaneously blocking reptiles, thus preventing reptiles from entering the drinking area 12. The lower height of the second partition plate 19 allows scorpions to move easily between the drinking area 12 and the molting area 13, and facilitates drinking water in the molting area.

[0042] Preferably, the breeding tank unit 15 further includes an exhaust ventilation zone 14, which is located on the side of the molting area 13 away from the drinking area. Multiple ventilation holes 141 are provided on both side walls and the bottom plate of the exhaust ventilation zone 14 within the breeding tank unit 15. The ventilation holes 141 in the exhaust ventilation zone 14 facilitate ventilation of the breeding tank unit 15, preventing the bedding layer of the molting area 13 from clogging the ventilation holes 141, thus maintaining the scorpion's growth environment within a certain temperature and humidity range, which is more conducive to the scorpion's growth.

[0043] Preferably, such as Figure 8 and Figure 9 As shown, the box 1 includes an upper section 101 and a lower section 102. The bottom plate of the lower section 102 is lower than the bottom plate of the upper section 101, and the bottom plates of the lower section 102 and the upper section 101 are connected by a vertical lower baffle 132. The top of the lower section 102 connects between the top of the upper section 101 and the bottom plate. The side wall of the box 1 and multiple partitions 17 form a side edge 131 between the top of the upper section 101 and the top of the lower section 102. The side edge 131 is vertically arranged above the lower baffle 132. The upper section 101 and the lower section 102 are connected in the molting area 13. The side edge 131 and the lower baffle 132 are both located within the molting area 13. A pad for molting is placed in the lower section 102 of the molting area 13. The pad can be wood chips, sand, etc., to form a soft bottom layer to facilitate scorpion molting. The scorpion molts in the sunken molting area 13. The second partition plate 19 blocks the entrance of the sunken molting area 13, so that the scorpion is better protected when molting in the molting area 13 and is not disturbed by the outside.

[0044] Preferably, such as Figure 5As shown, multiple vertical through holes 133 are provided on the bottom plate of the descending section 102. The number of through holes can be 10 arranged in two rows. The through holes 133 can facilitate the ventilation and water permeation of the molting area 13, so that the molting area 13 can provide a good molting environment for scorpions.

[0045] Example 2

[0046] This embodiment provides a breeding system, such as Figure 9 and Figure 10 As shown, the system includes the scorpion breeding box and connecting plate 4 as described in Embodiment 1. Two connecting slots 16 are provided on the side of the box body 1 near the exhaust ventilation area 14. The two connecting slots 16 are respectively located on the front and rear sides of the box body 1, with the connecting slots 16 of the two scorpion breeding boxes on the same layer facing each other. The left and right sides of the connecting plate 4 are respectively inserted into the connecting slots 16 of the two scorpion breeding boxes on the same layer, forming a central ventilation area between the two scorpion breeding boxes. Connecting blocks 41 are provided on the left and right sides of the connecting plate 4, connecting the connecting plate 4 to the connecting slots 16. The connecting slots 16 extend vertically at the corners of the box body 1. When the connecting plate 4 is connected to the connecting slot 16, it slides vertically into the connecting slot 16 through the connecting blocks 41. A humidifier can be installed in the central ventilation area to introduce moisture into the exhaust ventilation area 14 of the surrounding breeding tank units 15, thereby maintaining the humidity within the multiple breeding tank units 15 within a certain range.

[0047] Preferably, multiple slots 151 corresponding to the partition 17 are provided on the bottom side of the box body 1. Two vertically adjacent scorpion breeding boxes are stacked on the partition 17 of the lower layer by the slot 151 of the upper layer. The lower baffle 132 of the upper layer abuts against the side edge 131 of the lower layer, making the connection between the two adjacent scorpion breeding boxes more secure. The multiple stacked scorpion breeding boxes make full use of space, realize high-density scorpion breeding, and reduce scorpion breeding costs. The three-dimensional stacking of the scorpion breeding boxes closes the top of each scorpion breeding box, and each scorpion moves in a breeding tank unit 15, which can effectively prevent animals such as rodents from entering the breeding box and harming the scorpions.

[0048] In this embodiment, the scorpion breeding system allows water to be added to the drinking areas 12 of each layer from top to bottom through the water holes 121 in the scorpion breeding boxes. Reptiles are fed from top to bottom through the feeding areas 11 in the top. A central ventilation area provides unified ventilation and exhaust to multiple scorpion breeding boxes, achieving high operational efficiency. Each scorpion moves separately in a different breeding tank unit 15, unaffected by other scorpions and reptiles during molting, thus improving the survival rate.

[0049] The above description is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any modifications and improvements made by those skilled in the art without departing from the inventive concept of the present invention should be covered within the scope of protection of the present invention.

Claims

1. A scorpion breeding box, characterized in that, The device includes a box body (1) on which multiple breeding trough units (15) are arranged side by side along the same direction of the box body (1). Adjacent breeding trough units (15) are separated by partitions (17). Each breeding trough unit (15) includes a feeding area (11), a drinking area (12), and a molting area (13) arranged in sequence. A first partition plate (18) is arranged between the feeding area (11) and the drinking area (12), and a second partition plate (19) is arranged between the drinking area (12) and the molting area (13). The height of both the first partition plate (18) and the second partition plate (19) is less than that of the partition (17). The height of the partition plate (1) is such that a crawling path for scorpions to pass through is formed between the top of the first partition plate (18) and the second partition plate (19) and the top of the partition plate (17); the longitudinal section of the first partition plate (18) and the second partition plate (19) are both conical, and multiple laterally extending protrusions (181) are provided on the side of the first partition plate (18) facing the drinking area (12) and the side of the second partition plate (19) facing the molting area (13), and the multiple protrusions (181) are arranged in a stepped manner; the height of the first partition plate (18) is greater than the height of the second partition plate (19); it also includes a pull-out box (2) on the box body (1) near the feeding area. A window (111) is provided on one side of (11), the window (111) spans multiple breeding tank units (15), and the pull-out box (2) is correspondingly provided at the window (111). The pull-out box (2) can close or open the window (111) when pushed in or pulled out relative to the box body (1). The pull-out box (2) includes a pull-out bottom plate (22), a pull-out side plate (23) and multiple sets of clamping plates (24). The pull-out bottom plate is perpendicular to the pull-out side plate. The pull-out bottom plate (22) is perpendicular to the bottom side of multiple partitions (17). A gap (11) is provided between the bottom side of the partition (17) at the feeding area (11) and the bottom plate of the box body (1). 4) When the pull-out base plate (22) slides under the multiple partitions (17), the pull-out side plate (23) moves closer to or further away from the window (111); the clamping plate (24) is disposed between the pull-out base plate (22) and the pull-out side plate (23) and is perpendicular to the pull-out base plate (22) and the pull-out side plate (23). Each set of clamping plates (24) is correspondingly disposed with one partition (17). There are two clamping plates (24) in each set. A clamping groove (25) is formed between the two clamping plates (24) in the same set. The partition (17) is correspondingly disposed in the clamping groove (25). When the pull-out box (2) is pulled out, the partition (17) slides relative to each other in the clamping groove (25).

2. The scorpion breeding box according to claim 1, characterized in that, It also includes an adjustable drawer (3), which is disposed in the gap (114) on the lower side of the pull-out box (2). Multiple feeding holes (115) are provided on the bottom plate in the feeding area (11), and multiple adjusting holes (32) of different diameters are provided on the adjustable drawer (3). These adjusting holes (32) are arranged along the pulling direction of the adjustable drawer (3). Pulling the adjustable drawer (3) allows adjustment of the adjusting holes (32) of different diameters to align with the upper side of the feeding holes (115). The bottom of the adjustable drawer (3)... A limiting strip (33) is provided on the side along its pulling direction. A limiting block (331) is provided on one end of the limiting strip (33) that extends into the box body (1). A limiting notch (112) is provided on the bottom plate of the box body (1) near the window (111). Multiple limiting slots (113) are provided in the limiting notch (112) along its pulling direction. When the limiting strip (33) moves in the limiting notch (112), the limiting block (331) is locked in different limiting slots (113).

3. A scorpion breeding box according to claim 2, characterized in that, Multiple water passage holes (121) are provided on the bottom plate in the drinking area (12), and the top of the water passage hole (121) protrudes from its bottom plate.

4. A scorpion breeding box according to claim 3, characterized in that, The breeding tank unit (15) also includes an exhaust ventilation area (14), which is located on the side of the molting area (13) away from the drinking water area. Multiple ventilation holes (141) are provided on both side walls and the bottom plate of the exhaust ventilation area (14) in the breeding tank unit (15).

5. A scorpion breeding box according to claim 4, characterized in that, The box body (1) includes an upper section (101) and a lower section (102). The bottom plate of the lower section (102) is lower than the bottom plate of the upper section (101), and the bottom plate of the lower section (102) and the bottom plate of the upper section (101) are connected by a vertical lower baffle (132). The top of the lower section (102) is connected between the top of the upper section (101) and the bottom plate. The side walls of the box body (1) and the plurality of partitions (17) are located in the upper section (101). A side edge (131) is formed between the top of the upper section (101) and the top of the lower section (102). The side edge (131) is vertically arranged above the lower baffle (132). The upper section (101) and the lower section (102) are connected in the molting area (13). The side edge (131) and the lower baffle (132) are both located in the molting area (13). A plurality of vertical through holes (133) are provided on the bottom plate of the lower section (102).

6. A breeding system comprising the scorpion breeding box as described in claim 5 and a connecting plate (4), wherein two connecting grooves (16) are provided on the side of the box body (1) near the exhaust ventilation area (14), the two connecting grooves (16) are respectively provided on the front and rear sides of the box body (1), the connecting grooves (16) of the two scorpion breeding boxes on the same layer are respectively arranged opposite to each other, and the left and right sides of the connecting plate (4) are respectively inserted into the connecting grooves (16) of the two scorpion breeding boxes on the same layer, forming a central ventilation area between the two scorpion breeding boxes.

7. The aquaculture system according to claim 6, characterized in that, Multiple slots (151) corresponding to the partition (17) are provided on the bottom side of the box body (1). Two adjacent scorpion breeding boxes in the vertical direction are stacked on the partition (17) of the lower layer by the slot (151) of the upper layer. The lower baffle (132) of the upper layer abuts against the side edge (131) of the lower layer.