CN219961710U

CN219961710U - Scorpion nest plate

Info

Publication number: CN219961710U
Application number: CN202320948042.2U
Authority: CN
Inventors: 索维智
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-04-24
Filing date: 2023-04-24
Publication date: 2023-11-07
Anticipated expiration: 2033-04-24

Abstract

The utility model relates to a scorpion nest plate which comprises a main body, a humidifying groove arranged on the main body, a plurality of breeding cabins sequentially arranged on the main body along the humidifying groove, a separation vertical plate arranged in the breeding cabins and dividing the space in the breeding cabins into a feeding area and a breeding area, a cover plate arranged in the breeding area and dividing the breeding area into a wet breeding area and a dry breeding area, and a through hole which is arranged on the main body and is communicated with the humidifying groove and the wet breeding area, wherein the feeding area and the dry breeding area are communicated with the first surface of the main body, and the wet breeding area and the dry breeding area are communicated. The scorpion nest plate disclosed by the utility model can be used for carrying out space isolation on scorpions in a full growth period in the breeding process, and simultaneously, the requirements of the scorpions on different humidity in the growth period are met by using a space separation mode so as to improve the survival rate of the scorpions.

Description

Scorpion nest plate

Technical Field

The utility model relates to the technical field of cultivation equipment, in particular to a scorpion nest plate.

Background

At present, the scorpion breeding is carried out by chopping the scorpions, and the nest opening is plugged by pulling out soil, so that one scorpion is plugged, and the phenomenon of killing the scorpions in the process of ecdysis is avoided. However, the cultivation mode still has the phenomenon of killing, and the main reasons are as follows:

1. the scorpions of two to three ages have small volume and insufficient strength, so that the socket is easily blocked, and the scorpions with one socket and multiple scorpions are killed;

2. the scorpions and the yellow mealworms live together, and the yellow mealworms can damage the nest opening to block, so that the scorpions with small volumes are killed;

3. the scorpions still move together to eat after nest taking, and the ecdysis time is not consistent in the morning and evening due to the size of the scorpions, so that the phenomenon of stunting of big eating and weak eating still exists after the scorpions are ecdysed and nest taking;

in addition, the current chopping body is that the top surface is communicated with the humidifying groove, so that water is added to be slowly dripped, sand in the humidifying groove cannot be too wet, otherwise, scorpions can be drowned or the scorpions cannot eat due to excessive water inlet or humidity of scorpions. The difficulty of manually adjusting the humidity is great, and the problem that the survival rate of scorpions is influenced by the influence of the death of black rot of yellow meal worms on the environment of scorpions nest and scorpions house also exists.

Disclosure of Invention

The utility model provides a scorpion nest plate which can perform space isolation on scorpions in a whole growth period in a breeding process, and simultaneously meets the requirements of the scorpions on different humidity in the growth period in a space separation mode so as to improve the survival rate of the scorpions.

The above object of the present utility model is achieved by the following technical solutions:

the utility model provides a scorpion nest plate, which comprises:

a main body;

a humidifying groove arranged on the main body;

the plurality of cultivation bins are sequentially arranged on the main body along the humidifying groove;

the separation vertical plate is arranged in the breeding bin and divides the space in the breeding bin into a feeding area and a breeding area;

the cover plate is arranged in the breeding area and divides the breeding area into a wet breeding area and a dry breeding area;

the through hole is arranged on the main body and is communicated with the humidifying groove and the wet breeding area; and

wherein the feeding zone and the dry farming zone are in communication with the first surface of the main body;

the wet culture area is communicated with the dry culture area.

In one possible implementation of the utility model, the surface of the separating riser located in the feeding zone and/or the cultivation zone is an inclined surface.

In one possible implementation of the utility model, the separating riser is provided with steps on the face of the feeding zone and/or the cultivation zone;

in a direction away from the second surface of the main body, a plurality of steps are arranged at intervals on the surface of the separation vertical plate.

In one possible implementation of the utility model, a channel is provided on the cover plate, the channel being used to communicate the wet and dry farming areas.

In one possible implementation of the utility model, the cultivation bins are divided into two groups, and the number of the cultivation bins in each group is a plurality of cultivation bins;

the two groups of breeding bins are symmetrically arranged at two sides of the humidifying groove.

In one possible implementation of the utility model, a protruding part or a recessed part is arranged on one end of the culture bin, which is far away from the humidifying groove;

the protrusion communicates with the first surface of the body.

In one possible implementation of the utility model, the protrusions or recesses on both sides of the humidification tank are symmetrically arranged.

In one possible implementation of the utility model, the first surface of the main body is provided with a ventilation groove, which is communicated with the cultivation cabin.

In one possible implementation of the present utility model, a fixture block that mates with the humidifying groove is provided on the second surface of the main body.

Drawings

Fig. 1 is a schematic perspective view of a scorpion nest plate provided by the utility model.

Fig. 2 is a schematic plan view of a scorpion nest plate according to the present utility model.

Figure 3 is a schematic view of a portion of a scorpion nest board based on figure 1.

Fig. 4 is a schematic diagram of space division in a cultivation cabin provided by the utility model.

Fig. 5 is a schematic plan view of a cover plate according to the present utility model.

Fig. 6 is a schematic view of a protrusion provided by the present utility model.

Fig. 7 is a schematic view of a recess according to the present utility model.

Fig. 8 is a schematic diagram showing the distribution of the clamping blocks on the scorpion nest plate.

In the figure, 1, a main body, 2, a humidifying groove, 3, a breeding bin, 4, a separation vertical plate, 5, a cover plate, 6, a through hole, 11, a ventilation groove, 12, a clamping block, 31, a feeding area, 32, a breeding area, 33, a protruding part, 34, a concave part, 41, a step, 51, a channel, 321, a wet breeding area, 322 and a dry breeding area.

Detailed Description

The technical scheme in the utility model is further described in detail below with reference to the accompanying drawings.

Referring to fig. 1 and 2, the utility model discloses a scorpion nest plate, which consists of a main body 1, a humidifying tank 2, a breeding bin 3, a separation vertical plate 4, a cover plate 5 and the like, wherein the surface contacted with the horizontal plane is a second surface of the main body 1, and the surface opposite to the second surface is a first surface of the main body 1 by taking the posture of the main body 1 placed on the horizontal plane as a reference.

Referring to fig. 3 and 4, a humidifying tank 2 is provided on a main body 1, and a plurality of cultivation bins 3 are sequentially provided on the main body 1 along the humidifying tank 2. The cultivating bin 3 is internally provided with a separation vertical plate 4, the separation vertical plate 4 divides the space in the cultivating bin 3 into two parts, namely a feeding area 31 and a cultivating area 32, the feeding area 31 is used for placing feed, and the cultivating area 32 is used for scorpion to move and rest. The scorpions move to the feeding area 31 when predating, and return to the breeding area 32 after predating.

The cultivation area 32 is internally provided with a cover plate 5, the cover plate 5 divides the cultivation area 32 into a wet cultivation area 321 and a dry cultivation area 322, and the wet cultivation area 321 is communicated with the humidifying tank 2 through a through hole 6 formed in the main body 1. The function of the humidification tank 2 is to adjust the humidity of the wet cultivation area 321.

It will be appreciated from this description that the humidity of the wet and dry farming areas 321, 322 is different, and that scorpions will selectively live in either the wet or dry farming areas 321, 322 according to their habits, for example, in the wet farming areas 321 during molting, and at other times in the dry farming areas 322.

The wet culture area 321 communicates with the dry culture area 322, and further, the wet culture area 321 is located below the dry culture area 322 (with reference to the posture of the main body 1 placed on the horizontal plane). The feeding area 31 and the dry culture area 322 are both communicated with the first surface of the main body 1, and when the novel scorpion breeding device is used, feed can be directly placed in the feeding area 31, and scorpion living bodies can be placed in the dry culture area 322.

The specific process is as follows:

step 1, filling crushed soil with the water content of about 15% in a wet breeding area 321;

step 2, filling 3-5 mm of crushed soil on the dry culture area 322;

step 3, filling fine sand with the thickness of about 10 mm in the humidifying tank 2, adding water into the humidifying tank 2, and adding water until sand is completely wet;

step 4, removing the plurality of filled scorpion nest plates 1 from the scorpion room, and stacking the scorpion nest plates layer by layer in sequence;

step 5, placing fattening two-year scorpions and 3-5 yellow meal worms with 20 meshes in a feeding area 31;

step 6, supplementing water to the humidifying tank every 3-5 days, and supplementing yellow meal worm according to Huang Xiezi size and the residual condition of the yellow meal worm;

step 7, taking out the scorpion nest plates layer by layer after the scorpions are bred, and clamping the scorpions;

and 8, cleaning the crushed soil in the wet culture area 321 and the dry culture area 322 and the residual yellow meal worm in the feeding area 31, and returning to the step 1.

The yellow meal worm mentioned in the steps 1 to 8 is the feed mentioned in the foregoing, and living feed is needed for cultivating scorpions.

In the whole, the scorpion nest plate provided by the utility model provides the independent feeding area 31, the wet breeding area 321 and the dry breeding area 322, and the yellow mealworms in the feeding area 31 cannot enter the wet breeding area 321 and the dry breeding area 322 and cannot influence the wet breeding area 321 and the dry breeding area 322 after the yellow mealworms die due to black rot.

Each breeding area 32 (comprising a wet breeding area 321 and a dry breeding area 322) is independently arranged, so that the phenomenon of killing scorpions with great eating and weak eating is radically avoided. The wet culture area 321 and the dry culture area 322 are mutually independent, can provide proper growth environment for scorpions, and the wet culture area 321 on the whole scorpion nest plate is uniformly subjected to humidity adjustment by the humidifying tank 2, so that the adjustment difficulty and complexity are reduced.

The dry-wet separation is convenient for scorpions to select proper environments, and soil is placed in each of the wet culture area 321 and the dry culture area 322, so that the temperature and the humidity in each of the wet culture area 321 and the dry culture area 322 can be changed to a certain extent, and the scorpions can conveniently select favorable environments.

The scorpions stay in the wet breeding area 321 at the high temperature and the dry breeding area 322 at the proper temperature and humidity, and the scorpions can eat on the cover plate 5, so that the scorpions are prevented from dragging yellow meal worms into the wet breeding area 321. Because the temperature above the cover plate 5 is high and the humidity is low, the residual yellow meal worms of scorpions are easy to dry up and are not easy to decay and deteriorate.

As scorpions are in a high-temperature environment with the temperature of more than 30 ℃, the moisture stored in the humidifying tank 2 after the water is evaporated enters the wet breeding area 321 from the through holes 6, and the air humidity in the wet breeding area 321 is kept, so that the soil in the breeding area is moist and does not accumulate water and mud.

In some examples, referring to fig. 4, the surface of the partition plate 4 located in the feeding area 31 and/or the culturing area 32 is an inclined surface, which can reduce the difficulty of climbing scorpions, and can more conveniently move among the feeding area 31, the wet culturing area 321 and the dry culturing area 322.

Further, referring to fig. 4, the separating riser 4 is provided with a step 41 on the surface of the feeding area 31 and/or the culturing area 32, and the step 41 also has the function of reducing the difficulty of climbing scorpions. In some possible implementations, the number of steps 41 is plural, and the plural steps 41 are disposed at intervals on the face of the partition riser 4 in a direction away from the second surface of the main body 1.

In some examples, the cover 5 is detachably connected to the main body 1, for example, a plurality of protrusions are provided on the inner wall of the cultivation pond 3, and the cover 5 may be directly placed on the protrusions. Of course, one end of the cover plate 5 may also directly ride on the step 41.

In some examples, referring to fig. 3 and 5, the cover plate 5 is provided with a channel 51, and the channel 51 is used for communicating the wet culture area 321 and the dry culture area 322; alternatively, the length of the cover plate 5 is less than the length of the wet-cultivated area 321.

In some examples, referring to fig. 1 and 2, the cultivation bins 3 are divided into two groups, and the number of cultivation bins 3 in each group is plural, and two groups of cultivation bins 3 on the same main body 1 are symmetrically arranged at two sides of the humidifying tank 2. This way, the number of the cultivation bins 3 on the main body 1 can be increased, and the cultivation amount of a single time can be improved.

In some examples, referring to fig. 6 and 7, the end of the cultivation pond 3 remote from the humidifying groove 2 is provided with a protrusion 33 or a recess 34, and the protrusion 33 communicates with the first surface of the main body 1 or communicates with the space around the main body 1. The effect of the protrusion 33 is two, one for aeration and one for feed (yellow meal worm) placement.

The protruding part 33 is a part added to the original contact of the culture cabin 3, the concave part 34 is a part reduced to the original contact of the culture cabin 3, and the two parts are not different in structure.

In some possible implementations, the protrusions 33 or the depressions 34 located at both sides of the humidification tank 2 are symmetrically disposed. Thus, when stacking the scorpion nest plates, the 1 st scorpion nest plate is normally placed, the 2 nd scorpion nest plate is placed on the 1 st scorpion nest plate after rotating 180 degrees, the 3 rd scorpion nest plate is normally placed on the 2 nd scorpion nest plate, the 4 th scorpion nest plate is placed on the 3 rd scorpion nest plate after rotating 180 degrees, and so on.

In other possible implementations, the protruding portions 33 or the recessed portions 34 located at both sides of the humidifying tank 2 are provided asymmetrically, and two types of scorpion nest plates need to be prepared, and the two types of scorpion nest plates are stacked alternately.

In some examples, referring to fig. 1, a ventilation groove 11 is provided on the first surface of the main body 1, and the ventilation groove 11 is communicated with the cultivation cabin 3 to ventilate and ventilate, and reduce the smell of dead insects, so that the temperature in the cultivation cabin 3 is more uniform.

In some possible implementations, each of the cultivation tanks 3 communicates with two ventilation slots 11, which two ventilation slots 11 communicate with the feeding zone 31 and the dry cultivation zone 322, respectively.

In some examples, referring to fig. 8, a latch 12 is provided on the second surface of the main body 1 to engage with the humidification tank 2. The function of the clamping block 12 is to enable the two stacked bodies 1 to have a connection relationship, so as to improve the stability of the stacked scorpion nest plates. The cartridge 12 also prevents water from penetrating into the dry farming area 322.

It should be understood that referring to fig. 8, a drain hole 21 is further formed on the second surface of the main body 1 and is communicated with the humidification tank 2, and the drain hole 21 has two functions, namely, the first function is to avoid water accumulation at the bottom of the humidification tank 2, and the second function is to enable water to flow into the humidification tank 2 below during the water adding process.

Because the crushed soil containing a certain amount of water can provide a more proper moist environment for the scorpions in the breeding houses 3, the bottom of the humidifying tank 2 should be prevented from accumulating water. In addition, when water is added, only water is added in the uppermost humidification tank 2, and the added water flows into each humidification tank 2 through the water discharge holes 21, so that fine sand in the humidification tank 2 can store a certain amount of water.

The embodiments of the present utility model are all preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model in this way, therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims

1. A scorpion nest board, comprising:

a main body (1);

a humidifying groove (2) arranged on the main body (1);

a plurality of breeding cabins (3) are sequentially arranged on the main body (1) along the humidifying groove (2);

the separation vertical plate (4) is arranged in the breeding bin (3) and divides the space in the breeding bin (3) into a feeding area (31) and a breeding area (32);

the cover plate (5) is arranged in the cultivation area (32) and divides the cultivation area (32) into a wet cultivation area (321) and a dry cultivation area (322); and

the through hole (6) is arranged on the main body (1) and is communicated with the humidifying groove (2) and the wet breeding area (321);

wherein the feeding zone (31) and the dry farming zone (322) are in communication with the first surface of the main body (1);

the wet culture area (321) is communicated with the dry culture area (322).

2. The scorpion nest board according to claim 1, characterized in that the surface of the separating riser (4) located in the feeding zone (31) and/or the cultivation zone (32) is an inclined surface.

3. Scorpion nest board according to claim 1 or 2, characterized in that the separating riser (4) is provided with steps (41) on the face of the feeding zone (31) and/or the cultivation zone (32);

a plurality of steps (41) are provided at intervals on the surface of the partition standing plate (4) in a direction away from the second surface of the main body (1).

4. The scorpion nest board according to claim 1, characterized in that the cover board (5) is provided with a channel (51), and the channel (51) is used for communicating the wet culture area (321) and the dry culture area (322).

5. The scorpion nest board according to claim 1 or 4, characterized in that the cultivating cabins (3) are divided into two groups, and the number of the cultivating cabins (3) in each group is a plurality;

the two groups of breeding bins (3) are symmetrically arranged at the two sides of the humidifying groove (2).

6. The scorpion nest board according to claim 1, characterized in that a protruding part (33) or a concave part (34) is arranged on one end of the breeding bin (3) away from the humidifying groove (2);

the protruding portion (33) communicates with the first surface of the main body (1).

7. The scorpion nest board according to claim 6, characterized in that the protruding parts (33) or the recessed parts (34) located at both sides of the humidifying groove (2) are symmetrically arranged.

8. A scorpion socket board according to claim 1, characterized in that the cover plate (5) is detachably connected with the main body (1).

9. The scorpion nest board according to claim 1, characterized in that the first surface of the main body (1) is provided with a ventilation groove (11), and the ventilation groove (11) is communicated with the cultivation cabin (3).

10. The scorpion nest board according to claim 1, characterized in that a clamping block (12) matched with the humidifying groove (2) is arranged on the second surface of the main body (1).