Intelligent centipede breeding temperature and humidity control device
By using a control box driven by linear tracks and electric slide rails in the centipede farm, comprehensive monitoring and control of temperature and humidity in the centipede farm has been achieved, solving the problem of uneven temperature and humidity control in the existing technology and improving the accuracy and convenience of monitoring and control.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SAN TAILONG (HUBEI) BIOTECHNOLOGY CO LTD
- Filing Date
- 2025-07-10
- Publication Date
- 2026-07-07
AI Technical Summary
Existing centipede farms lack comprehensive temperature and humidity control devices, and the coverage area of air conditioners or humidifiers is uneven, resulting in inconsistent temperature and humidity control.
The control box, driven by linear rails and electric slide rails, is equipped with pulleys and mounting bases. The electric slide rails drive the control box to move horizontally, enabling all-round monitoring and control. Combined with heat dissipation slots and isolation nets to prevent impurities from entering, the device is fixed to the wall.
It enables comprehensive monitoring and control of temperature and humidity within centipede farms, ensuring the uniformity and stability of the humidity environment and improving the accuracy and convenience of monitoring and control.
Smart Images

Figure CN224473534U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of centipede breeding equipment technology, and in particular to a smart centipede breeding temperature and humidity control device. Background Technology
[0002] Smart centipede farming: By manually setting parameters through environmental control equipment (such as air conditioners and humidifiers), the system automatically adjusts according to weather changes. In summer, during heavy rain, indoor humidity often rises sharply to over 85%, while in winter, when it is dry, humidity easily falls below 30%. By setting up sensor modules, the effect of smart centipede farming is achieved.
[0003] In existing technologies, such as the Chinese patent publication number CN209928290U, a humidity monitoring and control device for a centipede farm is disclosed. This device includes a breeding farm, an equipment area, and a breeding area. The breeding farm has an equipment area and a breeding area. A control structure is installed in front of the information receiver, and a display screen is installed on the right side of the main unit. The breeding area has a first breeding tank, a second breeding tank, a third breeding tank, and a fourth breeding tank, arranged from right to left. This humidity monitoring and control device for centipede farms has a reasonable overall structure, separating centipede breeding and monitoring / control equipment to prevent interference and facilitate breeding. The device mainly includes a detection module, a monitoring module, and a control module. Each module has a detailed and clear division of labor, resulting in accurate detection, clearer monitoring, and more convenient control. It can better monitor the humidity within the centipede breeding tanks, facilitating better humidity control and ensuring a suitable humidity environment for centipede breeding, thus improving centipede survival rates.
[0004] While the aforementioned patents can achieve clearer monitoring and more convenient control in the process of intelligent centipede farming, the large internal space of the farm, the uneven cooling and humidification coverage of the air conditioner or humidifier, and the inability to adjust the position of the temperature and humidity control devices make it impossible to monitor temperature and humidity in all aspects. Therefore, these problems need to be improved. Utility Model Content
[0005] The purpose of this invention is to provide a smart temperature and humidity control device for centipede farming, which has the effect of adjusting the temperature and humidity.
[0006] The above-mentioned technical objective of this utility model is achieved through the following technical solution: a smart centipede breeding temperature and humidity control device, comprising a linear track and an electric slide rail, wherein a control box is fixedly connected to the output end of the electric slide rail, a wheel frame is fixedly connected to the outside of the control box, a pulley is rotatably connected inside the wheel frame, the pulley extends into the interior of the linear track and is slidably connected to the linear track, an installation groove is provided inside the control box, an installation seat is inserted into the installation groove, slots are provided on both sides inside the control box, spring grooves are provided on both sides inside the installation seat, a spring is fixedly connected inside the spring groove, a top block is fixedly connected to one end of the spring, the top block extends into the interior of the slot and engages with the slot, and a control device is fixedly connected to one side of the installation seat.
[0007] By adopting the above technical solution, the mounting base is installed into the mounting slot inside the control box. When the mounting base extends into the mounting slot, the spring will expand, and the top block will extend into the slot and engage with it, thus allowing the mounting base to be installed inside the control box. The control device extends to the outside of the control box, and monitors and controls the temperature and humidity inside the farm. The electric slide rail drives the control box to move laterally. During the movement of the control box, the pulley will travel inside the straight track. The electric slide rail drives the control box to move laterally, and the straight track supports the control box during the movement. By displacing the control device, the control device can monitor the inside of the farm in all directions.
[0008] A further feature of this invention is that the number of top blocks is four, and the four top blocks are distributed on the left and right sides of the mounting base.
[0009] By adopting the above technical solution, four top blocks are distributed on both sides of the mounting base, and slots are opened on both sides inside the control box, with the four top blocks engaging inside the four slots.
[0010] A further feature of this invention is that an anti-slip layer is fixedly connected to the outside of the pulley, and anti-slip particles are fixedly connected to the outside of the anti-slip layer.
[0011] By adopting the above technical solution, when the pulley travels inside the straight track, the anti-slip particles increase the friction and prevent the pulley from slipping.
[0012] A further feature of this invention is that a heat dissipation groove is fixedly connected to the outside of the control box, and an isolation mesh is fixedly connected to the inside of the heat dissipation groove.
[0013] By adopting the above technical solution, the electrical components inside the control box dissipate heat through the heat dissipation slots, and the isolation mesh covers the inside of the heat dissipation slots to prevent impurities from entering the inside of the control box through the heat dissipation slots.
[0014] A further feature of this invention is that the number of heat dissipation slots is multiple, and the multiple heat dissipation slots are distributed in a rectangular array.
[0015] By adopting the above technical solution and setting up multiple heat dissipation slots, the heat dissipation effect can be improved.
[0016] A further feature of this invention is that mounting blocks are fixedly connected to the outer sides of both the linear track and the electric slide rail, and the mounting blocks are internally threaded with screw pins.
[0017] By adopting the above technical solution, the linear track and electric slide rail are fixed to the wall of the farm by mounting blocks and screws. The screws are threaded into the inside of the mounting blocks and extend into the wall to achieve a fixing effect. Not only is the fixing effect good, but disassembly is also convenient.
[0018] A further feature of this invention is that the number of mounting blocks is eight, and the eight mounting blocks are divided into two groups.
[0019] By adopting the above technical solution, the eight mounting blocks are divided into two groups of four, with the two groups of mounting blocks evenly distributed on both sides of the outside of the linear track and the electric slide rail.
[0020] A further feature of this invention is that the number of the screw pins is eight, and the eight screw pins are respectively threaded to the interior of eight mounting blocks.
[0021] By adopting the above technical solution, each mounting block has an internal threaded connection with a screw pin, and the eight mounting blocks are fixed by eight screw pins.
[0022] A further feature of this invention is that the linear track and the electric slide rail are parallel to each other.
[0023] By adopting the above technical solution, the linear track and the electric slide rail are distributed at different heights, with the linear track located below the electric slide rail.
[0024] A further feature of this invention is that the electric slide rail is model TRHVE.
[0025] By adopting the above technical solution, the electric slide rail is linear, the linear track is linear, and the control box moves in a linear motion.
[0026] The beneficial effects of this utility model are:
[0027] 1. This utility model, through the arrangement of a linear track, an electric slide rail, a control box, a wheel frame, pulleys, a mounting groove, a mounting base, a slot, a spring groove, a spring, a top block, and a control device, allows the mounting base to be installed into the mounting groove inside the control box. When the mounting base extends into the mounting groove, the spring expands, and the top block extends into the slot and engages with it, thus enabling the mounting base to be installed inside the control box. The control device extends to the outside of the control box, allowing for the monitoring and control of the temperature and humidity inside the farm. The electric slide rail drives the control box to move laterally. During the movement of the control box, the pulleys travel within the linear track. The electric slide rail drives the control box to move laterally, and the linear track supports the control box during its movement. By displacing the control device, the control device can perform comprehensive monitoring of the farm's interior.
[0028] 2. In this utility model, through the arrangement of heat dissipation grooves, mounting blocks, and screws, the electrical components inside the control box dissipate heat through the heat dissipation grooves. The isolation net covers the inside of the heat dissipation grooves to prevent impurities from entering the inside of the control box through the heat dissipation grooves. The linear track and electric slide rail are fixed to the wall of the farm by the mounting blocks and screws. The screws are threaded to the inside of the mounting blocks and extend into the wall to achieve a fixing effect. Not only is the fixing effect good, but disassembly is also convenient. Attached Figure Description
[0029] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0030] Figure 1 This is a schematic diagram of the structure of this utility model;
[0031] Figure 2 This is a schematic diagram of the internal structure of the control box of this utility model;
[0032] Figure 3 This is an exploded structural diagram of the spring groove and spring of this utility model;
[0033] Figure 4 This is a schematic diagram of the system structure of the control device of this utility model.
[0034] In the diagram, 1 is a linear track; 2 is an electric slide rail; 3 is a control box; 4 is a wheel frame; 5 is a pulley; 6 is a mounting slot; 7 is a mounting base; 8 is a slot; 9 is a spring slot; 10 is a spring; 11 is a top block; 12 is a control device; 13 is a heat dissipation slot; 14 is a mounting block; and 15 is a screw. Detailed Implementation
[0035] The technical solution of this utility model will now be clearly and completely described with reference to specific embodiments. Obviously, the described embodiments are only a part of the embodiments of this utility model, and not all of them. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model without creative effort are within the scope of protection of this utility model.
[0036] A smart temperature and humidity control device for breeding centipedes includes the following specific embodiments:
[0037] Example 1:
[0038] Reference Figure 1-4 The output end of the electric slide rail 2 is fixedly connected to a control box 3. A wheel frame 4 is fixedly connected to the outside of the control box 3. A pulley 5 is rotatably connected inside the wheel frame 4. The pulley 5 extends into the interior of the linear track 1 and slides with the linear track 1. An installation groove 6 is opened inside the control box 3. An installation seat 7 is inserted into the installation groove 6. A slot 8 is opened on both sides inside the control box 3. A spring groove 9 is opened on both sides inside the installation seat 7. A spring 10 is fixedly connected inside the spring groove 9. A top block 11 is fixedly connected to one end of the spring 10. The top block 11 extends into the interior of the slot 8 and engages with the slot 8. A control device 12 is fixedly connected to one side of the installation seat 7.
[0039] Furthermore, there are four top blocks 11, which are distributed on the left and right sides of the mounting base 7. The pulley 5 is externally fixedly connected to an anti-slip layer, and the anti-slip layer is externally fixedly connected to anti-slip particles.
[0040] Specifically, the mounting base 7 is installed into the mounting slot 6 inside the control box 3. When the mounting base 7 extends into the mounting slot 6, the spring 10 expands, and the top block 11 extends into the slot 8 and engages with it, allowing the mounting base 7 to be installed inside the control box 3. The control device 12 extends to the outside of the control box 3, monitoring and controlling the temperature and humidity inside the farm. The electric slide rail 2 drives the control box 3 to move laterally. During the movement of the control box 3, the pulley 5 will move along the linear track 1. The control box 3 moves laterally via the electric slide rail 2 and is supported by the straight track 1 during movement. The control device 12 is displaced so that it can monitor the interior of the farm in all directions. Four top blocks 11 are distributed on both sides of the mounting base 7. The slots 8 are opened on both sides inside the control box 3. The four top blocks 11 are engaged with the four slots 8. When the pulley 5 moves inside the straight track 1, the anti-slip particles increase the friction to prevent the pulley 5 from slipping.
[0041] It should be noted that, in Figure 4 In the middle, the sensor module includes temperature and humidity sensors with an accuracy of ±1% RH and ±0.5℃, which monitor the temperature and humidity inside the farm and collect data in real time;
[0042] Central controller: Equipped with an AI algorithm chip, it receives sensor data and analyzes weather trends, obtains real-time weather data through a cloud meteorological interface, and generates control commands;
[0043] Temperature control module: Inverter air conditioner + PTC heating element, supports dual modes of cooling / heating, temperature control accuracy ±0.3℃; Humidification / dehumidification module: Ultrasonic humidifier + rotary dehumidifier, humidity adjustment rate 5%-10%RH / hour, supports stepless speed regulation.
[0044] Communication module: Built-in WiFi / 4G module, supports remote monitoring and parameter setting, and is compatible with mobile APP and IoT platform;
[0045] Example 2:
[0046] Reference Figure 1 The control box 3 is externally fixedly connected to a heat dissipation slot 13, and an isolation net is fixedly connected inside the heat dissipation slot 13. There are multiple heat dissipation slots 13, and the multiple heat dissipation slots 13 are distributed in a rectangular array. The outer sides of the linear track 1 and the electric slide rail 2 are fixedly connected to mounting blocks 14. The inner threads of the mounting blocks 14 are connected to screw pins 15. There are eight mounting blocks 14, and the eight mounting blocks 14 are divided into two groups. There are eight screw pins 15, and the eight screw pins 15 are respectively threaded to the inner of the eight mounting blocks 14. The linear track 1 and the electric slide rail 2 are parallel to each other. The model of the electric slide rail 2 is TRH30VE.
[0047] Specifically, the electrical components inside the control box 3 are cooled by heat dissipation grooves 13. An isolation net covers the inside of the heat dissipation grooves 13 to prevent impurities from entering the control box 3 through the heat dissipation grooves 13. The setting of multiple heat dissipation grooves 13 can improve the heat dissipation effect. The linear track 1 and the electric slide rail 2 are fixed to the wall of the farm by mounting blocks 14 and screws 15. The screws 15 are threaded to the inside of the mounting blocks 14 and extend into the wall to achieve a fixing effect. Not only is the fixing effect good, but disassembly is also convenient. The eight mounting blocks 14 are divided into groups of four, and the two groups of mounting blocks 14 are evenly distributed on both sides of the outside of the linear track 1 and the electric slide rail 2. Each mounting block 14 has a screw 15 threaded inside. The eight mounting blocks 14 are fixed by eight screws 15. The linear track 1 and the electric slide rail 2 are distributed at different heights. The linear track 1 is set below the electric slide rail 2. The electric slide rail 2 is straight. The linear track 1 is straight, so the control box 3 can move linearly.
[0048] In this invention, the mounting base 7 is installed into the mounting groove 6 inside the control box 3. When the mounting base 7 extends into the mounting groove 6, the spring 10 will expand, and the top block 11 will extend into the slot 8 and engage with it, thus allowing the mounting base 7 to be installed inside the control box 3. The control device 12 extends to the outside of the control box 3. The control device 12 monitors and controls the temperature and humidity inside the farm. The electric slide rail 2 drives the control box 3 to move laterally. During the movement of the control box 3, the pulley 5 will travel inside the straight track 1. The electric slide rail 2 drives the control box 3 to move laterally, and the straight track 1 supports the control box 3 during its movement. By displacing the control device 12, the control device 12 can monitor the inside of the farm in all directions.
[0049] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A smart centipede breeding temperature and humidity control device, comprising a linear track (1) and an electric slide rail (2), characterized in that: The output end of the electric slide rail (2) is fixedly connected to a control box (3). A wheel frame (4) is fixedly connected to the outside of the control box (3). A pulley (5) is rotatably connected inside the wheel frame (4). The pulley (5) extends into the interior of the linear track (1) and slides with the linear track (1). An installation groove (6) is opened inside the control box (3). An installation seat (7) is inserted into the installation groove (6). A slot (8) is opened on both sides inside the control box (3). A spring groove (9) is opened on both sides inside the installation seat (7). A spring (10) is fixedly connected inside the spring groove (9). A top block (11) is fixedly connected to one end of the spring (10). The top block (11) extends into the interior of the slot (8) and engages with the slot (8). A control device (12) is fixedly connected to one side of the installation seat (7).
2. The intelligent centipede breeding temperature and humidity control device according to claim 1, characterized in that: The number of top blocks (11) is four, and the four top blocks (11) are distributed on the left and right sides of the mounting base (7).
3. The intelligent centipede breeding temperature and humidity control device according to claim 1, characterized in that: The pulley (5) is fixedly connected to the outside of an anti-slip layer, and the anti-slip layer is fixedly connected to anti-slip particles.
4. The intelligent centipede breeding temperature and humidity control device according to claim 1, characterized in that: The control box (3) is externally fixedly connected to a heat dissipation trough (13), and an isolation net is internally fixedly connected to the heat dissipation trough (13).
5. The intelligent centipede breeding temperature and humidity control device according to claim 4, characterized in that: The number of heat dissipation slots (13) is multiple, and the multiple heat dissipation slots (13) are distributed in a rectangular array.
6. The intelligent centipede breeding temperature and humidity control device according to claim 1, characterized in that: The outer sides of the linear track (1) and the electric slide rail (2) are fixedly connected to mounting blocks (14), and the inner threads of the mounting blocks (14) are connected to screw pins (15).
7. The intelligent centipede breeding temperature and humidity control device according to claim 6, characterized in that: The number of mounting blocks (14) is eight, and the eight mounting blocks (14) are divided into two groups.
8. The intelligent centipede breeding temperature and humidity control device according to claim 6, characterized in that: The number of the screw pins (15) is eight, and the eight screw pins (15) are respectively threaded to the interior of the eight mounting blocks (14).
9. The intelligent centipede breeding temperature and humidity control device according to claim 1, characterized in that: The linear track (1) and the electric slide rail (2) are parallel to each other.
10. The intelligent centipede breeding temperature and humidity control device according to claim 1, characterized in that: The electric slide rail (2) is model TRH30VE.