A portable intelligent mixing device for DHI sampling bottles
The portable DHI sampling bottle intelligent mixing device achieves portability through the design of a handle and a shoulder strap, and achieves rapid mixing through a motor-driven gear system. This solves the problems of inconvenience and slow mixing speed of existing devices, and improves the user experience and efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YINCHUAN ANIMAL HUSBANDRY TECH EXTENSION SERVICE CENT
- Filing Date
- 2025-08-05
- Publication Date
- 2026-07-03
AI Technical Summary
Existing DHI sampling devices are not portable and have a slow mixing speed, failing to meet the requirements for convenient use and efficient mixing.
A portable intelligent mixing device for DHI sampling bottles was designed. It achieves portability through the combination of a handle and a shoulder strap, and uses a motor-driven gear system to drive a rotating cylinder for rapid mixing. Combined with a weighing sensor and a protective structure, the device ensures stability and safety.
The device achieves portability and efficient mixing, meets the needs of people of different body types, improves mixing speed and stability, and simplifies the operation process.
Smart Images

Figure CN224442789U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of DHI sampling bottle mixing technology, specifically a portable intelligent mixing device for DHI sampling bottles. Background Technology
[0002] DHI sampling is a key technical step in the determination of dairy cow production performance. It refers to the process of regularly collecting milk samples during the lactation period of dairy cows and analyzing milk composition and milk yield data. During the sampling and analysis process, a mixing device is required to mix the samples to eliminate stratification and facilitate subsequent analysis.
[0003] In the existing technology, general mixing devices are not convenient for customers to carry, making them cumbersome to use. Furthermore, they cannot fully mix the materials during the mixing process, resulting in a slow mixing speed. Utility Model Content
[0004] The purpose of this invention is to provide a portable intelligent mixing device for DHI sampling bottles to solve the problems of inconvenience in carrying and mixing mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a portable intelligent mixing device for DHI sampling bottles, comprising a base and a support base. The top of the base is provided with a support base, and handles are provided on both sides of the top of the support base. A second groove is provided at the middle of the back of the base and at the top of the back of the support base, and two sliders are slidably connected to both ends of the second groove. A vertical shoulder strap is provided between the two sliders. A rotating cylinder is provided in the middle of the support base via a bearing, and a rotating groove is provided in the support base on the outer side of the bottom end of the rotating cylinder. Teeth are provided on the outer side of the bottom end of the rotating cylinder. The support base has evenly spaced tooth marks at the center of its bottom, and a toothed groove on the base corresponding to the tooth marks. A gear groove is located in the center of the base, and a gear shaft is located in the gear groove. A gear is located in the center of the gear shaft in the gear groove. The gear engages with the tooth marks at the bottom of the support base through the gear groove and the toothed groove. This allows the customer to carry the sample via a handle or adjust the shoulder strap for easy carrying. In use, the rotating cylinder can rotate the sampling bottle and move the support base, resulting in better mixing and increased mixing speed.
[0006] As a further technical solution of this utility model, the sliding groove 2 is uniformly provided with adjustment holes, and the slider 2 corresponding to the adjustment hole in the sliding groove 2 is provided with an adjustment rod. The slider 2 is threadedly connected to the corresponding adjustment hole through the adjustment rod, so that the slider 2 can move in the sliding groove 2. Then, the adjustment rod can be screwed through the slider 2 and into the adjustment hole of the sliding groove 2 to fix it.
[0007] As a further technical solution of this utility model, a sampling bottle is provided inside the rotating cylinder, and a weighing sensor is provided at the middle position of the bottom of the rotating cylinder.
[0008] As a further technical solution of this utility model, the top of the rotating cylinder is provided with a rotating cover, and both the rotating cylinder and the inner side of the rotating cover are provided with soft pads, so that the rotating cover protects the top of the sampling bottle and the soft pads protect the outside of the sampling bottle.
[0009] As a further technical solution of this utility model, the bottom of the rotating cover is provided with a plug at the center of each of the four sides, and the top of the rotating cylinder corresponding to the plug is provided with a slot. The plug is inserted into the corresponding slot on the rotating cylinder, so that the rotating cover is inserted into the rotating cylinder through the plug at the bottom, which facilitates its assembly and disassembly.
[0010] As a further technical solution of this utility model, each of the two sides of the bottom of the support base is provided with an inverted T-shaped slider, and the base corresponding to the slider is provided with an inverted T-shaped groove. The groove is slidably connected to the corresponding slider, so that when the support base moves, it drives the slider to move in the groove, which can make its movement more stable.
[0011] As a further technical solution of this utility model, a motor slot is provided in the support seat above one side of the gear ring, and a second motor is provided in the motor slot of the support seat. The output end of the second motor extends through a bearing to a gear two in the rotating slot, and the gear two meshes with the gear ring, so that the motor slot protects the second motor, and the second motor can drive the gear two on its shaft to rotate, so that the gear two drives the gear ring meshing with it to rotate.
[0012] As a further technical solution of this utility model, a motor slot is provided in the base at one end of the gear slot, and a motor is provided in the motor slot of the base. The output end of the motor extends into the gear slot and is connected to the gear shaft through a bearing and a coupling, so that the motor slot protects the motor and the motor can drive the gear shaft to rotate through the coupling.
[0013] Compared with the prior art, the beneficial effects of this utility model are:
[0014] The device is carried by a handle and the slider can be moved within the slide groove. The slider can move the shoulder strap together. The position of the slider can be adjusted to fix it, and the distance between the shoulder straps can be adjusted to meet the needs of people of different body sizes. The device can then be carried on the shoulder strap for easy carrying.
[0015] By driving the first gear on the gear shaft to rotate, the first gear can move the bottom of the support base that meshes with it. Then, the second motor can be started, which will drive the second gear on its shaft to rotate. The second gear will drive the gear ring that meshes with it to rotate, which will drive the sampling bottle in the rotating cylinder to perform a more thorough mixing operation and improve the mixing speed. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the front sectional view of the present invention;
[0017] Figure 2 This is a top sectional view of the base structure of this utility model;
[0018] Figure 3 This is a front sectional view of the base, support, and slide of this utility model.
[0019] Figure 4 This is a schematic diagram of the back structure of the base and support of this utility model;
[0020] Figure 5 For the present utility model Figure 1 Enlarged structural diagram at point A in the middle;
[0021] In the diagram: 1. Base; 2. Support base; 3. Rotating groove; 4. Rotating cylinder; 5. Rotating cover; 6. Handle; 7. Insert block; 8. Gear 1; 9. Gear groove; 10. Gear 2; 11. Sampling bottle; 12. Soft pad; 13. Slider 1; 14. Slide groove 1; 15. Motor 1; 16. Motor 2; 17. Gear ring; 18. Shoulder strap; 19. Slider 2; 20. Slide groove 2; 21. Weighing sensor; 22. Tooth mark groove. Detailed Implementation
[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0023] Please see Figure 1- / 5, An embodiment of this utility model: a portable DHI sampling bottle intelligent mixing device, including a base 1 and a support 2. The top of the base 1 is provided with the support 2, and the top two sides of the support 2 are provided with handles 6. The middle position of the back of the base 1 and the top of the back of the support 2 are provided with a second groove 20, and the two ends of the second groove 20 are slidably connected with sliders 19. The sliders 19 are provided with vertical straps 18. The second groove 20 is provided with evenly distributed adjustment holes, and the sliders 19 corresponding to the adjustment holes in the second groove 20 are provided with adjustment rods. The sliders 19 are threadedly connected to the corresponding adjustment holes through the adjustment rods.
[0024] Specifically, such as Figure 1 and Figure 4 As shown, the device is carried by the handle 6 and the slider 19 can be moved in the groove 20 on the back of the base 1 and the support 2. The slider 19 can move the shoulder strap 18 together. The slider 19 can be fixed by screwing the adjusting rod through the corresponding adjusting hole of the slider 19 and the groove 20. The distance between the shoulder straps 18 can be adjusted to meet the needs of people of different body sizes. The device can then be carried on the shoulder by the shoulder straps 18.
[0025] A rotating cylinder 4 is mounted on the center of the support base 2 via a bearing. A rotating groove 3 is located on the outer side of the bottom of the rotating cylinder 4 within the support base 2. A gear ring 17 is located on the outer side of the bottom of the rotating cylinder 4. A motor slot is located on the support base 2 above one side of the gear ring 17. A second motor 16 is located in the motor slot of the support base 2. The output end of the second motor 16 extends through a bearing into the rotating groove 3, where a second gear 10 is located. The second gear 10 meshes with the gear ring 17. Evenly spaced tooth marks are provided in the center of the bottom of the support base 2. The base 1 corresponding to the bottom tooth marks is provided with a tooth mark groove 22. A gear groove 9 is provided in the middle of the base 1, and a gear shaft is provided in the gear groove 9. A gear 8 is provided in the middle of the gear shaft in the gear groove 9. The gear 8 meshes with the tooth marks at the bottom of the support base 2 through the gear groove 9 and the tooth mark groove 22. A motor groove is provided in the base 1 at one end of the gear groove 9, and a motor 15 is provided in the motor groove of the base 1. The output end of the motor 15 extends into the gear groove 9 through a bearing and a coupling and is connected to the gear shaft.
[0026] Specifically, such as Figure 1 , Figure 2 and Figure 3As shown, the motor 15 drives the gear 8 on the gear shaft to rotate, which in turn causes the bottom of the support 2 that meshes with it to move. Then, the motor 16 can be started to drive the gear 10 on its shaft to rotate, which in turn causes the gear 10 to rotate and mesh with the gear ring 17. This causes the gear ring 17 to rotate the rotating cylinder 4 in the rotating groove 3, allowing the sampling bottle 11 to move laterally while rotating, thus enabling a more thorough mixing operation and increasing the mixing speed.
[0027] The rotating cylinder 4 is equipped with a sampling bottle 11, and a weighing sensor 21 is located in the middle of the bottom of the rotating cylinder 4. The top of the rotating cylinder 4 is equipped with a rotating cover 5, and soft pads 12 are provided on the inner side of both the rotating cylinder 4 and the rotating cover 5.
[0028] Specifically, such as Figure 1 and Figure 5 As shown, the sampling bottle 11 is placed inside the rotating cylinder 4 and protected by the soft pad 12. Then, the sampled material can be poured into the sampling bottle 11. The weighing sensor 21 can weigh the material in the sampling bottle 11, so that the staff can know the weight of the sampled material. Then, the rotating cap 5 is placed on the rotating cylinder 4 to prevent the sampling bottle 11 from shifting when it is mixed.
[0029] The bottom of the rotating cover 5 is provided with a plug 7 in the middle of all four sides, and the top of the rotating cylinder 4 corresponding to the plug 7 is provided with a slot, and the plug 7 is inserted into the corresponding slot on the rotating cylinder 4.
[0030] Specifically, such as Figure 1 As shown, the insert 7 at the bottom of the rotating cover 5 is inserted into the rotating cylinder 4 to secure it and prevent the rotating cover 5 from falling off.
[0031] The bottom of the support base 2 has an inverted T-shaped slider 13 in the middle of both sides, and the base 1 corresponding to the slider 13 has an inverted T-shaped groove 14, and the groove 14 is slidably connected to the corresponding slider 13.
[0032] Specifically, such as Figure 2 and Figure 3 As shown, when the support base 2 moves, it can drive the slider 13 to slide in the groove 14, which makes it easier to adjust the position of the support base 2 and make its movement more stable.
[0033] Working principle: During use, the device can be carried by the handle 6, and the slider 19 can be moved within the groove 20 on the back of the base 1 and support 2, causing the carrying strap 18 to move together. The slider 19 can then be fixed by screwing an adjusting rod through the corresponding adjusting holes in the groove 20, allowing for easy adjustment of the distance between the carrying straps 18 to accommodate different body types. The device can then be carried on the shoulder using the carrying straps 18. After the user moves the device to a suitable location, the sampled material can be poured into the sampling bottle 11, allowing the weighing sensor 21 to weigh the material in the sampling bottle 11, providing information on the weight of the sampled material. Finally, the insert 7 at the bottom of the rotating cap 5 is inserted into the rotating cylinder 4 for easy processing. To prevent the rotating cap 5 from falling off, the top of the sampling bottle 11 is protected. After the sampling bottle 11 is fixed, motor 15 can be started to drive gear 8 on the gear shaft to rotate. Gear 8 can drive the bottom of the support base 2 that meshes with it to move. When the support base 2 moves, slider 13 can slide in the slide groove 14, which facilitates the adjustment of the position of the support base 2 and makes its movement more stable. Then, motor 2 can be started to drive gear 2 10 on its shaft to rotate. Gear 2 10 drives gear ring 17 that meshes with it to rotate. Gear ring 17 can drive the rotating cylinder 4 to rotate in the rotating groove 3. When the sampling bottle 11 rotates, it can move laterally to perform a more comprehensive mixing operation and improve the mixing speed.
[0034] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.
Claims
1. A portable intelligent mixing device for DHI sampling bottles, comprising a base (1) and a support (2), characterized in that: The base (1) has a support seat (2) on its top, and the support seat (2) has handles (6) on both sides of its top edge. The middle of the back of the base (1) and the top of the back of the support seat (2) are provided with a sliding groove (20), and the two ends of the sliding groove (20) are slidably connected with sliders (19). The sliders (19) are provided with vertical straps (18) between them. The middle of the support seat (2) is provided with a rotating cylinder (4) through a bearing, and the support seat (2) on the outer side of the bottom end of the rotating cylinder (4) is provided with a rotating groove (6). 3), and the outer side of the bottom end of the rotating cylinder (4) is provided with a toothed ring (17), the middle position of the bottom of the support base (2) is evenly provided with tooth marks, and the base (1) corresponding to the tooth marks at the bottom of the support base (2) is provided with a tooth mark groove (22), the middle position of the base (1) is provided with a gear groove (9), and the gear groove (9) is provided with a gear shaft, the middle position of the gear shaft in the gear groove (9) is provided with a gear one (8), and the gear one (8) meshes with the tooth marks at the bottom of the support base (2) through the gear groove (9) and the tooth mark groove (22).
2. The portable DHI sampling bottle intelligent mixing device according to claim 1, characterized in that: The sliding groove (20) is uniformly provided with adjustment holes, and the sliding block (19) corresponding to the adjustment hole in the sliding groove (20) is provided with adjustment rods, and the sliding block (19) is threadedly connected to the corresponding adjustment hole through the adjustment rod.
3. The portable DHI sampling bottle intelligent mixing device according to claim 1, characterized in that: The rotating cylinder (4) is equipped with a sampling bottle (11), and a weighing sensor (21) is provided at the middle position of the bottom of the rotating cylinder (4).
4. The portable DHI sampling bottle intelligent mixing device according to claim 1, characterized in that: The top of the rotating cylinder (4) is provided with a rotating cover (5), and both the rotating cylinder (4) and the rotating cover (5) are provided with soft pads (12).
5. The portable DHI sampling bottle intelligent mixing device according to claim 4, characterized in that: The rotating cover (5) has a plug (7) at the center of its bottom perimeter, and the top of the rotating cylinder (4) corresponding to the plug (7) has a slot, and the plug (7) is inserted into the corresponding slot on the rotating cylinder (4).
6. The portable DHI sampling bottle intelligent mixing device according to claim 1, characterized in that: The support base (2) has an inverted T-shaped slider (13) at the middle position on both sides of the bottom, and the base (1) corresponding to the slider (13) has an inverted T-shaped groove (14), and the groove (14) is slidably connected to the corresponding slider (13).
7. The portable DHI sampling bottle intelligent mixing device according to claim 1, characterized in that: The support seat (2) above one side of the gear ring (17) is provided with a motor slot, and the motor slot of the support seat (2) is provided with a second motor (16). The output end of the second motor (16) extends through a bearing to a rotating groove (3) where a second gear (10) is provided, and the second gear (10) meshes with the gear ring (17).
8. The portable DHI sampling bottle intelligent mixing device according to claim 1, characterized in that: The base (1) at one end of the gear groove (9) is provided with a motor groove, and the motor groove of the base (1) is provided with a motor (15), and the output end of the motor (15) extends into the gear groove (9) and is connected to the gear shaft through a bearing and a coupling.