Split type high-speed mixer feeding funnel
By designing a split-type high-speed mixer feeding hopper and using a lifting control bracket and locking bolt linkage, the problem of the non-adjustable height of the existing feeding hopper was solved, achieving a high degree of adaptability and uniform material mixing effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YANGZHOU YATUO MECHANICAL ENG TECH CO LTD
- Filing Date
- 2025-07-29
- Publication Date
- 2026-07-10
AI Technical Summary
The existing feeding hopper cannot be adjusted in height, making it unsuitable for mixing equipment of different heights, resulting in poor adaptability.
A split-type high-speed mixer feeding hopper was designed, which uses a lifting control bracket and a horizontal bracket linked together, combined with locking bolts to achieve height adjustment. A material separation platform and a porous filter structure are set on the feeding hopper to achieve uniform mixing and safe feeding of materials.
It achieves highly adaptable adjustment of the feeding hopper, ensuring uniform mixing of materials, preventing large particles from clogging, and improving the safety and efficiency of the feeding process.
Smart Images

Figure CN224477634U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a feeding component, specifically a split-type high-speed mixer feeding hopper. Background Technology
[0002] High-speed mixer feeding hoppers are mainly used to guide materials into the mixing equipment stably and orderly, avoiding spillage or flying during feeding. They also help control the feeding speed and amount. They are commonly found in production lines in chemical, food, and pharmaceutical industries that require mixing powders, granules, or liquids. They are especially suitable for handling materials that are prone to dust, require precise proportioning, or have high hygiene standards. They can reduce raw material waste, reduce dust pollution, ensure a clean operating environment, and improve mixing efficiency through uniform feeding. The feeding hopper can be detachable or made of corrosion-resistant materials for easy cleaning and maintenance, adapting to different production needs.
[0003] In the prior art: 202123416621.2 A feeding device for feed production. This utility model discloses a feeding device for feed production, including a feeding cylinder, a shock-absorbing silo fixedly installed on the lower bottom surface of the feeding cylinder, a feeding funnel fixedly installed on the lower surface of the shock-absorbing silo, a vibration base fixedly installed on the outer wall of the feeding funnel, a vibration motor fixedly installed on the outer side of the vibration base, a feeding port fixedly installed at the bottom of the feeding funnel, a support frame fixedly installed on the inner wall of the feeding port, a column fixedly installed on the upper top surface of the support frame, a top cone sleeved on the top of the column, and a blade fixedly installed on the outer side of the top cone. The springs can support the top cone, so that when the material bag is placed into the feeding cylinder and slides into the feeding funnel, the top cone and the blade can break a sufficiently large opening at the bottom of the material bag, allowing the raw material to flow out smoothly. The baffle can control the pouring speed and amount of raw material entering the processing chamber from the feeding port, preventing damage to the processing components inside the processing chamber.
[0004] Although existing feeding hoppers can ensure that raw materials flow smoothly from the material bag and baffles can control the pouring speed and amount of raw materials entering the processing chamber from the feeding port, they cannot adjust the height of the feeding hopper and cannot adapt well to the height of the supporting machinery. Utility Model Content
[0005] In order to overcome the shortcomings of the existing technology, this utility model provides a split-type high-speed mixer feeding hopper.
[0006] This utility model is achieved using the following technical solution: a split-type high-speed mixer feeding hopper, comprising a feeding component, the feeding component being a feeding hopper, a material transmission channel at the bottom of the feeding hopper, and an assembly flange at the bottom of the feeding hopper. The material transmission channel and the assembly flange at the bottom of the feeding hopper are further assembled and fixed by bolts. A bottom assembly component is provided on the material transmission channel, and an assembly end is provided on the bottom assembly component. An internal thread is provided on the inner side of the assembly end. The material transmission channel is threadedly assembled with the high-speed mixer via the assembly end. A lifting control component is provided on one side of the feeding hopper, the lifting control component being a lifting control bracket. A support cylinder is provided next to the lifting control bracket, and a piston rod is provided on the support cylinder. The piston rod and a drive rod are assembled together. An outer ring is provided on the feeding hopper, and a transverse support is provided on the outer ring. The transverse support and the drive rod are assembled and connected together.
[0007] An assembly space is provided inside the outer ring, and a feeding funnel is placed in the assembly space. A boss is provided on the outside of the feeding funnel, and the boss rests on the outer ring.
[0008] A further locking component is provided between the outer ring and the feeding funnel. The locking component is a locking bolt, which is assembled through a threaded hole on the outer surface of the outer ring and the feeding funnel.
[0009] The top of the feeding hopper is provided with a top cover plate, and a top locking screw is provided between the top cover plate and the feeding hopper. The top cover plate is provided with a feeding port.
[0010] The feeding hopper is equipped with an internal material separation platform, and the internal material separation platform is equipped with multiple material filter holes.
[0011] The lifting control bracket has a main support on one side, and a support space is provided on the main support, in which a feeding funnel is placed.
[0012] Compared to existing technologies, this feeding funnel allows for material feeding operations. During feeding, the material is conveyed into the high-pressure mixer via the material transport channel, facilitating the feeding process and meeting operational requirements. The lifting control bracket integrates hydraulic drive and horizontal support linkage, enabling the feeding funnel to have height adjustment capabilities. This allows for timely height adjustments to adapt to the assembly needs of high-pressure mixers at different heights. The feeding funnel features a boss and an outer ring, which, through the nesting and locking bolts, form a double-locking mechanism, ensuring the feeding funnel's safety. The internal material separation platform utilizes a multi-porous filter structure for preliminary screening, preventing large particles from clogging the material while ensuring uniform mixing, allowing appropriately sized particles to enter the material transport channel. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of the structure of this utility model;
[0014] Figure 2 This is a partial schematic diagram of the present invention;
[0015] Figure 3 This is a schematic diagram of the structure of this utility model;
[0016] In the diagram: 1 is the feeding hopper, 2 is the material transmission channel, 3 is the assembly flange, 4 is the assembly end, 5 is the lifting control bracket, 6 is the support cylinder, 7 is the piston rod, 8 is the drive rod, 9 is the outer ring, 10 is the horizontal support, 11 is the locking bolt, 12 is the boss, 13 is the top cover plate, 14 is the internal material separation platform, and 15 is the main support. Detailed Implementation
[0017] The present invention will be further described below with reference to the accompanying drawings and specific embodiments. It should be noted that, without conflict, the various embodiments or technical features described below can be arbitrarily combined to form new embodiments.
[0018] A split-type high-speed mixer feeding hopper includes a feeding component, namely a feeding hopper 1. The bottom of the feeding hopper 1 has a material transmission channel 2 and an assembly flange 3. The material transmission channel 2 and the assembly flange 3 at the bottom of the feeding hopper 1 are further assembled and fixed by bolts. The material transmission channel 2 has a bottom assembly component with an assembly end 4. The assembly end 4 has internal threads, and the material transmission channel 2 is threadedly assembled with the high-speed mixer via the assembly end 4. A lifting control component, namely a lifting control bracket 5, is located on one side of the feeding hopper 1. A support cylinder 6 is located next to the lifting control bracket 5, and a piston rod 7 is mounted on the support cylinder 6. The piston rod 7 and a drive rod 8 are assembled together. The feeding hopper 1 has an outer ring 9, and a transverse support 10 is mounted on the outer ring 9. The transverse support 10 and the drive rod 8 are assembled and connected together.
[0019] To further enhance the adaptability of the feeding funnel, the material transmission channel 2 can be designed as a transmission channel made of flexible material. This allows the material transmission channel 2 to be assembled with the high-speed mixer in a curved state. An assembly space is provided inside the outer ring 9, and the feeding funnel 1 is placed in the assembly space. A boss 12 is provided on the outer side of the feeding funnel 1, and the boss 12 rests on the outer ring 9. A further locking component is provided between the outer ring 9 and the feeding funnel 1. The locking component is a locking bolt 11, which is assembled by passing through the threaded hole on the outer surface of the outer ring 9 and the feeding funnel 1.
[0020] A top cover plate 13 is provided on the top of the feeding hopper 1. A top locking screw is provided between the top cover plate 13 and the feeding hopper 1. A feeding port 14 is provided on the top cover plate 13. An internal material separation platform 14 is provided inside the feeding hopper 1. The internal material separation platform 14 is provided with multiple material filtering holes. A main support 15 is provided on one side of the lifting control bracket 5. A resting space is provided on the main support 15. The feeding hopper 1 is placed in the resting space. The main support 15 can provide a certain degree of protection for the feeding hopper 1. If the feeding hopper 1 falls, the main support can be used to support the feeding hopper, ensuring the safe operation of the feeding hopper 1. A gap is reserved between the main support 15 and the feeding hopper 1, which allows the feeding hopper 1 to make small up and down adjustments under the action of the support cylinder 6.
[0021] During feeding, the material can be fed into the high-speed mixer through the material transmission channel 2, which facilitates the feeding process and meets the working requirements of material feeding. The lifting control bracket 5 integrates hydraulic drive and horizontal support linkage, so that the feeding hopper 1 has a height adjustment function, which can be adjusted in time to adapt to the assembly needs of high-speed mixers of different heights. The feeding hopper 1 is provided with a boss 12 and an outer ring 9. The outer ring 9 and the boss 12 can be nested and locked with locking bolts to form a double lock, so that the feeding hopper 1 can be safely guaranteed. The internal material separation platform 14 achieves preliminary screening through a porous filter structure, which not only prevents large particles from clogging but also ensures uniform mixing of materials, so that particles of appropriate size can enter the material transmission channel 2.
[0022] The above embodiments are merely preferred embodiments of this utility model and should not be construed as limiting the scope of protection of this utility model. Any non-substantial changes and substitutions made by those skilled in the art based on this utility model shall fall within the scope of protection claimed by this utility model.
Claims
1. A split-type high-speed mixer feeding hopper, comprising a feeding component, wherein the feeding component is a feeding hopper, a material conveying channel is provided at the bottom of the feeding hopper, an assembly flange is provided at the bottom of the feeding hopper, the material conveying channel and the assembly flange at the bottom of the feeding hopper are further assembled and fixed by bolts, a bottom assembly component is provided on the material conveying channel, the bottom assembly component is provided with an assembly end, the inner side of the assembly end is provided with internal threads, the material conveying channel is threadedly assembled with the high-speed mixer by the assembly end, and a lifting control component is provided on one side of the feeding hopper, characterized in that: The lifting control component is a lifting control bracket, a support cylinder is provided next to the lifting control bracket, a piston rod is provided on the support cylinder, the piston rod and the drive rod are assembled together, an outer ring is provided on the feeding hopper, a transverse support is provided on the outer ring, and the transverse support and the drive rod are assembled and connected together.
2. The split-type high-speed mixer feeding hopper according to claim 1, characterized in that: An assembly space is provided inside the outer ring, and a feeding funnel is placed in the assembly space. A boss is provided on the outside of the feeding funnel, and the boss rests on the outer ring.
3. The split-type high-speed mixer feeding hopper according to claim 2, characterized in that: A further locking component is provided between the outer ring and the feeding funnel. The locking component is a locking bolt, which is assembled through a threaded hole on the outer surface of the outer ring and the feeding funnel.
4. A split-type high-speed mixer feeding hopper according to claim 3, characterized in that: The top of the feeding hopper is provided with a top cover plate, and a top locking screw is provided between the top cover plate and the feeding hopper. The top cover plate is provided with a feeding port.
5. A split-type high-speed mixer feeding hopper according to claim 4, characterized in that: The feeding hopper is equipped with an internal material separation platform, and the internal material separation platform is equipped with multiple material filter holes.
6. A split-type high-speed mixer feeding hopper according to claim 5, characterized in that: The lifting control bracket has a main support on one side, and a support space is provided on the main support, in which a feeding funnel is placed.