Low-temperature pressing device for processing burdock beverage

By introducing a crushing and compression mechanism into the low-temperature pressing device for burdock beverage processing, the problem of incomplete pressing caused by uncrushed materials has been solved, achieving more efficient pressing and automatic waste discharge, thus improving work efficiency.

CN224392004UActive Publication Date: 2026-06-23XUZHOU KANGHUI BAINIAN FOODSTUFF CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XUZHOU KANGHUI BAINIAN FOODSTUFF CO LTD
Filing Date
2025-06-04
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The existing low-temperature pressing equipment for burdock beverage processing is not equipped with a crushing device, which results in larger objects not being able to fully extract the liquid during pressing, leading to incomplete pressing.

Method used

An apparatus including a cryogenic pressing chamber and a crushing and compression mechanism is designed. The crushing and compression mechanism consists of first and second crushing rollers driven by a motor, gears and pulleys, and is used to crush and convey the material for pressing.

Benefits of technology

It enables the crushing and pressing of materials, improves the pressing effect, and can automatically discharge waste, thus improving work efficiency.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224392004U_ABST
    Figure CN224392004U_ABST
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Abstract

The utility model belongs to the field of squeezing device, specifically is a kind of low temperature squeezing device for burdock beverage processing, including low temperature squeezing storehouse;Low temperature squeezing storehouse left side end is fixedly connected with inlet bin, and the left and right sides of the front and rear ends of low temperature squeezing storehouse are also fixedly connected with support leg, and crushing compression mechanism is arranged between low temperature squeezing storehouse and inlet bin;The crushing compression mechanism includes motor, the motor is arranged at the position close to rear position at inlet bin right side end, and motor fixedly connected with inlet bin;Through the design of crushing compression mechanism, the function of cutting and breaking material before squeezing is realized, the device for crushing is not set in the existing device, when larger object is processed and squeezed, due to the volume is larger, the liquid in its interior cannot be fully squeezed out when being squeezed, the problem that the squeezing is not complete occurs, and the squeezing effect is improved.
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Description

Technical Field

[0001] This utility model relates to the field of pressing devices, specifically a low-temperature pressing device for processing burdock beverages. Background Technology

[0002] Burdock beverages are a type of health drink made primarily from burdock. They offer numerous health benefits and are rich in nutrients. As a result, burdock beverages require the use of a low-temperature pressing device for production.

[0003] A specific example of a low-temperature pressing device for processing burdock beverages can be found in application number CN202322715921.3, which includes a pressing cylinder with open ends. The side walls of the pressing cylinder are evenly distributed with through holes. The top of the pressing cylinder has a first rim. The pressing cylinder is mounted on a tray, the bottom of which has evenly distributed through holes. A pair of fixing frames for the pressing cylinder are fixed on the tray. The fixing frames have a bending structure that limits the first rim. The portion of the fixing frame extending above the first rim forms a through hole for limiting the force application frame. The top of the tray has a second rim for overlapping with the top of a collection bucket. Inside the pressing cylinder is a pressure plate for squeezing a filter bag containing the material. A screw is screwed onto the force application frame for squeezing the pressure plate, and the top of the screw has a force application rod. The pressing machine provided by this invention can efficiently press materials and facilitates the collection of the pressed juice. Its structural design is simple, ingenious, and easy to operate.

[0004] The aforementioned device does not include a crushing mechanism. When processing and pressing larger objects, the liquid inside cannot be fully squeezed out due to their large size, resulting in incomplete pressing. Therefore, a low-temperature pressing device for processing burdock beverages is proposed to address this problem. Utility Model Content

[0005] To overcome the shortcomings of existing technology, existing devices do not have a crushing device. When processing and pressing larger objects, due to their large size, the liquid inside cannot be fully squeezed out, resulting in incomplete pressing. This utility model proposes a low-temperature pressing device for processing burdock beverages.

[0006] The technical solution adopted by this utility model to solve its technical problem is: a low-temperature pressing device for burdock beverage processing, comprising a low-temperature pressing chamber; the left side of the low-temperature pressing chamber is fixedly connected to the feeding chamber, and the left and right sides of the front and rear ends of the low-temperature pressing chamber are also fixedly connected to support legs, and a crushing and compression mechanism is provided between the low-temperature pressing chamber and the feeding chamber.

[0007] The crushing and compression mechanism includes a motor, which is located at the rear end of the right side of the feed hopper and is fixedly connected to the feed hopper. The left end of the motor passes through the right end of the feed hopper to reach the inside of the feed hopper, and is fixedly connected to the right end of the first crushing roller. The left end of the first crushing roller passes through the left end of the feed hopper to reach the outside of the feed hopper, and is rotatably connected to the feed hopper. A first gear is fixedly connected to the left end of the first crushing roller, and the first gear meshes with a second gear.

[0008] Preferably, the right end of the second gear is fixedly connected to the left end of the second crushing roller, the left end of the second crushing roller is rotatably connected to a feed bin, the right end of the second crushing roller is fixedly connected to the left end of the first transmission rod, the first transmission rod is rotatably connected to a feed bin, a first sleeve block is sleeved on the outer side of the right end of the first transmission rod, and the first transmission rod is rotatably connected to the first sleeve block.

[0009] Preferably, the front and rear ends of the outer side of the first set of blocks are also provided with first support frames, and the side end of the first set of blocks is fixedly connected to the side end of the first support frame, and the left side end of the first support frame is fixedly connected to the feed hopper.

[0010] Preferably, the left end of the first gear is fixedly connected to the right end of the first pulley, one end of the transmission belt is sleeved on the outside of the first pulley, and the first pulley is driven by the transmission belt. The other end of the transmission belt is sleeved on the outside of the second pulley, and the transmission belt is driven by the second pulley.

[0011] Preferably, the right end of the second pulley is fixedly connected to the left end of the pressing conveyor rod, the left end of the pressing conveyor rod is rotatably connected to the feed bin, the interior of the low-temperature pressing bin is fixedly connected to the filter bin, the filter bin is sleeved on the outside of the pressing conveyor rod and is rotatably connected to the pressing conveyor rod, and the bottom end of the low-temperature pressing bin is fixedly connected to the top end of the liquid outlet pipe.

[0012] Preferably, the right end of the pressing conveyor rod is fixedly connected to the left end of the second transmission rod, a second sleeve block is sleeved on the outside of the second transmission rod, and the second transmission rod is rotatably connected to the second sleeve block. The right end of the second sleeve block is fixedly connected to the second support frame, and the left end of the second support frame is fixedly connected to the low-temperature pressing chamber.

[0013] The advantages of this utility model are:

[0014] 1. This utility model, through the structural design of the crushing and compression mechanism, realizes the function of cutting and crushing materials before pressing, solving the problem that existing devices do not have a crushing device. When processing and pressing larger objects, due to their large size, the internal liquid cannot be fully squeezed out, resulting in incomplete pressing. This improves the pressing effect.

[0015] 2. This utility model achieves the function of automatically discharging waste material through the structural design of the crushing and compression mechanism. It solves the problem that existing devices do not have components for automatic discharge. When waste material needs to be discharged after the pressing operation, the existing devices cannot complete the automatic discharge work, which reduces the working efficiency during use. This invention improves the working efficiency. Attached Figure Description

[0016] To more clearly illustrate the technical solutions in the embodiments of this utility model 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 this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0017] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0018] Figure 2 This is a partial cross-sectional structural diagram of the present invention;

[0019] Figure 3 This is a schematic diagram of the second partial cross-sectional structure of the present invention;

[0020] Figure 4 For the present utility model Figure 2 Enlarged structural diagram at point A in the middle;

[0021] Figure 5 For the present utility model Figure 3 Enlarged structural diagram at point B;

[0022] Figure 6 For the present utility model Figure 3 Enlarged structural diagram at point C.

[0023] In the diagram: 1. Low-temperature pressing chamber; 2. Feed chamber; 3. Support leg; 10. Motor; 11. First crushing roller; 12. First gear; 13. Second gear; 14. Second crushing roller; 15. First transmission rod; 16. First sleeve block; 17. First support frame; 18. First pulley; 19. Transmission belt; 20. Second pulley; 21. Pressing conveyor rod; 22. Filter chamber; 23. Second transmission rod; 24. Second sleeve block; 25. Second support frame; 26. Liquid outlet pipe. Detailed Implementation

[0024] 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 scope of protection of the present utility model.

[0025] Please see Figures 1-6 As shown, a low-temperature pressing device for processing burdock beverages includes a low-temperature pressing chamber 1; the left side of the low-temperature pressing chamber 1 is fixedly connected to the feeding chamber 2, and the left and right sides of the front and rear ends of the low-temperature pressing chamber 1 are also fixedly connected to support legs 3, and a crushing and compression mechanism is provided between the low-temperature pressing chamber 1 and the feeding chamber 2.

[0026] The crushing and compression mechanism includes a motor 10, which is located on the right side of the feed bin 2 near the rear. The motor 10 is fixedly connected to the feed bin 2. The left end of the motor 10 passes through the right end of the feed bin 2 to reach the inside of the feed bin 2. The left end of the motor 10 is fixedly connected to the right end of the first crushing roller 11. The left end of the first crushing roller 11 passes through the left end of the feed bin 2 to reach the outside of the feed bin 2. The first crushing roller 11 is rotatably connected to the feed bin 2. The feed bin 2 is sleeved on the outside of the first crushing roller 11 and has a circular design inside. The left end of the first crushing roller 11 is fixedly connected to a first gear 12, which meshes with a second gear 13.

[0027] During operation, burdock is poured into the top of the feed hopper 2, and the motor 10 is started, driving the first crushing roller 11 to rotate. When the first crushing roller 11 rotates, the left end of the first crushing roller 11 will rotate along the inner wall of the low temperature pressing chamber 1. At the same time, the first crushing roller 11 drives the first gear 12 to rotate. When the first gear 12 rotates, it drives the second gear 13 to rotate. When the first crushing roller 11 and the second crushing roller 14 rotate at the same time, the burdock will be cut, and the cut burdock will fall into the bottom of the feed hopper 2.

[0028] Furthermore, the right end of the second gear 13 is fixedly connected to the left end of the second crushing roller 14, and the left end of the second crushing roller 14 is rotatably connected to the feed bin 2. The feed bin 2 is sleeved on the outside of the second crushing roller 14 and has a circular design inside. The right end of the second crushing roller 14 is fixedly connected to the left end of the first transmission rod 15, and the feed bin 2 is rotatably connected to the first transmission rod 15. The right end of the first transmission rod 15 is sleeved on the outside of the first transmission rod 15, and the first transmission rod 15 is rotatably connected to the first sleeve 16. The inner wall of the first sleeve 16 is circular.

[0029] During operation, the first gear 12 rotates, driving the second gear 13 and the second crushing roller 14 to rotate simultaneously. When the second crushing roller 14 rotates, it drives the first transmission rod 15 to rotate, and the right end of the first transmission rod 15 rotates along the inside of the first sleeve block 16.

[0030] Furthermore, the front and rear ends of the outer side of the first set of blocks 16 are also provided with first support frames 17, and the side ends of the first set of blocks 16 are fixedly connected to the side ends of the first support frames 17, and the left side end of the first support frame 17 is fixedly connected to the feed bin 2.

[0031] During operation, the first support frame 17 is used to fix the position of the first block 16.

[0032] Furthermore, the left end of the first gear 12 is fixedly connected to the right end of the first pulley 18, one end of the transmission belt 19 is sleeved on the outside of the first pulley 18, and the first pulley 18 is connected to the transmission belt 19 in a driving manner. The other end of the transmission belt 19 is sleeved on the outside of the second pulley 20, and the transmission belt 19 is connected to the second pulley 20 in a driving manner.

[0033] During operation, the first gear 12 rotates, driving the first pulley 18 to rotate, and the first pulley 18 drives the transmission belt 19 and the second pulley 20 to rotate synchronously.

[0034] Furthermore, the right end of the second pulley 20 is fixedly connected to the left end of the pressing conveyor rod 21. The left end of the pressing conveyor rod 21 is rotatably connected to the feed bin 2. The feed bin 2 is sleeved on the outside of the left end of the pressing conveyor rod 21 and has a circular design inside. The interior of the low-temperature pressing bin 1 is fixedly connected to the filter bin 22. The filter bin 22 is sleeved on the outside of the pressing conveyor rod 21 and is rotatably connected to the pressing conveyor rod 21. The bottom end of the low-temperature pressing bin 1 is fixedly connected to the top end of the liquid outlet pipe 26. The liquid outlet pipe 26 has a circular design.

[0035] During operation, the second pulley 20 rotates, driving the pressing conveyor rod 21 to rotate. When the pressing conveyor rod 21 rotates, it will drive the burdock into the low-temperature pressing chamber 1. During the conveying process, the pressing conveyor rod 21 will press the burdock. The pressed liquid will be filtered through the filter chamber 22 and flow to the bottom of the low-temperature pressing chamber 1, and then discharged through the liquid outlet pipe 26.

[0036] Furthermore, the right end of the pressing conveyor rod 21 is fixedly connected to the left end of the second transmission rod 23, the second transmission rod 23 is sleeved with a second sleeve block 24, and the second transmission rod 23 is rotatably connected to the second sleeve block 24. The right end of the second sleeve block 24 is fixedly connected to the second support frame 25. The inner wall of the second sleeve block 24 is circular. The left end of the second support frame 25 is fixedly connected to the low temperature pressing chamber 1.

[0037] During operation, the pressing conveyor rod 21 rotates, driving the second transmission rod 23 to rotate. When the second transmission rod 23 rotates, it will rotate along the inside of the second set of blocks 24. The second support frame 25 is used to fix the position of the second set of blocks 24. As the pressing conveyor rod 21 rotates, it pushes the burdock residue after pressing to be conveyed to the low temperature pressing chamber 1 until it is discharged.

[0038] Working principle: When pressing is required, the burdock is first poured into the top of the feed hopper 2, then the motor 10 is started, driving the first crushing roller 11 to rotate. When the first crushing roller 11 rotates, its left end will rotate along the inner wall of the low-temperature pressing chamber 1. At the same time, the first crushing roller 11 drives the first gear 12 to rotate. When the first gear 12 rotates, it drives the second gear 13 and the second crushing roller 14 to rotate simultaneously. When the second crushing roller 14 rotates, it drives the first transmission rod 15 to rotate, and its right end rotates along the inside of the first sleeve block 16. The first support frame 17 is used to fix the position of the first sleeve block 16. When the first crushing roller 11 and the second crushing roller 14 rotate simultaneously, the burdock will be cut, and the cut burdock will fall into the bottom of the feed hopper 2. When the first gear 12 rotates, it drives the first gear 13 to rotate along the inner wall of the low-temperature pressing chamber 1. The first pulley 18 rotates, and the first pulley 18 drives the transmission belt 19 and the second pulley 20 to rotate synchronously. When the second pulley 20 rotates, it drives the pressing conveyor rod 21 to rotate. When the pressing conveyor rod 21 rotates, it will drive the burdock into the low-temperature pressing chamber 1. During the conveying process, the pressing conveyor rod 21 will convey and press the burdock. The pressed liquid will be filtered through the filter chamber 22 and flow to the bottom of the low-temperature pressing chamber 1, and then discharged through the liquid outlet pipe 26. When the pressing conveyor rod 21 rotates, it drives the second transmission rod 23 to rotate. When the second transmission rod 23 rotates, it will rotate along the inside of the second sleeve block 24. The second support frame 25 is used to fix the position of the second sleeve block 24. As the pressing conveyor rod 21 rotates, it pushes the burdock residue after pressing to be conveyed into the low-temperature pressing chamber 1 until it is discharged.

[0039] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.

Claims

1. A low-temperature pressing device for processing burdock beverages, comprising a low-temperature pressing chamber (1); characterized in that: The low-temperature pressing chamber (1) is fixedly connected to the left side of the feed chamber (2). Support legs (3) are fixedly connected to both the left and right sides of the front and rear ends of the low-temperature pressing chamber (1). A crushing and compression mechanism is provided between the low-temperature pressing chamber (1) and the feed chamber (2). The crushing and compression mechanism includes a motor (10). The motor (10) is located at the rear position of the right side of the feed chamber (2). The motor (10) is fixedly connected to the feed chamber (2). A first crushing roller (11) is fixedly connected to the left side of the motor (10). The left side of the first crushing roller (11) is rotatably connected to the feed chamber (2). A first gear (12) is fixedly connected to the left side of the first crushing roller (11). A second gear (13) is meshed with the first gear (12).

2. The low-temperature pressing device for processing burdock beverages according to claim 1, characterized in that: The second crushing roller (14) is fixedly connected to the right end of the second gear (13). The left end of the second crushing roller (14) is rotatably connected to the feed bin (2). The right end of the second crushing roller (14) is fixedly connected to the first transmission rod (15). The first transmission rod (15) is rotatably connected to the feed bin (2). The outer side of the right end of the first transmission rod (15) is provided with a first sleeve block (16). The first transmission rod (15) is rotatably connected to the first sleeve block (16).

3. The low-temperature pressing device for processing burdock beverages according to claim 2, characterized in that: The first support frame (17) is provided at both the front and rear ends of the outer side of the first sleeve block (16). The first sleeve block (16) is fixedly connected to the first support frame (17), and the left end of the first support frame (17) is fixedly connected to the feed bin (2).

4. The low-temperature pressing device for processing burdock beverages according to claim 3, characterized in that: The first gear (12) is fixedly connected to the left end of the first pulley (18), and a transmission belt (19) is provided on the outside of the first pulley (18). The first pulley (18) is connected to the transmission belt (19) in a transmission connection, and the transmission belt (19) is connected to the second pulley (20).

5. The low-temperature pressing device for processing burdock beverages according to claim 4, characterized in that: The right end of the second pulley (20) is fixedly connected to a pressing conveyor rod (21), the left end of the pressing conveyor rod (21) is rotatably connected to the feed bin (2), the inside of the low temperature pressing bin (1) is fixedly connected to a filter bin (22), the filter bin (22) is located on the outside of the pressing conveyor rod (21), the filter bin (22) is rotatably connected to the pressing conveyor rod (21), and the bottom end of the low temperature pressing bin (1) is fixedly connected to a liquid outlet pipe (26).

6. The low-temperature pressing apparatus for processing burdock beverages according to claim 5, characterized in that: The right end of the pressing conveyor rod (21) is fixedly connected to a second transmission rod (23), and a second sleeve block (24) is provided on the outside of the second transmission rod (23). The second transmission rod (23) and the second sleeve block (24) are rotatably connected. The right end of the second sleeve block (24) is fixedly connected to a second support frame (25), and the left end of the second support frame (25) is fixedly connected to the low temperature pressing chamber (1).