A lifting and stirring material pouring device

By installing a tilting mechanism and a stirring mechanism on the lifting frame, the problems of poor fluidity and residue caused by syrup solidification are solved, achieving the effect of rapid tilting and less residue.

CN224462678UActive Publication Date: 2026-07-07SHANGHAI TARGET IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI TARGET IND CO LTD
Filing Date
2025-06-25
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In existing mixing and pouring equipment, syrup tends to solidify and become less fluid during the upward movement and pouring of the hopper, resulting in long pouring times and a large amount of residue remaining in the hopper, making it inconvenient to use.

Method used

Design a lifting, stirring and pouring device, including a lifting frame, a lifting mechanism, a tilting mechanism, a material tank, a limiting plate and a stirring mechanism. The tilting mechanism drives the material tank to move and rotate by reciprocating sliding in the vertical direction, and the stirring mechanism is set on the limiting plate to stir the syrup in the material tank to ensure good syrup fluidity.

Benefits of technology

It enables rapid syrup pouring, reduces residue in the container, and improves pouring speed and efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to a lifting stirring and pouring device, and relates to the field of candy production equipment, which comprises a lifting frame, a lifting mechanism, a pouring mechanism, a material tank, a limiting plate and a stirring mechanism, the lifting frame is vertically arranged, the pouring mechanism is slidably connected to the lifting frame, the lifting mechanism is installed on the lifting frame, the lifting mechanism is used for driving the pouring mechanism to vertically reciprocate, the material tank is detachably connected to the pouring mechanism, the limiting plate is arranged on the pouring mechanism, the stirring mechanism is installed on the limiting plate, and the stirring mechanism is used for stirring the material in the material tank. The application has the effect of reducing syrup residues in the material tank.
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Description

Technical Field

[0001] This application relates to the field of confectionery production equipment, and in particular to a lifting, stirring and pouring device. Background Technology

[0002] In the confectionery industry, syrup needs to be transferred from the mixing tank to the silo, and then supplied from the silo to the molding equipment to cast the candy into shape.

[0003] The existing mixing and pouring equipment includes a lifting frame, a lifting mechanism, and a tilting mechanism. The tilting mechanism includes a slide plate, a rotating shaft, and a mounting frame. The slide plate is slidably connected to the lifting frame. The lifting mechanism is used to drive the slide plate to slide vertically back and forth. The rotating shaft is set horizontally and rotatably connected to the slide plate. The mounting frame is fixed to the rotating shaft. The material tank is fixed to the mounting frame. When the slide plate moves vertically upward, the motor drives the rotating shaft to rotate, so that the syrup in the material tank can be poured into the silo, completing the material transfer.

[0004] The aforementioned technical solutions have the following drawbacks: during the upward movement and tilting of the syrup tank, the syrup inside the tank is prone to solidification and has poor fluidity; the syrup takes a long time to pour; and there is a lot of syrup residue in the tank, making it inconvenient to use. Utility Model Content

[0005] To reduce syrup residue in the tank, this application provides a lifting and stirring discharge device.

[0006] The lifting, mixing, and discharging device provided in this application adopts the following technical solution:

[0007] A lifting, mixing, and discharging device includes a lifting frame, a lifting mechanism, a tilting mechanism, a material tank, a limiting plate, and a mixing mechanism. The lifting frame is vertically arranged, the tilting mechanism is slidably connected to the lifting frame, the lifting mechanism is installed on the lifting frame, and the lifting mechanism is used to drive the tilting mechanism to move vertically reciprocally. The material tank is detachably connected to the tilting mechanism, the limiting plate is set on the tilting mechanism, and the mixing mechanism is installed on the limiting plate. The mixing mechanism is used to mix the material in the material tank.

[0008] By adopting the above technical solution, a tilting mechanism is set on the lifting frame, which can slide back and forth in the vertical direction through the lifting mechanism. The material tank can be detachably connected to the tilting mechanism, which can drive the material tank to move and rotate vertically, thereby lifting the material tank and pouring the syrup at a high position. By setting a stirring mechanism on the limit plate, the stirring mechanism can stir the syrup in the material tank, thereby making the syrup more fluid in the material tank. When pouring the syrup, the syrup can be poured out quickly, and there is less syrup left in the material tank after pouring.

[0009] Optionally, the lifting mechanism includes two sprockets, a chain, and a motor. The two sprockets are rotatably connected to the upper and lower sides of the lifting frame, respectively. The chain is sleeved on the two sprockets and meshes with the sprockets. The motor is located at the top of the lifting frame and drives the sprockets to rotate.

[0010] By adopting the above technical solution, a sprocket is installed on the lifting frame, so that the chain meshes with the sprocket. When the motor drives the sprocket to rotate, the chain can move. By fixing the tilting mechanism to the chain, the user can make the tilting mechanism move vertically back and forth.

[0011] Optionally, the tilting mechanism includes a sliding plate, a rotating shaft, two mounting brackets, and a linkage rod. The sliding plate is slidably connected to the lifting frame, the rotating shaft is horizontally set and rotatably connected to the sliding plate, the two mounting brackets are fixed to the rotating shaft, the material tank is detachably connected to the mounting brackets, the linkage rod is fixed to the rotating shaft, and a guide rod is fixed on the lifting frame. The guide rod is used to abut against the end of the linkage rod.

[0012] By adopting the above technical solution, the sliding plate is connected to the chain by rotating the connecting shaft on the sliding plate, so that the lifting mechanism can drive the sliding plate to move vertically back and forth. By setting the mounting bracket on the shaft, the material tank can be installed on the mounting bracket. When the sliding plate rises vertically, the linkage rod moves up and contacts the guide rod. The guide rod can lock the linkage rod, so that the linkage rod and the shaft rotate, so that the material tank can automatically tilt and pour out the syrup when it is lifted.

[0013] Optionally, a pulley is rotatably connected to the end of the linkage rod, and a tilting groove is provided on the guide rod, with the pulley used to be locked in the tilting groove.

[0014] By adopting the above technical solution, the pulley is rotated on the linkage rod and locked in the tilting groove of the guide rod, thereby reducing the wear of the guide rod and the linkage rod.

[0015] Optionally, the mounting bracket has a horizontal slot, and sliders are fixed on both sides of the material tank for insertion into the slot.

[0016] By adopting the above technical solution, slots are opened on the mounting frame, allowing the material tank to slide horizontally in the slots via a slider, thereby enabling the material tank to be detachably connected to the mounting frame.

[0017] Optionally, the limiting plate is provided with a limiting rod, which is slidably connected to the mounting frame. The limiting plate is provided with a cylinder, one end of which is fixed to the limiting plate and the other end of which is fixed to the mounting frame. The length direction of the cylinder is parallel to the limiting rod.

[0018] By adopting the above technical solution, by setting a limiting rod on the limiting plate, the limiting plate is slidably connected to the mounting frame. By setting a cylinder, the user can control the extension and retraction of the cylinder to raise or lower the limiting plate, thereby allowing the limiting plate to cover the material tank and the mixing mechanism to be inserted into the material tank.

[0019] Optionally, a locking block is fixed on the limiting plate, which is used to engage with the outer wall of the material tank.

[0020] By adopting the above technical solution, and by setting a locking block on the limiting plate, when the cylinder drives the limiting plate to fall, the locking block can lock at the opening of the material tank, thereby locking the material tank on the mounting frame and reducing the chance of the material tank sliding when pouring syrup.

[0021] Optionally, the stirring mechanism includes a driving component, a stirring shaft, a rocker arm, and a scraper. The stirring shaft is rotatably connected to a limiting plate. The driving component is used to drive the stirring shaft to rotate. One end of the rocker arm is fixed to the stirring shaft, and the other end is connected to the scraper.

[0022] By adopting the above technical solution, the stirring shaft is rotated and connected to the limiting plate, so that the driving component can drive the scraper to rotate through the stirring shaft. The scraper abuts against the inner wall of the material tank, so that the syrup in the material tank can be completely poured out with little residue.

[0023] In summary, the beneficial technical effects of this application are as follows:

[0024] 1. By setting a tilting mechanism on the lifting frame, the tilting mechanism can slide back and forth in the vertical direction through the lifting mechanism. The material tank can be detachably connected to the tilting mechanism. The tilting mechanism can drive the material tank to move and rotate vertically, so that the material tank can be lifted and the syrup can be poured at a high position. By setting a stirring mechanism on the limit plate, the stirring mechanism can stir the syrup in the material tank, so that the syrup has better fluidity in the material tank. When the syrup is poured, it can be poured out quickly, and there is less syrup left in the material tank after pouring.

[0025] 2. By rotating the connecting shaft on the slide, the slide is connected to the chain, thereby enabling the lifting mechanism to drive the slide to move vertically back and forth. By setting a mounting bracket on the shaft, the material tank can be installed on the mounting bracket. When the slide rises vertically, the linkage rod moves up and contacts the guide rod. The guide rod can lock the linkage rod, causing the linkage rod and the shaft to rotate, so that the material tank can automatically tilt and pour out the syrup when lifted.

[0026] 3. By setting a limiting rod on the limiting plate, the limiting plate is slidably connected to the mounting frame. By setting a cylinder, the user can control the extension and retraction of the cylinder to raise or lower the limiting plate, so that the limiting plate can cover the material tank and the mixing mechanism can be inserted into the material tank. Attached Figure Description

[0027] Figure 1 This is a schematic diagram of the overall structure of an embodiment of this application. Figure 1 .

[0028] Figure 2 This is a schematic diagram of the overall structure of an embodiment of this application. Figure 2 .

[0029] Figure 3 This is a schematic diagram of the lifting mechanism according to an embodiment of this application.

[0030] Figure 4 This is a schematic diagram of the structure of the connecting plate according to an embodiment of this application.

[0031] Figure 5 This is a schematic diagram of the sprocket structure according to an embodiment of this application.

[0032] Figure 6 This is a schematic diagram of the connection structure between the material tank and the tilting mechanism in an embodiment of this application.

[0033] Figure 7 This is a schematic diagram of the guide rod in an embodiment of this application.

[0034] Figure 8 This is a schematic diagram of the stirring mechanism according to an embodiment of this application.

[0035] Figure 9 This is a schematic diagram of the structure of the limiting plate according to an embodiment of this application.

[0036] Reference numerals: 1. Lifting frame; 11. Lifting trough; 12. Guide rod; 121. Tilting trough; 2. Lifting mechanism; 21. Sprocket; 22. Chain; 221. Connecting plate; 23. Motor; 3. Tilting mechanism; 31. Slide plate; 32. Rotating shaft; 33. Mounting bracket; 331. Slot; 34. Linkage rod; 341. Pulley; 4. Material tank; 41. Slider; 42. Handle; 5. Limiting plate; 51. Limiting rod; 52. Cylinder; 53. Locking block; 6. Stirring mechanism; 61. Driving component; 62. Stirring shaft; 63. Rocker arm; 631. Slot; 64. Scraper. Detailed Implementation

[0037] The present application will be further described in detail below with reference to the accompanying drawings.

[0038] This application discloses a lifting, stirring, and discharging device, referring to... Figure 1 , Figure 2 and Figure 3The system includes a lifting frame 1, a lifting mechanism 2, a tilting mechanism 3, a material tank 4, a limiting plate 5, and a stirring mechanism 6. The lifting frame 1 is vertically fixed to the ground. The lifting mechanism 2 is installed in the lifting frame 1. The tilting mechanism 3 is slidably connected to the lifting frame 1. The lifting mechanism 2 is used to drive the tilting mechanism 3 to move vertically. The material tank 4 is detachably connected to the tilting mechanism 3. The tilting mechanism 3 is used to drive the material tank 4 to be vertically lifted and to pour the syrup inside the material tank 4. The limiting plate 5 is installed on the tilting mechanism 3. The limiting plate 5 is used to cover the opening of the material tank 4 and fix the material tank 4, so that the material tank 4 is stably connected to the tilting mechanism 3 when tilting. The stirring mechanism 6 is installed on the limiting plate 5. The stirring mechanism 6 is used to stir the syrup inside the material tank 4. When the material tank 4 is lifted, it can reduce the probability of the syrup inside the material tank 4 solidifying. When the syrup is poured, it can reduce the amount of syrup residue in the material tank 4 and increase the speed of pouring out the syrup.

[0039] Reference Figure 3 and Figure 5 The lifting mechanism 2 includes two sprockets 21, a chain 22, and a motor 23. The two sprockets 21 are rotatably connected to the upper top and lower bottom of the lifting frame 1, respectively. The chain 22 is hung on the two sprockets 21 and meshes with them. The housing of the motor 23 is fixed to the top of the lifting frame 1. The output shaft of the motor 23 is coaxially connected to the sprockets 21. The motor 23 drives the chain 22 through the sprockets 21, thereby enabling the tilting mechanism 3 to move vertically back and forth via the chain 22.

[0040] Reference Figure 3 and Figure 4 The tilting mechanism 3 includes a slide plate 31, a rotating shaft 32, a mounting frame 33, and a linkage rod 34. The slide plate 31 is slidably connected to the lifting frame 1 via a guide rail. The rotating shaft 32 is horizontally positioned and rotatably connected to the slide plate 31. A lifting groove 11 is provided on the side wall of the lifting frame 1, and the rotating shaft 32 extends out from the lifting groove 11. A connecting plate 221 is fixed to the chain 22, and the connecting plate 221 is fixed to the slide plate 31 by bolts, so that the chain 22 can drive the slide plate 31 to move vertically back and forth when it moves. There are two mounting frames 33, both of which are fixed to the rotating shaft 32. The syrup tank 4 is detachably connected between the two mounting frames 33. When the rotating shaft 32 rotates, the mounting frames 33 drive the syrup tank 4 to rotate and pour out the syrup. One end of the linkage rod 34 is fixed on the rotating shaft 32. The lifting frame 1 is fixed with a guide rod 12. When the tilting mechanism 3 moves vertically, the linkage rod 34 can cooperate with the guide rod 12, so that during the lifting process of the tilting mechanism 3, the linkage rod 34 drives the rotating shaft 32 to rotate, thereby enabling the material tank 4 to automatically rotate at a high position and pour out the syrup.

[0041] Reference Figure 6 and Figure 7The guide rod 12 has a tilting groove 121, one end of which is inclined downwards, and the other side is horizontal. A pulley 341 is rotatably connected to the end of the linkage rod 34 away from the rotating shaft 32. The pulley 341 is used to enter the tilting groove 121. When the tilting mechanism 3 rises, the end of the linkage rod 34 rises and inserts into the lower side of the tilting groove 121 of the guide rod 12. As the tilting mechanism 3 continues to rise, the linkage rod 34 rises and gets stuck in the tilting groove 121. At this time, the end of the linkage rod 34 is stuck in the guide rod 12. When the tilting mechanism 3 rises, the linkage rod 34 rotates, thereby turning the rotating shaft 32, allowing the syrup to be poured out of the jar 4.

[0042] Reference Figure 6 The material tank 4 has a circular barrel structure. Slider blocks 41 are fixed to both sides of the material tank 4. Slots 331 are provided on the mounting brackets 33. The slots 331 are horizontally positioned, allowing the material tank 4 to slide horizontally between the two mounting brackets 33, thus allowing the sliders 41 to slide into the slots 331 and mount the material tank 4 onto the tilting mechanism 3. Handles 42 are provided on both sides of the material tank 4 for easy pulling and pulling by the user.

[0043] Reference Figure 8 and Figure 9 A limiting plate 5 is installed on the upper side of the material tank 4, and the two sides of the limiting plate 5 are slidably connected to two mounting brackets 33 respectively. A limiting rod 51 is fixed on the limiting plate 5, and the limiting rod 51 is slidably connected to the mounting bracket 33. A cylinder 52 is provided between the limiting plate 5 and the mounting bracket 33. One end of the cylinder 52 is connected to the limiting plate 5, and the other end is connected to the mounting bracket 33. The length direction of the cylinder 52 is parallel to the limiting rod 51. By extending and retracting, the cylinder 52 allows the limiting plate 5 to slide and cover the top of the material tank 4. A locking block 53 is installed on the limiting plate 5. The locking block 53 is used to lock at the outer wall of the opening of the material tank 4, so that the material tank 4 is stably locked in the tilting mechanism 3.

[0044] Reference Figure 8 and Figure 9 The stirring mechanism 6 includes a drive component 61, a stirring shaft 62, a rocker arm 63, and a scraper 64. The drive component 61 is a motor. The stirring shaft 62 passes through and is rotatably connected to the limiting plate 5. The housing of the drive component 61 is fixed to the limiting plate 5. The output shaft of the drive component 61 is coaxially connected to the stirring shaft 62. The rocker arm 63 is fixed to the stirring shaft 62. The rocker arm 63 and the drive component 61 are located on opposite sides of the limiting plate 5. The scraper 64 is detachably connected to the end of the rocker arm 63. The scraper 64 is used to scrape off the syrup on the inner wall of the container 4. A groove 631 is provided at the end of the rocker arm 63, and the end of the scraper 64 is engaged in the groove 631. The drive component 61 drives the scraper 64 to rotate through the stirring shaft 62, thereby maintaining better fluidity of the syrup in the container 4 and minimizing syrup residue after pouring out the container 4.

[0045] The implementation principle of this application embodiment is as follows: by setting a lifting mechanism 2 on the lifting frame 1, when the lifting mechanism 2 drives the tilting mechanism 3 to move, the material tank 4 can be vertically lifted and rotated, so that the syrup in the material tank 4 can be poured out to other containers for processing. When the material tank 4 moves, the stirring mechanism 6 can continuously stir the syrup in the material tank 4, thereby reducing the probability of syrup solidification and making the syrup in the material tank 4 less residual after being poured out.

[0046] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.

Claims

1. A lifting, stirring, and discharging device, characterized in that: It includes a lifting frame (1), a lifting mechanism (2), a tilting mechanism (3), a material tank (4), a limiting plate (5), and a stirring mechanism (6). The lifting frame (1) is vertically set, the tilting mechanism (3) is slidably connected to the lifting frame (1), the lifting mechanism (2) is installed on the lifting frame (1), and the lifting mechanism (2) is used to drive the tilting mechanism (3) to move vertically back and forth. The material tank (4) is detachably connected to the tilting mechanism (3), the limiting plate (5) is set on the tilting mechanism (3), and the stirring mechanism (6) is installed on the limiting plate (5). The stirring mechanism (6) is used to stir the material in the material tank (4).

2. The lifting, stirring, and discharging device according to claim 1, characterized in that: The lifting mechanism (2) includes two sprockets (21), a chain (22) and a motor (23). The two sprockets (21) are rotatably connected to the upper and lower sides of the lifting frame (1) respectively. The chain (22) is sleeved on the two sprockets (21) and meshes with the sprockets (21). The motor (23) is located on the top of the lifting frame (1) and drives the sprockets (21) to rotate.

3. The lifting, stirring, and discharging device according to claim 2, characterized in that: The tilting mechanism (3) includes a sliding plate (31), a rotating shaft (32), two mounting brackets (33) and a linkage rod (34). The sliding plate (31) is slidably connected to the lifting frame (1). The rotating shaft (32) is horizontally set and rotatably connected to the sliding plate (31). The two mounting brackets (33) are fixed on the rotating shaft (32). The material tank (4) is detachably connected to the mounting bracket (33). The linkage rod (34) is fixed on the rotating shaft (32). A guide rod (12) is fixed on the lifting frame (1). The guide rod (12) is used to abut against the end of the linkage rod (34).

4. The lifting, stirring, and discharging device according to claim 3, characterized in that: The end of the linkage rod (34) is rotatably connected to a pulley (341), and a tilting groove (121) is provided on the guide rod (12). The pulley (341) is used to be locked in the tilting groove (121).

5. The lifting, stirring, and discharging device according to claim 3, characterized in that: The mounting bracket (33) has a slot (331) horizontally opened on it, and the material tank (4) has sliders (41) fixed on both sides. The sliders (41) are used to insert into the slot (331).

6. The lifting, stirring, and discharging device according to claim 5, characterized in that: The limiting plate (5) is provided with a limiting rod (51), which is slidably connected to the mounting frame (33). The limiting plate (5) is provided with a cylinder (52), one end of which is fixed to the limiting plate (5) and the other end is fixed to the mounting frame (33). The length direction of the cylinder (52) is parallel to the limiting rod (51).

7. The lifting, stirring, and discharging device according to claim 6, characterized in that: The limiting plate (5) is fixed with a locking block (53), which is used to lock onto the outer wall of the material tank (4).

8. The lifting, stirring, and discharging device according to claim 1, characterized in that: The stirring mechanism (6) includes a driving component (61), a stirring shaft (62), a rocker arm (63), and a scraper (64). The stirring shaft (62) is rotatably connected to the limiting plate (5). The driving component (61) is used to drive the stirring shaft (62) to rotate. One end of the rocker arm (63) is fixed on the stirring shaft (62), and the other end is connected to the scraper (64).