Automatic cookie baker

By introducing an auxiliary mechanism into the automatic rice cake sorting machine, and using an electric push rod and an elastic telescopic mechanism to fix the distributor, the problem of uneven distribution of rice cakes was solved, achieving uniform distribution and rapid installation of rice cakes, reducing the breakage rate, and improving production efficiency.

CN224477139UActive Publication Date: 2026-07-10ANYANG LEE-WANT FOODS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANYANG LEE-WANT FOODS CO LTD
Filing Date
2025-07-31
Publication Date
2026-07-10

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    Figure CN224477139U_ABST
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Abstract

The utility model discloses a kind of automatic cake machine of snow cake, it is related to automatic cake machine technical field, including conveyer, sliding plate and auxiliary mechanism, the conveyer output end below is provided with sliding plate, and the bottom end outside of sliding plate is welded with rack. When the automatic cake machine of snow cake is used, the fixing of round convex type flow divider is carried out through auxiliary mechanism, prevent it from moving at will, and then without repeatedly rotating multiple groups of bolts or using the mode of welding, round convex type flow divider can be fixed in the top of sliding plate, save time while also facilitate subsequent disassembly;After that, the snow cake that slides is shunted through round convex type flow divider, prevent its accumulation to cause cake machine to arrange whole column vibration disc local cake amount too concentrated, and then reduce the probability of broken cake in the process of automatic cake machine to arrange cake to arrange cake, because cake and cake are excessively extruded, collide, thereby when the automatic cake machine of snow cake is used, play the role of convenient quick installation and shunt anti-accumulation.
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Description

Technical Field

[0001] This utility model relates to the field of automatic cake sorting machine technology, specifically an automatic rice cake sorting machine. Background Technology

[0002] Snow crackers are a type of puffed food, typically made from carefully selected rice through baking and heating processes. Automatic snow cracker sorting machines are specialized automated machinery used for packaging snow crackers. They are primarily used to automatically sort and feed snow crackers and other food items into packaging machinery. This type of equipment is typically highly automated, reducing manual labor and lowering production costs.

[0003] When an automatic rice cracker sorting machine is needed to assist in the rice cracker packaging process, a sliding plate is set at the output end of the conveyor via a frame. When the rice crackers are discharged from the output end of the conveyor, they fall onto the top of the sliding plate and are then transported to the sorting and aligning vibratory plate. The vibratory plate then arranges the rice crackers neatly for subsequent packaging. However, during the use of the automatic rice cracker sorting machine, the lack of a material dispersion component makes it difficult for the rice crackers to be evenly distributed on the sliding plate, resulting in uneven material distribution. This leads to excessive concentration of rice crackers in certain areas of the subsequent sorting and aligning vibratory plate. When the automatic rice cracker sorting and aligning device rotates to separate the rice crackers, the excessive amount of rice crackers in certain areas can cause them to squeeze and collide with each other, resulting in a large number of broken and defective rice crackers, which affects the production of rice crackers. Utility Model Content

[0004] The purpose of this invention is to provide an automatic rice cake sorting machine to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: an automatic rice cake sorting machine, comprising a conveyor, a sliding plate, and an auxiliary mechanism. A sliding plate is provided below the output end of the conveyor, and a frame is welded to the outer side of the bottom end of the sliding plate. A sorting and aligning vibrating plate is connected to the output end of the sliding plate. The auxiliary mechanism includes a convex diverter, a limiting strip, an electric push rod, a guide seat, a transmission seat, a transmission rod, a guide rod, a fixed seat, a first limiting plate, a second limiting plate, a support seat, a first spring, and a second spring. A convex diverter is connected to the middle of the top of the sliding plate, and a limiting strip is welded to the outer side of the bottom end of the convex diverter. An electric push rod is installed in the middle of the frame, and a guide seat is connected to the output end of the electric push rod. Transmission seats are welded to both sides of the outer wall of the guide seat. A transmission rod is rotatably connected to the middle of the transmission seat, and a guide rod is connected to the top of the transmission rod via a rotating seat. A fixed seat is welded to the side of the guide rod away from the transmission rod.

[0006] Preferably, the fixing base is of a "U" - shaped structure, the limiting strips are distributed in a "square" - shaped pattern, and fixing holes are provided inside the limiting strips, into which the fixing base extends. Limiting holes are provided inside the sliding plate, into which the limiting strips extend.

[0007] Preferably, the guide rod is of a "T" - shaped structure, the transmission base is of an "L" - shaped structure, the guide seat is of a "T" - shaped structure, and the transmission rods are distributed in an inverted "V" shape.

[0008] Preferably, a first limiting plate is slidably connected to the middle of the outer wall of the fixing base, and the top of the outer wall of the first limiting plate is welded to the sliding plate. A second limiting plate is slidably connected to one side of the outer wall of the guide rod, and the top of the outer wall of the second limiting plate is welded to the sliding plate. Support seats are slidably connected to both sides inside the guide seat, and the top of the outer wall of the support seats is welded to the sliding plate.

[0009] Preferably, a first spring is sleeved on both sides of the bottom end of the support seat, and the support seat is of a "U" - shaped structure. A second spring is sleeved on the middle of the outer wall of the guide rod.

[0010] Preferably, the left and right sides of the second spring are respectively connected to the fixing base and the second limiting plate. An elastic telescopic mechanism is formed among the guide rod, the fixing base, the second limiting plate and the second spring. The upper and lower sides of the first spring are respectively connected to the support seat and the guide seat. An elastic telescopic mechanism is formed among the guide seat, the support seat and the first spring.

[0011] Compared with the prior art, the beneficial effects of the present utility model are as follows: When the snow cake automatic cake sorting machine is in use, the circular convex diverter is fixed by the auxiliary mechanism to prevent it from moving randomly. Thus, it is not necessary to repeatedly rotate multiple bolts or use welding to fix the circular convex diverter on the top of the sliding plate, which saves time and is also convenient for subsequent disassembly. Then, the circular convex diverter diverts the sliding snow cakes to prevent them from accumulating, which may cause the local cake quantity of the cake sorting and aligning vibrating plate to be too concentrated. Consequently, the probability of broken cakes caused by excessive extrusion and collision between cakes during the process of the automatic cake sorting and pusher rotating to push the cakes is reduced. Therefore, when the snow cake automatic cake sorting machine is in use, it plays a role in facilitating quick installation and diverting to prevent accumulation. BRIEF DESCRIPTION OF THE DRAWINGS

[0012] Figure 1 is a three - dimensional structure diagram of the present utility model;

[0013] Figure 2 is a three - dimensional structure diagram of the circular convex diverter of the present utility model;

[0014] Figure 3 is a three - dimensional structure diagram seen from below of the sliding plate of the present utility model;

[0015] Figure 4This is a schematic diagram of the three-dimensional cross-sectional structure of the skateboard of this utility model;

[0016] Figure 5 This is a three-dimensional structural diagram of the auxiliary mechanism of this utility model;

[0017] Figure 6 This is a three-dimensional structural diagram of the fixing base of this utility model.

[0018] In the diagram: 1. Conveyor; 2. Slide plate; 3. Frame; 4. Cake sorting and aligning vibratory feeder; 5. Auxiliary mechanism; 501. Round convex diverter; 502. Limiting strip; 503. Electric push rod; 504. Guide seat; 505. Transmission seat; 506. Transmission rod; 507. Guide rod; 508. Fixed seat; 509. Limiting plate No. 1; 510. Limiting plate No. 2; 511. Support seat; 512. Spring No. 1; 513. Spring No. 2. Detailed Implementation

[0019] 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.

[0020] Please see Figures 1-6This utility model provides a technical solution: an automatic rice cake sorting machine, including a conveyor 1, a slide plate 2, and an auxiliary mechanism 5. The slide plate 2 is located below the output end of the conveyor 1, and a frame 3 is welded to the outer side of the bottom end of the slide plate 2. A sorting and aligning vibrating plate 4 is connected to the output end of the slide plate 2. The auxiliary mechanism 5 includes a convex diverter 501, a limiting strip 502, an electric push rod 503, a guide seat 504, a transmission seat 505, a transmission rod 506, a guide rod 507, a fixed seat 508, a first limiting plate 509, a second limiting plate 510, a support seat 511, a first spring 512, and a second spring 513. The convex diverter 501 is connected to the middle of the top of the slide plate 2. Limiting strips 502 are welded to the outer bottom of the distributor 501. An electric push rod 503 is installed in the middle of the frame 3, and a guide seat 504 is connected to the output end of the electric push rod 503. A transmission seat 505 is welded to both sides of the outer wall of the guide seat 504. A transmission rod 506 is rotatably connected to the middle of the transmission seat 505, and a guide rod 507 is connected to the top of the transmission rod 506 through a rotating seat. A fixed seat 508 is welded to the side of the guide rod 507 away from the transmission rod 506. The fixed seat 508 has a "U" shaped structure, and the limiting strips 502 are distributed in a "U" shape. A fixing hole is opened inside the limiting strip 502, and the fixed seat 508 extends into it. Limiting holes are opened inside the slide plate 2, and the limiting strips... 502 extends into it; guide rod 507 has a "T" shaped structure, transmission seat 505 has an "L" shaped structure, guide seat 504 has a "T" shaped structure, and transmission rod 506 is distributed in an inverted "V" shape; a first limiting plate 509 is slidably connected to the middle of the outer wall of fixed seat 508, and the top of the outer wall of the first limiting plate 509 is welded to the slide plate 2; a second limiting plate 510 is slidably connected to one side of the outer wall of guide rod 507, and the top of the outer wall of the second limiting plate 510 is welded to the slide plate 2; support seats 511 are slidably connected to both sides inside the guide seat 504, and the top of the outer wall of the support seat 511 is welded to the slide plate 2; a first spring 512 is sleeved on both sides of the bottom end of the support seat 511, and the support seat 511 is in the shape of an inverted "V" shape. The U-shaped structure has a second spring 513 sleeved in the middle of the outer wall of the guide rod 507. The left and right sides of the second spring 513 are connected to the fixed seat 508 and the second limiting plate 510, respectively. The guide rod 507, the fixed seat 508, the second limiting plate 510 and the second spring 513 form an elastic telescopic mechanism. The upper and lower sides of the first spring 512 are connected to the support seat 511 and the guide seat 504, respectively. The guide seat 504, the support seat 511 and the first spring 512 form an elastic telescopic mechanism. The first limiting plate 509 and the second limiting plate 510 are parallel to each other. The slide plate 2 is in an inclined state. The bottom of the outer wall of the conveyor 1, the frame 3 and the cake sorting and aligning vibrating plate 4 are all in contact with the ground.

[0021] In specific implementation, when the rice cracker packaging production process requires the assistance of a cake sorting machine, since the convex diverter 501 is connected to the limiting strip 502, the convex diverter 501 is first placed at the top center of the slide plate 2. At this time, the limiting strip 502 is inserted into the slide plate 2 and engaged, thereby limiting the convex diverter 501. Then, the electric push rod 503 is activated to extend and drive the guide seat 504 to move upward. Since the outer walls of the guide seat 504 are connected to the transmission seat 505 on both sides, the movement of the guide seat 504 will drive the transmission seat 505 to move together. Since the guide seat 504 is slidably connected to the support seat 511 inside, the movement of the guide seat 504 is limited by the support seat 511, so that it moves smoothly. The upward movement of the guide seat 504 will compress the first spring 512, causing it to deform. Then, the first spring 512 is reset to assist the guide seat 504 to move downward back to its original position.

[0022] Because the transmission seat 505 and the transmission rod 506 are rotatably connected, the movement of the transmission seat 505 will cause the transmission rod 506 to rotate. At this time, the included angle between the transmission rod 506 and the transmission seat 505 will change, which will generate a thrust on the guide rod 507, causing the guide rod 507 to move away from the guide seat 504 along the second limit plate 510. Since the guide rod 507 is connected to the fixed seat 508, the movement of the guide rod 507 will cause the guide rod 507 to move along the first limit plate 509. At this time, the second spring 513 will reset and generate elastic force, which will then assist the fixed seat 508 to move until the fixed seat 508 passes through the limit strip 502, thereby fixing the round convex diverter 501 and preventing it from moving at will. Thus, the round convex diverter 501 can be fixed to the top of the slide plate 2 without repeatedly turning multiple sets of bolts or using welding, saving time and facilitating subsequent disassembly.

[0023] Because the convex diverter 501 is convex, when the snow cake falls onto the slide plate 2, it first contacts the convex diverter 501. Then, guided by the special curved surface of the convex diverter 501, the snow cake slides down along a preset trajectory above the snow cake sorting and arranging vibrating plate 4. This effectively avoids the problem of excessive concentration of snow cakes in some areas of the snow cake sorting and arranging vibrating plate 4, and reduces the probability of snow cakes breaking due to excessive squeezing and collision between snow cakes during the rotation of the automatic snow cake sorting and arranging machine. This reduces the breakage rate of snow cakes, thus facilitating quick installation and diverting and preventing accumulation when using the automatic snow cake sorting machine.

[0024] In summary, when using this automatic rice cake sorting machine, the slide plate 2 is pre-positioned at the output end of the conveyor 1 via the frame 3. When the rice cakes are discharged from the output end of the conveyor 1, they fall onto the top of the slide plate 2, which then transports them to the sorting and arranging vibrating plate 4. The sorting and arranging vibrating plate 4 then neatly arranges the rice cakes. This is existing technology and will not be elaborated upon further. The convex-shaped distributor 501 is fixed by the auxiliary mechanism 5 to prevent it from moving arbitrarily, thus eliminating the need for repeatedly rotating multiple sets of bolts or using welding. In this way, the convex diverter 501 can be fixed to the top of the slide plate 2, saving time and facilitating subsequent disassembly. Then, the convex diverter 501 diverts the falling snow cakes to prevent them from accumulating and causing the snow cakes in the snow cake sorting and arranging vibrating plate 4 to be too concentrated in one area. This reduces the probability of snow cakes breaking due to excessive squeezing and collision between snow cakes during the rotation of the automatic snow cake sorting and arranging device, thereby reducing the snow cake breakage rate. The contents not described in detail in this specification are existing technologies known to those skilled in the art.

[0025] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. An automatic snow cake sorting machine, comprising a conveyor (1), a slide plate (2) and an auxiliary mechanism (5). There is a slide plate (2) below the output end of the conveyor (1), and a frame (3) is welded to the outer side of the bottom end of the slide plate (2). The output end of the slide plate (2) is connected to a snow cake sorting and aligning vibrating disk (4). It is characterized in that: The auxiliary mechanism (5) includes a circular convex diverter (501), a limiting strip (502), an electric push rod (503), a guiding seat (504), a transmission seat (505), a transmission rod (506), a guiding rod (507), a fixed seat (508), a first limiting plate (509), a second limiting plate (510), a support seat (511), a first spring (512) and a second spring (513). The middle of the top end of the slide plate (2) is connected to a circular convex diverter (501), and a limiting strip (502) is welded to the outer side of the bottom end of the circular convex diverter (501). An electric push rod (503) is installed in the middle of the frame (3), and the output end of the electric push rod (503) is butted against a guiding seat (504). Transmission seats (505) are welded to both sides of the outer wall of the guiding seat (504). A transmission rod (506) is rotatably connected to the middle of the transmission seat (505). The top end of the transmission rod (506) is connected to a guiding rod (507) through a rotating seat. A fixed seat (508) is welded to the side of the guiding rod (507) away from the transmission rod (506).

2. The automatic rice cake sorting machine according to claim 1, characterized in that: The fixed seat (508) has a "U" - shaped structure. The limiting strip (502) is distributed in a "square" shape, and fixing holes are opened inside the limiting strip (502), and the fixed seat (508) extends into it. Limiting holes are opened inside the slide plate (2), and the limiting strip (502) extends into it.

3. The automatic rice cake sorting machine according to claim 2, characterized in that: The guiding rod (507) has a "T" - shaped structure. The transmission seat (505) has an "L" - shaped structure. The guiding seat (504) has a "T" - shaped structure. The transmission rods (506) are distributed in an inverted "V" shape.

4. The automatic rice cake sorting machine according to claim 3, characterized in that: A first limiting plate (509) is slidably connected to the middle of the outer wall of the fixed seat (508), and the top end of the outer wall of the first limiting plate (509) is welded to the slide plate (2). A second limiting plate (510) is slidably connected to one side of the outer wall of the guiding rod (507), and the top end of the outer wall of the second limiting plate (510) is welded to the slide plate (2). Support seats (511) are slidably connected to both sides inside the guiding seat (504), and the top end of the outer wall of the support seats (511) is welded to the slide plate (2).

5. The automatic rice cake sorting machine according to claim 4, characterized in that: First springs (512) are sleeved on both sides of the bottom end of the support seats (511), and the support seats (511) have a "U" - shaped structure. Second springs (513) are sleeved on the middle of the outer wall of the guiding rod (507).

6. The automatic rice cake sorting machine according to claim 5, characterized in that: The second spring (513) is connected to the fixed seat (508) and the second limiting plate (510) on its left and right sides respectively. The guide rod (507), the fixed seat (508), the second limiting plate (510) and the second spring (513) form an elastic telescopic mechanism. The first spring (512) is connected to the support seat (511) and the guide seat (504) on its upper and lower sides respectively. The guide seat (504), the support seat (511) and the first spring (512) form an elastic telescopic mechanism.