An automated material dispensing machine

CN224410941UActive Publication Date: 2026-06-26CHENGDU DEERTA BIOTECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHENGDU DEERTA BIOTECHNOLOGY CO LTD
Filing Date
2025-08-27
Publication Date
2026-06-26

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    Figure CN224410941U_ABST
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Abstract

The utility model discloses an automatic material discharging machine, including bottom plate, vertical board, press bar, the steering lever of area rolling cylinder, film support rod, film placing rod and contain motor and the winding assembly of winding rod. Vertical board is vertically arranged in bottom plate both sides, and film placing rod is used for placing film roll, and a plurality of press bars are evenly and equidistantly arranged between two vertical boards near bottom plate, and the steering lever is located in the oblique upper side of specific press bar, and the winding assembly is driven by motor. When using, the film is in turn set each part, and the foam glue with aluminum bowl is threaded through the press bar, and the motor drives the winding assembly to drive the film, so that the aluminum bowl and the foam glue are automatically separated and discharged. The equipment improves the material discharging automation and stability, reduces the artificial and material loss, and the structure is reasonable and easy to maintain.
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Description

Technical Field

[0001] This utility model relates to the field of industrial automation technology, and in particular to an automated material feeding machine. Background Technology

[0002] In the traditional aluminum bowl and foam adhesive processing production process, the separation and discharge of aluminum bowls and foam adhesive has long relied on manual operation. The workers need to pry out the aluminum bowls one by one to complete the initial waste removal. This process is entirely manual and has extremely low efficiency. Moreover, it is difficult to uniformly apply the force and angle to the aluminum bowls, which can easily lead to deformation of the aluminum bowls or damage to the foam adhesive, resulting in material loss. Furthermore, the efficiency of manual operation is greatly affected by factors such as the operator's skill level and physical condition, making it difficult to achieve continuous and stable high output. For large-scale production, this method is far from meeting the needs of efficient production and seriously restricts the improvement of production efficiency.

[0003] In traditional feeding machines, it is difficult to precisely control the contact time between the film and the foam adhesive. Often, the film will adhere to the foam adhesive prematurely. This not only wastes the film and foam adhesive, but also increases the difficulty of cleaning and further slows down the production progress.

[0004] In summary, traditional manual material feeding methods have significant shortcomings in terms of efficiency, accuracy, stability, and material utilization. There is an urgent need for automated equipment to solve these problems and meet the requirements of modern production. Utility Model Content

[0005] The purpose of this invention is to provide an automated feeding machine that solves the problem of low efficiency in the separation and feeding of aluminum bowls and foam adhesive in the traditional manual operation.

[0006] This utility model is achieved through the following technical solution:

[0007] An automated feeding machine includes a base plate with vertical plates erected perpendicularly on one of its sides. A film placement rod for placing a film roll is provided between the upper part of the two vertical plates near one end of the base plate. Multiple pressure rods, perpendicular to the two vertical plates respectively, are provided between the two vertical plates near the base plate along the length of the vertical plates. A steering rod is provided diagonally above one of the pressure rods away from the film placement rod. A film support rod is provided between the steering rod and the film support rod between the two vertical plates. A winding assembly is provided above the film support rod.

[0008] Furthermore,

[0009] The winding assembly includes a motor and a winding rod. The winding rod is vertically and rotatably mounted between two vertical plates, and one end of the winding rod passes through the vertical plate and is connected to the motor mounted on the outside of the vertical plate.

[0010] Furthermore,

[0011] Multiple pressure bars are evenly spaced and at equal heights between the two vertical plates, with the interval between two adjacent pressure bars being less than the width of the aluminum cup, and there is a gap between the pressure bars and the bottom plate that allows the aluminum cup to pass through.

[0012] Furthermore,

[0013] A rolling cylinder of the same width as the space between the two vertical plates is also movably fitted on the steering rod, and the steering rod is located diagonally above the pressure bar near the end of the bottom plate, away from the winding assembly and the film support rod.

[0014] Furthermore,

[0015] There is a gap between the steering rod and the lower pressure rod for the membrane to pass through, and in the horizontal direction, the steering rod is closer to the membrane support rod than the lower pressure rod. There is a gap between the steering rod and the lower pressure rod for the membrane to pass through, and in the horizontal direction, the steering rod...

[0016] Furthermore,

[0017] The distance between the membrane support rod and the steering rod is less than the distance between the membrane support rod and the membrane placement rod.

[0018] The beneficial effects of this utility model are:

[0019] 1. This automated feeding machine uses a motor-driven winding rod to automatically wind up the film, moving excess foam adhesive along with the film without the need for manual pulling or winding. At the same time, the pressure rod provides stable constraint on the foam adhesive with aluminum cups, allowing the aluminum cups to automatically detach from the foam adhesive and be discharged. This significantly reduces manual operation steps, lowers labor costs, avoids errors that may occur during manual operation, and improves the overall automation level of the feeding process.

[0020] 2. Multiple pressure bars are set at uniform intervals and heights to ensure that the foam adhesive enters the tooling smoothly and is conveyed stably. The design that the interval between adjacent pressure bars is less than the width of the aluminum cup can precisely limit the movement of the aluminum cup with the foam adhesive, allowing it to fall off smoothly. The design of the gap and position of the steering rod and pressure bar, as well as the planning of the distance of the film support rod, all ensure the smoothness and stability of the film transmission, avoid film jamming, loosening or deviation, and thus ensure that the entire material discharge process is carried out accurately according to the preset trajectory, reducing the occurrence of failures.

[0021] 3. The rolling cylinder on the steering rod converts the sliding friction between the film and the rod into rolling friction, which greatly reduces the wear of the film during transmission and extends the service life of the film. The film support rod can effectively prevent the film from adhering to the foam adhesive in advance, avoiding material waste or finished product contamination caused by abnormal contact between the film and the foam adhesive. At the same time, the pressure rod's flat constraint on the foam adhesive also ensures the stability of the aluminum cup's detachment process, reduces damage to the aluminum cup caused by uneven force, and improves the quality of the finished product.

[0022] 4. The various components of the equipment have a clear division of labor. The structure of the film placement rod, support rod, steering rod, pressure rod and winding assembly is compact and logically clear. The film connection steps and the whole machine operation process are simple and easy to understand, making it easy for operators to quickly master the use method. The motor is installed on the outside of the vertical plate, which does not occupy the core working space. It is more convenient to inspect and maintain the motor and other key components in the later stage, reducing the maintenance difficulty and cost of the equipment. Attached Figure Description

[0023] The accompanying drawings, which are included to provide a further understanding of the embodiments of the present invention and form part of this application, do not constitute a limitation thereof. In the drawings:

[0024] Figure 1 This is a schematic diagram of the structure of this utility model;

[0025] Figure 2 This is a side perspective view of the present invention.

[0026] The attached diagram shows the markings and corresponding component names:

[0027] 1-Base plate, 2-Vertical plate, 3-Pressure rod, 4-Steering rod, 40-Rolling cylinder, 5-Film support rod, 6-Film placement rod, 7-Film roll, 8-Roll-up assembly, 80-Motor, 81-Roll-up rod, 9-Foam adhesive, 10-Aluminum cup, 11-Film. Detailed Implementation

[0028] The present invention will be further described in detail below with reference to the embodiments and accompanying drawings, but the implementation of the present invention is not limited thereto.

[0029] In the description of this utility model, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "longitudinal", "lateral", "horizontal", "inner", "outer", "front", "rear", "top", "bottom", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, or the orientation or positional relationship commonly used when the utility model product is in use. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0030] In the description of this utility model, it should also be noted that, unless otherwise explicitly specified and limited, the terms "set up," "have," "install," "connect," and "connect" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0031] See the example. Figures 1 to 2 :

[0032] An automated feeding machine includes a base plate 1, with vertical plates 2 erected perpendicularly on one side of the base plate 1. A film placement rod 6 for placing a film roll 7 is provided between the upper parts of the two vertical plates 2 near one end of the base plate 1. Multiple pressure rods 3 are provided between the two vertical plates 2 near the base plate 1 along the length of the vertical plates 2, and are perpendicular to the two vertical plates 2 respectively. A turning rod 4 is provided diagonally above one of the pressure rods 3 away from the film placement rod 6. A film support rod 5 is provided between the two vertical plates 2 between the turning rod 4 and the film support rod 5. A winding assembly 8 is provided above the film support rod 5.

[0033] Furthermore,

[0034] The winding assembly 8 includes a motor 80 and a winding rod 81. The winding rod 81 is vertically and rotatably disposed between two vertical plates 2, and one end of the winding rod 81 passes through the vertical plate 2 and is connected to the motor 80 mounted on the outside of the vertical plate 2.

[0035] The motor 80 provides continuous and stable power to the winding rod 81, driving the winding rod 81 to rotate, thereby realizing the automatic winding of the film 11 and providing the core power for the automated transmission of the entire material discharge process. The "rotatable vertical plate 2" installation method of the winding rod 81 ensures that the film 11 is subjected to uniform force during the winding process, effectively preventing the film 11 from becoming skewed or wrinkled. Furthermore, installing the motor 80 on the outside of the vertical plate 2 does not occupy the core working space between the two vertical plates 2, and facilitates the later inspection and maintenance of the motor 80, significantly improving the ease of use and stability of the equipment.

[0036] Furthermore,

[0037] Multiple pressure rods 3 are evenly spaced and at equal heights between the two vertical plates 2, and the interval between two adjacent pressure rods 3 is less than the width of the aluminum bowl 10, and there is a gap between the pressure rods 3 and the bottom plate 1 that allows the aluminum bowl 10 to pass through.

[0038] The "uniform spacing and height" setting ensures that the pressure distribution of the pressure bar 3 on the foam adhesive 9 is uniform, which can stably constrain the position of the foam adhesive 9 and prevent the aluminum cup 10 from shifting due to uneven force during the conveying process; the "adjacent interval is less than the width of the aluminum cup 10" can limit the aluminum cup 10 when it is detached from the foam adhesive 9 to prevent the aluminum cup 10 from moving with the foam adhesive 9 and the film 11; the "gap with the base plate 1 allows the aluminum cup 10 to pass through" while constraining the foam adhesive 9, it also reserves a precise conveying channel for the aluminum cup 10, realizing the smooth transmission of the foam adhesive 9 with the aluminum cup 10.

[0039] Furthermore,

[0040] A rolling cylinder 40 with the same width as the space between the two vertical plates 2 is also movably sleeved on the steering rod 4, and the steering rod 4 is located diagonally above the pressure rod 3 near the end of the bottom plate 1 away from the winding assembly 8 and the film support rod 5.

[0041] The rolling cylinder 40 rotates as the diaphragm 11 moves, converting the sliding friction between the diaphragm 11 and the steering rod 4 into rolling friction, making it easier for the diaphragm 11 to move and greatly reducing the wear of the diaphragm 11. The rolling cylinder 40 has the same width as the two vertical plates 2, which can fully cover the lateral direction and prevent the diaphragm 11 from shifting and not being on the rolling cylinder 40.

[0042] Furthermore,

[0043] There is a gap between the steering rod 4 and the lower pressure rod 3 for the membrane 11 to pass through, and in the horizontal direction the steering rod 4 is closer to the membrane support rod 5 than the lower pressure rod 3.

[0044] The gap for the membrane 11 to pass through provides a precise insertion channel for the membrane 11, ensuring that the membrane 11 can pass smoothly between the steering rod 4 and the pressure rod 3, avoiding jamming due to too small a gap or loosening of the membrane 11 due to too large a gap; the horizontal position design of "the steering rod 4 is closer to the membrane support rod 5" is intended to make the steering angle larger when the foam adhesive 9 with aluminum cup 10 is attached to the membrane 11 and moved by the membrane 11, making it easier for the aluminum cup 10 to fall off the foam adhesive 9 and improving the discharge efficiency.

[0045] Furthermore,

[0046] The horizontal distance between the membrane support rod 5 and the steering rod 4 is less than the horizontal distance between the membrane support rod 5 and the membrane placement rod 6.

[0047] The distance between the film support rod 5 and the steering rod 4 is less than the distance between the support rod 5 and the film placement rod 6. This makes the path of film 11 from the placement rod to the steering rod 4 more reasonable, reduces the slack of film 11 during the transfer process, and ensures that film 11 can reach the steering rod 4 in a more stable state after being released from the placement rod. This avoids excessive stretching or slack of film 11 due to improper distance setting, which would affect the fit between film 11 and foam adhesive 9 and the subsequent material discharge process, thus ensuring the stability of the entire film 11 transfer process.

[0048] The method of using this utility model is as follows:

[0049] When using this automated feeding machine, first complete the connection of the film 11 by following these steps: place the film 11 on the film placement rod 6, tear it open and place it on the film support rod 5, continue to stretch it to make the gap between the pressure rod 3 and the steering rod 4, and then fix it to the winding rod 81 connected to the motor 80.

[0050] Then, the foam adhesive 9 with aluminum cup 10 is passed under multiple pressure rods 3, and the aluminum cup 10 is not placed in the first position of the foam adhesive 9. The excess foam adhesive 9 in this position is then stuck to the film 11.

[0051] The start motor 80 drives the winding rod 81 to rotate, which moves the film 11. Excess foam adhesive 9 is wound up with the film 11, while multiple pressure rods 3 ensure that the foam adhesive 9 is transported flat. The interval between adjacent pressure rods 3 is less than the width of the aluminum cup 10, so that the aluminum cup 10 is detached from the foam adhesive 9 during transportation. Finally, the finished product is discharged from the pressure rods 3. At the same time, the film support rod 5 prevents the film 11 from adhering to the foam adhesive 9 in advance. The gap and position design between the steering rod 4 and the pressure rod 3 assists the smooth transportation of the film 11 and helps the aluminum cup 10 to detach.

[0052] The specific embodiments described above further illustrate the purpose, technical solution, and beneficial effects of this utility model. It should be understood that the above description is only a specific embodiment of this utility model and is not intended to limit the scope of protection of this utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the scope of protection of this utility model.

Claims

1. An automated material unloading machine, comprising a base plate (1), characterized in that, A pair of vertical plates (2) are erected vertically on a base plate (1). A film placement rod (6) for placing a film roll (7) is set between the upper parts of the two vertical plates (2) near one end of the base plate (1). Multiple pressure rods (3) perpendicular to the two vertical plates (2) are set between the two vertical plates (2) near the base plate (1) along the length of the vertical plates (2). A steering rod (4) is set diagonally above a pressure rod (3) away from the film placement rod (6). A film support rod (5) is set between the two vertical plates (2) between the steering rod (4) and the film support rod (5). A winding assembly (8) is set above the film support rod (5).

2. The automated material feeding machine according to claim 1, characterized in that, The winding assembly (8) includes a motor (80) and a winding rod (81). The winding rod (81) is vertically and rotatably disposed between two vertical plates (2), and one end of the winding rod (81) passes through the vertical plate (2) and is connected to the motor (80) installed on the outside of the vertical plate (2).

3. The automated material feeding machine according to claim 1, characterized in that, The multiple pressure rods (3) are evenly spaced and at equal heights between the two vertical plates (2), and the interval between two adjacent pressure rods (3) is less than the width of the aluminum bowl (10), and there is a gap between the pressure rods (3) and the bottom plate (1) that allows the aluminum bowl (10) to pass through.

4. An automated material feeding machine according to claim 1, characterized in that, A rolling cylinder (40) with the same width as the two vertical plates (2) is also movably sleeved on the steering rod (4), and the steering rod (4) is located obliquely above the pressure rod (3) at the end of the bottom plate (1) away from the winding assembly (8) and the film support rod (5).

5. An automated material feeding machine according to claim 4, characterized in that, There is a gap between the steering rod (4) and the lower pressure rod (3) for the membrane (11) to pass through, and the steering rod (4) is closer to the membrane support rod (5) in the horizontal direction than the lower pressure rod (3).

6. An automated material feeding machine according to claim 4, characterized in that, The distance between the film support rod (5) and the steering rod (4) is less than the distance between the film support rod (5) and the film placement rod (6).