An inhibitor feeding device for aluminum profile machining

By designing a corrosion inhibitor dispensing device for aluminum profile processing, the problem of workers inhaling volatile substances was solved, and automated dispensing and uniform mixing were achieved, ensuring operational safety and resource utilization.

CN224494344UActive Publication Date: 2026-07-14SHANDONG BORUN NEW ENERGY TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG BORUN NEW ENERGY TECH CO LTD
Filing Date
2025-08-07
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

During the current aluminum profile processing, workers are prone to inhaling volatile substances during the application of corrosion inhibitors, which can cause harm to their health.

Method used

A corrosion inhibitor dispensing device for aluminum profile processing was designed, including a storage tank, a corrosion inhibitor chamber, a warm water chamber, an acid chamber, a stirring mechanism, and an automatic feeding system. The feeding is controlled by an electric telescopic rod, and the water temperature is kept constant by a heating rod and a temperature sensor. The uniform mixing of corrosion inhibitor and acid is achieved by a stirring motor.

Benefits of technology

It enables automated application of corrosion inhibitors, avoids the inhalation of volatile substances, ensures operational safety, and improves resource utilization and corrosion prevention.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides an inhibitor feeding device for aluminium profile machining relates to aluminium profile machining technical field, include: liquid storage tank, the liquid storage tank below is equipped with support leg, and the liquid storage tank left side below is equipped with electric pump, and the electric pump connection puts in the pipe, the liquid storage tank upper side is equipped with inhibitor bin, hot water bin and acid liquid bin, its upper side all is equipped with feed pipe, its below all is equipped with the blanking cylinder, and the liquid storage tank inside is located in stirring mechanism, the utility model discloses automatic blanking, convenient and fast, effectively avoids the staff inhaling volatile substance, has solved the existing equipment when putting in the operation personnel easy to inhale volatile substance, causes the problem of harm to human body.
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Description

Technical Field

[0001] This utility model belongs to the field of aluminum profile processing technology, and more specifically, it relates to a corrosion inhibitor dispensing device for aluminum profile processing. Background Technology

[0002] The main purpose of using corrosion inhibitors in aluminum profile processing is to slow down the corrosion of aluminum by acid, protect the substrate and improve surface quality. However, in some existing processes, the corrosion inhibitors are still applied manually. Workers are prone to inhaling volatile substances during application, which can be harmful to their health. Utility Model Content

[0003] To address the aforementioned technical problems, this utility model provides a corrosion inhibitor dispensing device for aluminum profile processing, thereby solving the problem that workers are prone to inhaling volatile substances during the dispensing process of existing equipment, which could cause harm to the human body.

[0004] This utility model discloses a corrosion inhibitor dispensing device for aluminum profile processing, which is achieved through the following specific technical means:

[0005] A corrosion inhibitor dispensing device for aluminum profile processing includes: a storage tank; a support leg is provided below the storage tank, an electric pump is provided on the lower left side of the storage tank, the electric pump is connected to a dispensing pipe, a corrosion inhibitor chamber, a warm water chamber and an acid chamber are provided above the storage tank, each of which is provided with a feed pipe above it and a discharge cylinder below it, and a stirring mechanism is provided inside the storage tank.

[0006] Furthermore, a feeding motor is provided above the corrosion inhibitor chamber, and a drive shaft is connected below the feeding motor. The drive shaft extends into the corrosion inhibitor chamber, and its lower end is connected to a feeding rod.

[0007] Furthermore, the warm water chamber is equipped with three sets of electric heating rods located at the inner edge of the warm water chamber, and a temperature sensor is located in the middle of the warm water chamber and connected to the top plate of the warm water chamber.

[0008] Furthermore, the bottom of the feeding cylinder is an inclined opening, the upper part of the opening is provided with a base plate, the lower part of the base plate is provided with a feeding baffle, the upper part of the feeding baffle is connected to the base plate with a hinge, the side of the feeding baffle is provided with a sealing strip, and there are rings above the base plate and below the feeding baffle. An electric telescopic rod is provided between the two sets of rings, and the rings pass through both ends of the electric telescopic rod.

[0009] Furthermore, the stirring mechanism consists of a stirring rod, an arc-shaped rod, a drive shaft, and a stirring motor. The stirring motor is located below the storage tank, and the drive shaft is connected above the stirring motor. The drive shaft extends into the storage tank, and the stirring rod is vertically connected to the side of the drive shaft. Each stirring rod is equipped with several arc-shaped rods.

[0010] Furthermore, the inner walls of the warm water tank, acid tank, and storage tank are all equipped with partitions.

[0011] Compared with the prior art, the present invention has the following beneficial effects:

[0012] 1. This utility model uses a feeding rod to scrape off the corrosion inhibitor inside the corrosion inhibitor tank during feeding, preventing the corrosion inhibitor from adhering to the tank wall and causing resource waste.

[0013] 2. This utility model uses an electric heating rod and a temperature sensor. The electric heating rod heats the hot water inside the warm water chamber. When the temperature sensor detects that the temperature has reached the specified value, the electric heating rod will stop heating, thus keeping the water temperature in the warm water chamber constant and avoiding affecting the dilution effect of the corrosion inhibitor.

[0014] 3. This utility model uses an electric telescopic rod to control the feeding of the material in the feeding cylinder, thereby achieving automatic feeding, which is convenient and fast, and effectively avoids workers inhaling volatile substances.

[0015] 4. By setting an arc-shaped rod, this utility model facilitates the thorough and uniform mixing of corrosion inhibitors and acid solutions in the storage tank, ensuring the anti-corrosion effect. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model.

[0017] Figure 2 This is a schematic diagram of the structure of this utility model viewed from below.

[0018] Figure 3 This is a schematic diagram of the internal structure of the liquid storage tank of this utility model.

[0019] Figure 4 This is a schematic diagram of the feeding cylinder structure of this utility model.

[0020] Figure 5 This is a schematic diagram of the stirring mechanism of this utility model.

[0021] In the diagram, the correspondence between component names and drawing numbers is as follows:

[0022] 1. Liquid storage tank; 101. Support legs;

[0023] 2. Electric pump; 201. Dispensing pipe;

[0024] 3. Corrosion inhibitor tank; 301. Feeding motor; 302. Drive shaft; 303. Feeding rod;

[0025] 4. Warm water chamber; 401. Partition;

[0026] 5. Acid tank;

[0027] 6. Heating rod; 601. Temperature sensor;

[0028] 7. Feeding cylinder; 701. Base plate;

[0029] 8. Material discharge baffle; 801. Sealing strip;

[0030] 9. Electric telescopic pole; 901. Circular ring;

[0031] 10. Stirring rod; 1001. Curved rod;

[0032] 11. Drive shaft; 1101. Stirring motor. Detailed Implementation

[0033] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are for illustrative purposes only and should not be construed as limiting the scope of this utility model.

[0034] Example:

[0035] As attached Figure 1 To be continued Figure 5 As shown:

[0036] This utility model provides a corrosion inhibitor dispensing device for aluminum profile processing, including: a storage tank 1; a support leg 101 is provided below the storage tank 1, an electric pump 2 is provided on the lower left side of the storage tank 1, the electric pump 2 is connected to the dispensing pipe 201, a corrosion inhibitor chamber 3, a warm water chamber 4 and an acid chamber 5 are provided above the storage tank 1, each of which is provided with a feed pipe above it and a discharge cylinder 7 below it, a stirring mechanism is provided inside the storage tank 1, and partitions 401 are provided on the inner walls of the warm water chamber 4, the acid chamber 5 and the storage tank 1.

[0037] Among them, such as Figure 3 As shown, a feeding motor 301 is provided above the corrosion inhibitor tank 3, and a drive shaft 302 is connected below the feeding motor 301. The drive shaft 302 extends into the corrosion inhibitor tank 3, and its lower end is connected to a feeding rod 303, which scrapes off the corrosion inhibitor inside the corrosion inhibitor tank 3 during feeding to prevent the corrosion inhibitor from adhering to the tank wall and causing resource waste.

[0038] Among them, such as Figure 3 As shown, the warm water chamber 4 is equipped with three sets of electric heating rods 6. The electric heating rods 6 are located at the inner edge of the warm water chamber 4. A temperature sensor 601 is located in the middle of the warm water chamber 4. The temperature sensor 601 is connected to the top plate of the warm water chamber 4. The electric heating rods 6 heat the hot water inside the warm water chamber 4. When the temperature sensor 601 senses that the temperature has reached the specified value, the electric heating rods 6 will stop heating. The water temperature inside the warm water chamber 4 is constant, so as to avoid affecting the dilution effect of the corrosion inhibitor.

[0039] Among them, such as Figure 4As shown, the bottom of the feeding cylinder 7 has an inclined opening, and the upper part of the opening is provided with a base plate 701. Below the base plate 701, there is a feeding baffle 8. The feeding baffle 8 is connected to the base plate 701 by a hinge. The side of the feeding baffle 8 is provided with a sealing strip 801. There are rings 901 above the base plate 701 and below the feeding baffle 8. An electric telescopic rod 9 is provided between the two sets of rings 901. The rings 901 pass through both ends of the electric telescopic rod 9. By controlling the extension and retraction of the electric telescopic rod 9, the feeding cylinder 7 is controlled to feed material, realizing automatic feeding, which is convenient and fast, and effectively avoids workers from inhaling volatile substances.

[0040] Among them, such as Figure 5 As shown, the stirring mechanism consists of a stirring rod 10, an arc-shaped rod 1001, a drive shaft 11, and a stirring motor 1101. The stirring motor 1101 is located below the storage tank 1, and the drive shaft 11 is connected above the stirring motor 1101. The drive shaft 11 extends into the storage tank 1, and the stirring rod 10 is vertically connected to the side of the drive shaft 11. Several arc-shaped rods 1001 are provided on the stirring rod 10, which is beneficial to fully and evenly stir the corrosion inhibitor and acid in the storage tank 1 to ensure the anti-corrosion effect.

[0041] The specific usage and function of this embodiment are as follows:

[0042] In this invention, corrosion inhibitor is added to corrosion inhibitor tank 3, water is added to warm water tank 4, and acid is added to acid tank 5. The heating rod 6 is turned on to heat the water in the warm water tank. When the temperature sensor 601 detects that the temperature has reached a specified value, the heating rod 6 stops heating, the feeding motor 301 is turned on, and the electric telescopic rods 9 of corrosion inhibitor tank 3 and warm water tank 4 are retracted, allowing the corrosion inhibitor and warm water to enter the storage tank 1. The stirring mechanism thoroughly mixes the two. After uniform mixing, the electric telescopic rod 6 of acid tank 5 is retracted, allowing the acid to enter the storage tank 1. The stirring mechanism thoroughly mixes the acid, which is then pumped out by the electric pump 2 and released through the dispensing pipe 201.

[0043] Any aspects of this utility model not described in detail are well-known technologies to those skilled in the art.

Claims

1. A device for dispensing corrosion inhibitors for aluminum profile processing, comprising: Storage tank (1); characterized in that: a support leg (101) is provided below the storage tank (1), an electric pump (2) is provided on the lower left side of the storage tank (1), the electric pump (2) is connected to the dispensing pipe (201), a corrosion inhibitor chamber (3), a warm water chamber (4) and an acid chamber (5) are provided above the storage tank (1), each of which is provided with a feed pipe above it and a discharge cylinder (7) below it, and a stirring mechanism is provided inside the storage tank (1).

2. The corrosion inhibitor dispensing device for aluminum profile processing as described in claim 1, characterized in that: A feeding motor (301) is provided above the corrosion inhibitor tank (3), and a drive shaft (302) is connected below the feeding motor (301). The drive shaft (302) extends into the corrosion inhibitor tank (3), and its lower end is connected to a feeding rod (303).

3. The corrosion inhibitor dispensing device for aluminum profile processing as described in claim 1, characterized in that: The warm water chamber (4) is equipped with three sets of electric heating rods (6). The electric heating rods (6) are located at the inner edge of the warm water chamber (4). A temperature sensor (601) is located in the middle of the warm water chamber (4). The temperature sensor (601) is connected to the top plate of the warm water chamber (4).

4. The corrosion inhibitor dispensing device for aluminum profile processing as described in claim 1, characterized in that: The bottom of the feeding cylinder (7) is an inclined opening. The upper part of the opening is provided with a base plate (701). The bottom plate (701) is provided with a feeding baffle (8) below it. The feeding baffle (8) is connected to the base plate (701) by a hinge. The side of the feeding baffle (8) is provided with a sealing strip (801). There are rings (901) above the base plate (701) and below the feeding baffle (8). An electric telescopic rod (9) is provided between the two sets of rings (901). The rings (901) pass through both ends of the electric telescopic rod (9).

5. The corrosion inhibitor dispensing device for aluminum profile processing as described in claim 1, characterized in that: The stirring mechanism consists of a stirring rod (10), an arc rod (1001), a drive shaft (11), and a stirring motor (1101). The stirring motor (1101) is located below the storage tank (1), and the drive shaft (11) is connected above the stirring motor (1101). The drive shaft (11) extends into the storage tank (1), and the stirring rod (10) is vertically connected to the side of the drive shaft (11). Several arc rods (1001) are provided on the stirring rod (10).

6. The corrosion inhibitor dispensing device for aluminum profile processing as described in claim 1, characterized in that: The inner walls of the warm water tank (4), acid tank (5) and storage tank (1) are all provided with partitions (401).