Manufacturing method of salt sweeping mechanism for production of dipped gloves

- Jan 03, 2021-

Background technique:


The establishment and development of the labor protection products industry was established and developed following the establishment of my country's socialist system and the development of industry and agriculture. Reform and development have promoted the overall development of China's labor protection products industry. At present, my country has a complete range of labor protection products in sufficient quantity, which basically meets the needs of domestic economic development, and has formed a labor protection product industry that protects the safety and health of workers. However, my country's labor insurance products industry is still a weak industry, and compared with developed countries, we still have a big gap. Among them, labor protection gloves are the most widely used labor protection products. The gap is mainly manifested in that most of the labor protection products are labor-intensive production, with low mechanization and automation, low production efficiency, and uneven product quality control. Compared with foreign companies of the same type, the competitiveness is poor.


In the process of producing labor protection gloves, it mainly includes preheating, dipping, primary drying, desalination, soaking, secondary drying, and vulcanization processes. Among them, the dipping process is divided into impregnation agent impregnation, rubber impregnation and anti-slip Salt immersion treatment. In the desalination process, the gloves are usually rolled with a brush roller to remove excess salt particles on the gloves. This method is prone to incomplete desalination, and excess salt particles are washed off in the subsequent cleaning process, resulting in waste.

disposable medical latex glove dipping machine

Technical realization elements:


The technical problem to be solved by the utility model is to provide a salt sweeping mechanism for the production of dipped gloves with good salt sweeping effect.


In order to solve the above technical problems, the technical solution of the present invention is: a salt sweeping mechanism for the production of dipped gloves, including a salt sweeping support, a wool roller, and a driving motor. The two ends of the wool roller are respectively installed with a first rotating shaft and a first rotating shaft. Two rotating shafts, the first and second rotating shafts are respectively supported on the salt-sweeping bracket through a bearing assembly, and the first rotating shaft is connected to a drive motor installed on the salt-sweeping bracket through a chain transmission; two of the hair roller The ends are respectively provided with a first shaft hole and a second shaft hole into which the first and second rotating shafts are embedded. The first shaft hole has an internal gear ring structure, and the first rotating shaft is provided with a gear meshing with the internal gear External gear structure, and the index circle diameter of the external gear structure is smaller than the index circle diameter of the ring gear structure; the second shaft hole is a smooth hole, and the diameter of the second shaft hole is equal to the index circle of the ring gear structure The diameter of the second rotating shaft is embedded in the second shaft hole, and the diameter of the second rotating shaft is equal to the index circle diameter of the external gear structure.


The index circle diameter of the external gear structure is 1/2 of the index circle diameter of the inner ring gear structure.


The utility model has the advantages that: the first rotating shaft is driven to rotate by the driving motor, the first rotating shaft and the inner gear ring structure are used to realize the rotation of the brush, and then the salt particles on the surface of the glove are removed by the brush; The index circle diameter of the outer gear structure of the first rotating shaft is smaller than the index circle diameter of the inner gear ring structure, so that the brush has a certain beating while rotating, and the beating is used to slightly strike the glove surface to better remove floating salt.

Technical features:


1. A salt sweeping mechanism for the production of dipped gloves, characterized in that it comprises a salt sweeping support, a wool roller, and a driving motor. The two ends of the wool roller are respectively installed with a first rotating shaft and a second rotating shaft. The first and second rotating shafts are respectively supported on the salt-sweeping support through the bearing assembly, and the first rotating shaft is connected to a driving motor installed on the salt-sweeping support through a chain transmission;


Both ends of the hair roller are respectively provided with a first shaft hole and a second shaft hole into which the first and second rotating shafts are embedded, the first shaft hole is an internal gear ring structure, and the first rotating shaft is provided with The external gear structure meshed with the internal gear ring, and the index circle diameter of the external gear structure is smaller than the index circle diameter of the internal gear structure; the second shaft hole is a smooth hole, and the diameter of the second shaft hole is equal to the internal tooth The diameter of the index circle of the ring structure, the second rotating shaft is embedded in the second shaft hole, and the diameter of the second rotating shaft is equal to the index circle diameter of the external gear structure.


2. The salt sweeping mechanism for the production of dipped gloves according to claim 1, wherein the index circle diameter of the external gear structure is 1/2 of the index circle diameter of the inner gear ring structure.

Technical summary

The utility model relates to a salt sweeping mechanism for the production of dipped gloves, which is characterized in that it comprises a salt sweeping support, a hair roller, and a driving motor. The two ends of the hair roller are respectively installed with a first rotating shaft and a second rotating shaft. The first rotating shaft is connected to the driving motor installed on the salt-sweeping support through a chain transmission; the two ends of the hair roller are respectively provided with a first shaft hole and a second shaft hole into which the first and second rotating shafts are embedded. The first shaft hole It is an inner ring gear structure, and an external gear structure meshing with the inner gear ring is provided on the first rotating shaft, and the index circle diameter of the external gear structure is smaller than the index circle diameter of the inner ring gear structure. The utility model has the advantages that the cooperation of the first rotating shaft and the inner gear ring structure is used to realize the rotation of the brush, and then the salt particles on the surface of the glove are removed by the brush; at the same time, due to the size relationship between the first rotating shaft and the fur roller, the hair The brush has a certain beating while rotating, and the beating is used to slightly hit the surface of the glove to better remove floating salt.