Manufacturing method of fully automatic nitrile glove material feeding system

- Oct 24, 2020-

Background technique:


The production of disposable gloves requires the use of latex, and the preparation of latex requires various liquid raw materials, and the various liquid raw materials need to be mixed uniformly and then transported to the reaction tank, where other materials are added for production. In the current production, various liquid raw materials need to be manually prepared by the production personnel, which not only consumes energy, but also makes it difficult to ensure the accuracy of the ratio and the uniformity of the mixing, so that the quality of latex cannot be guaranteed, and the quality of disposable gloves cannot be guaranteed. . Therefore, it is necessary to design equipment that can accurately mix various liquid raw materials and efficiently mix liquids.

disposable surgical nitrile glove making machine

Technical realization elements:


The technical problem to be solved by the utility model is to solve the above-mentioned technical deficiencies. It provides a fully automatic nitrile glove raw material feeding system, which puts different liquid raw materials in different batching cylinders, and performs various types of materials through solenoid valves and colloid pumps. The pumping of liquid raw materials can ensure accurate proportioning. When various liquid raw materials are pumped into the barrel, the lid of the barrel can press the liquid to flow to the stirring device under the pressure of the pushing device. The mixing shaft is provided with a walking wheel, and the upper surface of the outer cylinder cover is provided with a convex curved surface. When the walking wheel reaches the convex curved surface, the mixing shaft can be driven to move in the vertical direction. The stirring shaft is also provided with a plurality of liquid spray stirring pipes, and the liquid flowing out of the pressurizing cylinder flows out from the inside of the stirring shaft through the liquid spray stirring pipe. The rotating shaft is provided with a spray tube and a stirring wheel, the stirring wheel can agitate the liquid in the rotating direction of the rotating shaft, and the liquid sprayed from the spray tube can push the stirring wheel to rotate in the radial direction of the rotating shaft to increase the degree of stirring.


In order to solve the above technical problems, the technical solution adopted by the present utility model is: including a feeding device, a pressurizing cylinder, a stirring device and a reaction device; the feeding device includes a plurality of batching cylinders, solenoid valves and a first colloid pump; Connected to the inlet of the solenoid valve; the outlet of the solenoid valve is connected to the inlet of the first colloid pump; the pressurizing cylinder includes a cylinder body, a cylinder cover and a pusher; the outlet of the first colloid pump is connected to the bottom of the cylinder body; the cylinder cover is slidingly connected in the height direction Inside the cylinder; the pushing part is arranged on the top of the cylinder cover; the bottom of the cylinder is provided with a connecting sleeve.


Compared with the prior art, the utility model has the following advantages: 1. Different liquid raw materials are placed in different batching cylinders, and various liquid raw materials are pumped through solenoid valves and colloid pumps, which can ensure the accurate proportioning; 2. The stirring shaft is also provided with a plurality of spraying stirring pipes, and the liquid flowing out of the pressurizing cylinder flows out from the inside of the stirring shaft through the spraying stirring pipe, which increases the degree of stirring; 3. The rotating shaft is provided with a spraying pipe and a stirring wheel, and the stirring wheel The liquid can be stirred in the direction of rotation of the rotating shaft, and the liquid sprayed from the jet tube can push the stirring wheel to rotate in the radial direction of the rotating shaft to increase the degree of stirring.

Technical characteristics:


1. Fully automatic nitrile glove material feeding system, characterized in that it includes a feeding device, a pressurizing cylinder, a stirring device and a reaction device; the feeding device includes a plurality of batching cylinders, solenoid valves and a first colloid pump; a batching cylinder and The solenoid valve inlet is connected; the solenoid valve outlet is connected to the inlet of the first colloid pump; the pressurizing cylinder includes a cylinder body, a cylinder cover and a pusher; the outlet of the first colloid pump is connected to the bottom of the cylinder body; the cylinder cover is slidingly connected to the cylinder in the height direction The inside of the body; the pushing part is arranged on the top of the cylinder cover; the bottom of the cylinder is provided with a connecting sleeve.


2. The fully automatic nitrile glove material feeding system according to claim 1, characterized in that: the stirring device comprises an outer drum and a stirring shaft; the stirring shaft and the outer drum are rotatably connected; the stirring shaft comprises a rotating shaft, a stirring wheel and a walking wheel; The walking wheel is rotatably connected to the upper middle part of the length of the rotating shaft; the stirring wheel is rotatably connected to the middle part of the rotating shaft; the walking wheel is arranged outside the outer cylinder; and the stirring wheel is arranged inside the outer cylinder.


3. The full-automatic nitrile glove material feeding system according to claim 2, characterized in that: the inside of the shaft is a hollow structure, the top end is open, and the bottom end is closed; the middle of the shaft is evenly provided with a plurality of spray agitating pipes; The surface of the stirring tube is provided with a plurality of spray holes; the outer side of the stirring wheel is evenly provided with a plurality of paddles; the upper part of the rotating shaft is provided with a spray tube; the end face of the spray tube is perpendicular to the surface of a certain paddle.


4. The fully automatic nitrile glove material feeding system according to claim 2, characterized in that: the top of the outer cylinder is provided with an upper cover; the walking wheels roll on the upper surface of the upper cover; the upper surface of the upper cover is provided with a convex surface; When the traveling wheel rolls on the upper surface of the upper cover, it can move to the upper surface of the convex curved surface.


5. The fully automatic nitrile glove material feeding system according to claim 2, wherein the upper part of the stirring shaft is sleeved inside the connecting sleeve; the stirring shaft and the connecting sleeve can both rotate and slide in the height direction .


6. The fully automatic nitrile glove raw material feeding system according to claim 2, wherein the reaction device comprises a second colloid pump and a reaction tank; the inlet of the second colloid pump is connected to the bottom of the outer cylinder; The reaction tank is connected.

Technical summary

The utility model relates to the technical field of latex gloves production, in particular to a fully automatic nitrile glove raw material feeding system. It includes a feeding device, a pressurizing cylinder, a stirring device and a reaction device; the feeding device includes a plurality of batching cylinders, a solenoid valve and a first colloid pump; the batching cylinder is connected with the solenoid valve inlet; the solenoid valve outlet is connected with the first colloid pump inlet The pressurizing cylinder includes a cylinder body, a cylinder cover and a pushing member; the outlet of the first colloid pump is connected to the bottom of the cylinder body; the cylinder cover is slidably connected inside the cylinder body in the height direction; the pushing member is arranged on the top of the cylinder cover; There is a connecting sleeve.