CN-224216241-U - Emulsion product leakage detection device based on electrolysis principle

Abstract

The utility model relates to the technical field of latex products, in particular to a latex product leakage detection device based on an electrolysis principle. The device comprises a bearing tube, an electrolyte tank, a wire and an electric signal detection device, wherein electrolyte is filled in the electrolyte tank, the bearing tube is used for bearing a latex crude product to be detected, the bearing tube corresponds to the electrolyte tank so that the latex crude product is immersed in the electrolyte, the wire stretches into the latex crude product, the wire is electrically connected with the electric signal detection device, and the latex crude product is spaced between the wire and the electrolyte. In the prior art, the damage problem of the emulsion crude product can be easily detected, but sometimes the emulsion product has leakage defect due to the process problem, and obvious break is not generated due to the leakage problem, so that the detection is difficult. Compared with the prior art, through the technical scheme of the utility model, if leakage exists, the electrolyte can form a closed circuit by contacting the emulsion crude product with the copper wire, so that the electric signal detection device can detect the leakage problem by detecting the electric signal.

Inventors

• GAO XIANG
• YU TAO
• LI WENLONG
• Ren Shengsheng

Assignees

• 威乐士医疗卫生用品（湖北）有限公司

Dates

Publication Date

20260508

Application Date

20250610

Claims (7)

1. 1. The latex product leakage detection device based on the electrolysis principle is characterized by comprising a bearing tube, an electrolyte tank, a wire and an electric signal detection device; electrolyte is filled in the electrolyte tank; the bearing tube is used for bearing the emulsion crude product to be detected; The bearing pipe corresponds to the electrolyte tank so that the emulsion crude product is immersed in the electrolyte; the lead extends into the emulsion crude product; the lead is electrically connected with the electric signal detection device; The crude latex is spaced between the lead and the electrolyte.
2. 2. The latex product leakage detection device based on the electrolysis principle of claim 1, wherein a sleeve joint groove is formed at one end of the bearing tube, which is close to the electrolyte tank; The crude latex product is sleeved on the bearing pipe through the sleeve groove.
3. 3. The latex product leakage detection device based on the electrolysis principle of claim 1, wherein the carrying tube is further provided with a conduction channel; the conduction channel penetrates through the bearing tube; the lead extends into the emulsion crude product through the conduction channel.
4. 4. The latex product leakage detection device based on the electrolysis principle according to claim 1, wherein an erection plate is further arranged on the bearing tube; The erection plate is arranged at one end of the bearing pipe far away from the emulsion crude product; the erection plate is fixedly connected with the bearing pipe; the erection plate is provided with an erection groove; the wires are embedded into the mounting grooves.
5. 5. The latex product leak detection apparatus as defined in any one of claims 1 to 4, further comprising a mounting plate; The assembly plate is arranged on the electrolyte tank; The assembly plate is fixedly connected with the bearing tube; The number of the bearing pipes is a plurality; The bearing pipes are distributed from one end of the assembly plate to the other end of the assembly plate; the leads are in one-to-one correspondence with the bearing pipes.
6. 6. The latex product leak detection apparatus as recited in claim 5, further comprising a pushing cylinder; the output end of the pushing cylinder is connected with the assembly plate; The stretching direction of the pushing cylinder corresponds to the electrolyte tank, so that the bearing pipe is driven to be close to or far away from the electrolyte tank through the assembly plate.
7. 7. The latex product leakage detection device based on the electrolysis principle according to claim 6, wherein a connecting plate is further arranged on the pushing cylinder; The connecting plates are respectively arranged at two ends of the pushing cylinder; the connecting plate is fixedly connected with the pushing cylinder; One of the connecting plates is fixedly connected with the assembly plate; the other connecting plate is fixedly connected with the electrolyte tank.

Description

Emulsion product leakage detection device based on electrolysis principle Technical Field The utility model relates to the technical field of latex products, in particular to a latex product leakage detection device based on an electrolysis principle. Background Condoms are barrier contraceptive devices, typically made of latex, polyurethane or polyisoprene, that avoid pregnancy and transmission of venereal disease by physically blocking semen from entering the vagina. The contraceptive efficiency reaches 98% when being used correctly, and the risk of sexually transmitted infection such as HIV, gonorrhea and the like can be effectively reduced. The effective period is checked and sharp objects are prevented from being scratched when the medical instrument is used. It can be seen that whether the condom is damaged or not will directly affect the function of the condom to normally realize contraception. Thus, a strict inspection of breakage is required at the crude latex stage. Because the emulsion crude product has stronger elasticity, the emulsion crude product can spontaneously expand after the inside is filled with water or inflated. At this time, the worker can easily observe the damaged area. However, in actual operation, a certain leakage problem exists in the crude latex product due to the technical problem, which also affects the contraceptive effect of the finished condom product. However, in this case, the crude latex is not damaged significantly, which makes it difficult for the staff to examine. Disclosure of utility model Aiming at the technical problems in the prior art, the utility model provides a latex product leakage detection device based on an electrolysis principle. In order to solve the technical problems, the utility model provides the following technical scheme: The latex product leakage detection device based on the electrolysis principle comprises a bearing tube, an electrolyte tank, a lead and an electric signal detection device, wherein the electrolyte tank is filled with electrolyte, the bearing tube is used for bearing a latex crude product to be detected, the bearing tube corresponds to the electrolyte tank so that the latex crude product is immersed in the electrolyte, the lead stretches into the latex crude product, the lead is electrically connected with the electric signal detection device, and the latex crude product is spaced between the lead and the electrolyte. Further, a sleeving groove is formed in one end, close to the electrolyte tank, of the bearing tube, and the emulsion crude product is sleeved on the bearing tube through the sleeving groove. Furthermore, a conducting channel is arranged on the bearing tube, the conducting channel penetrates through the bearing tube, and the conducting wire stretches into the emulsion crude product through the conducting channel. Further, the bearing pipe is also provided with an erection plate, the erection plate is arranged at one end of the bearing pipe far away from the emulsion crude product, the erection plate is fixedly connected with the bearing pipe, the erection plate is provided with an erection groove, and the lead is embedded into the erection groove. The device further comprises a mounting plate, wherein the mounting plate is arranged on the electrolyte tank, the mounting plate is fixedly connected with the bearing pipes, the number of the bearing pipes is multiple, the bearing pipes are arranged from one end of the mounting plate to the other end, and the conducting wires are in one-to-one correspondence with the bearing pipes. The device further comprises a pushing air cylinder, wherein the output end of the pushing air cylinder is connected with the assembly plate, and the extending and retracting direction of the pushing air cylinder corresponds to the electrolyte tank so as to drive the bearing pipe to be close to or far away from the electrolyte tank through the assembly plate. Further, the pushing cylinder is further provided with connecting plates, the connecting plates are respectively arranged at two ends of the pushing cylinder, the connecting plates are fixedly connected with the pushing cylinder, one connecting plate is fixedly connected with the assembly plate, and the other connecting plate is fixedly connected with the electrolyte tank. Drawings FIG. 1 is a diagram showing the overall structure. FIG. 2 is a block diagram of a carrier tube. FIG. 3 is an enlarged view of a portion of the carrier tube. In the figure, 1, a bearing pipe, 11, a sleeving groove, 12, a conducting channel, 13, a erection plate, 131, a erection groove, 2, an electrolyte tank, 3, a wire, 4, an assembly plate, 5, a pushing cylinder, 51 and a connecting plate. Detailed Description The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these emb