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Female die for manufacturing wall thickness-variable glove and glove manufactured through female die

A technology of changing wall thickness and gloves, applied in the field of radiation protection products and protective equipment, can solve the problems of poor flexibility, unable to meet the flexible operation of doctors, etc., to achieve good water absorption, good protection effect and application prospects, and ensure the effect of flexibility.

Active Publication Date: 2016-04-13
MATERIAL INST OF CHINA ACADEMY OF ENG PHYSICS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the existing lead protective gloves with equal wall thickness have poor flexibility in use and cannot meet the needs of doctors for flexible operation. Therefore, doctors often wear the existing lead protective gloves with equal wall thickness

Method used

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  • Female die for manufacturing wall thickness-variable glove and glove manufactured through female die
  • Female die for manufacturing wall thickness-variable glove and glove manufactured through female die
  • Female die for manufacturing wall thickness-variable glove and glove manufactured through female die

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0045] As shown in the figure, the female mold includes a base, an arm, a palm, and a finger. The base, the arm, the palm, and the finger are sequentially connected to form a whole, and the arm and the palm adopt a hollow structure. The fingers include a thumb part, an index finger part, a middle finger part, a ring finger part and a little finger part.

[0046] The back of the palm is provided with a first groove, and the thumb, index finger, middle finger, ring finger, and little finger are respectively provided with a second groove on one side of the back of the palm, and the second groove is connected to the first groove. connected, the depths of the first groove and the second groove are respectively 0.3-1.5 mm. The area of ​​the second groove on the thumb part, the index finger part, the middle finger part, the ring finger part and the little finger part is 0.5 times the area of ​​the thumb part, the index finger part, the middle finger part, the ring finger part and the...

Embodiment 2

[0055] As shown in the figure, the female mold includes a base, an arm, a palm, and a finger. The base, the arm, the palm, and the finger are sequentially connected to form a whole, and the arm and the palm adopt a hollow structure. The fingers include a thumb part, an index finger part, a middle finger part, a ring finger part and a little finger part.

[0056] In this embodiment, the back of the palm is provided with a first groove, and the thumb and forefinger are respectively provided with a second groove on one side of the back of the palm, the second groove is connected with the first groove, and the first The depths of the groove and the second groove are respectively 0.3-1.5mm. Different from Embodiment 1, in this embodiment only the second groove is provided on the thumb part and the index finger part. The area of ​​the second groove on the thumb part and the forefinger part is 0.5 times the area of ​​the thumb part and the forefinger part on the side of the back of ...

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Abstract

The invention discloses a female die for manufacturing a wall thickness-variable glove and the glove manufactured through the female die, and aims at solving the problems that at present, existing equal-wall-thickness gloves for X-ray protection are manufactured through common dies in a dipping manner, and wall thickness-variable gloves cannot be manufactured. The female die of the wall thickness-variable glove comprises a base, an arm part, a palm part and finger parts. The base, the arm part, the palm part and the finger parts are sequentially connected. The palm part comprises a palm center part and a palm back part connected with the palm center part. The die can be adopted for effectively thickening the hand back part of the manufactured glove, and therefore flexibility of other parts of the glove is guaranteed on the premise of effectively protecting the hand back of a doctor, the characteristics of protection and use flexibility are both achieved effectively, and good application prospects are achieved. The female die can be used for manufacturing the wall thickness-variable glove, and therefore the hand back part of the glove is locally thickened, and the requirement for protection of the hand back of the doctor under the environment such as an interventional operation is met.

Description

technical field [0001] The invention relates to the field of protective appliances, in particular to the field of radiation protection products, in particular to a female mold for preparing variable-wall-thickness gloves and the prepared gloves. The present invention can be used to prepare protective gloves with variable wall thickness, especially X-ray protective gloves with variable wall thickness. The prepared gloves can be used to protect the dorsum of doctors' hands in interventional operations and orthopedic operations, and have a good protective effect and application prospects. Background technique [0002] The radiation protection rubber gloves used in the nuclear industry and nuclear medicine are equal-wall thickness gloves, which are usually prepared by general dipping in a general glove mold. In order to achieve a better protective effect, the gloves prepared by the overall dipping method of ordinary glove molds are usually relatively thick, which affects the do...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B29C41/40A41D19/04A41D19/015
CPCA41D19/0055A41D19/04B29C41/40B29C2791/002A41D2600/20B29K2105/0064B29L2031/4864B29L2031/757B29K2995/0092B29C33/56B29C41/14A61B42/10A61B2017/00526A41D19/0058
Inventor 张鹏程徐对功廖益传
Owner MATERIAL INST OF CHINA ACADEMY OF ENG PHYSICS
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