CN105643841A

CN105643841A - Production technology of metal energy-saving glove mold

Info

Publication number: CN105643841A
Application number: CN201610065032.9A
Authority: CN
Inventors: 张远柏; 尚景朕; 王森; 余显森; 成传柏
Original assignee: Dongguan Bai Mao Hardware Products Co Ltd
Current assignee: Shenzhen city in Europe Kexin Energy Technology Co. Ltd.
Priority date: 2016-01-29
Filing date: 2016-01-29
Publication date: 2016-06-08

Abstract

The invention discloses a production technology of a metal energy-saving glove mold. The production technology comprises the following steps: producing two sets of stamping and stretching steel molds according to two half-hand molds, wherein each set of the steel molds comprises an upper mold and a lower mold, and a clearance is reserved between each upper mold and the corresponding lower mold; placing a metal plate in a groove in each lower mold, fixing the lower mold on a stamping seat, fixing the correspondingupper mold on a stamping push rod, and pushing the stamping push rod downwards, so as to ensure that a mold core of theupper mold extends into the groove in the corresponding lower mold, themetal plate is stretched to deform and is clamped between the mold core of the upper mold and the groove in the corresponding lower mold, and a half-hand mold is formed; repeating the steps to form the other half-hand mold; fixing the two half-hand molds into a whole hand mold via welding or gluing; welding a bottom capable of being connected with a hand mold clamping head to the bottom of the hand mold; polishing the outer wall of the hand mold; and coating the inner surface as well as the outer surface of the hand mold with a ceramic coating. The metal energy-saving glove mold is simple to produce, light in weight, low in specific heat capacity and heat absorption, durable and low in energy consumption.

Description

A kind of metal energy-saving glove mould processing technology

Technical field:

The present invention relates to glove mould equipment technical field, more specifically to a kind of metal energy-saving glove mould processing technology.

Background technology:

Disposable PVC, latex, butyronitrile gloves, be the protection consumable goods of medical treatment, electronics, health etc. industry, and its consumption be huge. The method producing these glove is: first work it out the model of a hands with not only heat-resisting but also the material of heat conduction; Secondly the very thin glue of last layer (such as polrvinyl chloride) it is stained with on the surface of fingerprint; Then the fingerprint being stained with glue is put into and inside baking box, carry out baking of heating; Finally completing after plasticizing until the glue above fingerprint, taking off is exactly glove.

Producing the maximum cost of disposable rubber gloves to heat exactly baking, one is that baking time is long, and two to be that baking consumes the energy many. Whether glove mould absorbs heat soon, absorbs heat less, quick heating, be directly connected to the length of baking time with consume the energy number.

Current glove mould, makes of pottery. Ceramic hardness is high, cost is low, and the heat conductivility of ceramic hand-mold is excessively poor, causes that the energy consumption producing glove is high.

Summary of the invention:

It is an object of the invention to overcome the deficiencies in the prior art, it is provided that a kind of metal energy-saving glove mould processing technology, it makes simple, and lightweight, specific heat capacity is little, absorbs heat little, durable and energy-conservation.

This invention address that the scheme of described technical problem is:

A kind of metal energy-saving glove mould processing technology, comprises the following steps:

(1), according to the fingerprint of required making make by design fingerprint median plane centered by be divided into left and right two half of fingerprint, two secondary punching stretch punching blocks are made according to two and half fingerprint, every secondary punching block includes upper die and lower die, has gap between upper mould and counterdie; Wherein, described upper mould is punch, and it has downwardly convex core rod; Counterdie is die, and it has the groove corresponding with core rod;

(2), metallic plate is placed in the groove in the counterdie of every secondary punching block, counterdie is fixed on punching press seat, and upper mould is fixed on punching press push rod, pushed down on by punching press push rod, the core rod making mould stretches in the groove of counterdie so that metal sheet stretch deforms and is clamped between upper mould core and the groove of counterdie and forms half of hand model;

(3), the metallic plate edge redundance of two half of hand models of molding is cut removing;

(4), adopt the step of above 1 to 3 to repeat making and make another half of hand model;

(5) the half of hand model, by two made is by welding or gluing mode, one whole hands mould of fixing formation;

(6), by a bottom that can connect fingerprint chuck on the bottom welding of the fingerprint of step (5);

(7), polished in weld or the bonding part of fingerprint, remove weldering knot or unnecessary burr that bonding produces;

(8), the outer wall of fingerprint is carried out sanding and polishing and is respectively coated with one layer of ceramic coating inside and outside.

The composition of described metallic plate is, the aluminum of 85% to 99.9%, the silicon of 0.005% to 15%, 0.005% to 5% copper, the magnesium of 0.005-5%, 0.005-5% zinc.

The composition of described metallic plate is, be the magnesium of 85% to 99.9%, the aluminum of 0.005% to 10% and 0.005% to 8% zinc.

The composition of described metallic plate is, be the copper of 85% to 99.9%, the aluminum of 0.005% to 10% and 0.005% to 8% zinc.

The composition of described metallic plate is, be the nickel of 85% to 99.9%, the aluminum of 0.005% to 10% and 0.005% to 8% vitriol.

Described fingerprint thickness is less than 1.5mm, and its optimum thickness is less than or equal to 1mm.

The thickness of described ceramic coating is less than 0.05mm.

The prominent effect of the present invention is:

Compared with prior art, it makes simple, and lightweight, specific heat capacity is little, absorbs heat little, durable and energy-conservation.

Accompanying drawing illustrates:

Fig. 1 is the structural representation of the glove mould of the present invention;

Fig. 2 is the structural representation of half glove mould of the present invention;

Fig. 3 is the half glove mould producing principle of the present invention.

Detailed description of the invention:

Below in conjunction with accompanying drawing and concrete preferred embodiment, the present invention will be described in detail, so that advantages and features of the invention can be easier to be readily appreciated by one skilled in the art, these embodiments are only the purpose illustrated, it is no intended to the scope of the present invention is defined.

Embodiment, is shown in shown in Fig. 1 to Fig. 3, a kind of metal energy-saving glove mould processing technology, comprises the following steps:

(1), according to the fingerprint of required making make by design fingerprint median plane centered by be divided into left and right two half of fingerprint, two secondary punching stretch punching blocks are made according to two and half fingerprint, every secondary punching block includes mould 10 and counterdie 20, has gap 1 between upper mould 10 and counterdie 20; Wherein, described upper mould 10 is punch, and it has downwardly convex core rod; Counterdie 20 is die, and it has the groove corresponding with core rod;

(2), metallic plate is placed in the groove in the counterdie 20 of every secondary punching block, counterdie 20 is fixed on punching press seat, and upper mould 10 is fixed on punching press push rod 40, pushed down on by punching press push rod 40, the core rod making mould 10 stretches in the groove of counterdie 20 so that metal sheet stretch deforms and is clamped between core rod and the groove of counterdie 20 of upper mould 10 and forms half of hand model 100;

(3), the metallic plate edge redundance of two of molding half of hand models 100 is cut removing;

(4), adopt the step of above 1 to 3 to repeat making and make another half of hand model 100;

(5) the half of hand model 100, by two made is by welding or gluing mode, one whole fingerprint 200 of fixing formation;

(6), by a bottom 300 that can connect fingerprint chuck on the bottom welding of the fingerprint 200 of step (5);

(7), polished in weld or the bonding part of fingerprint 200, remove weldering knot or unnecessary burr that bonding produces;

(8), the outer wall of fingerprint 200 is carried out sanding and polishing and is respectively coated with one layer of ceramic coating inside and outside.

The thickness of described ceramic coating is less than 0.05mm.

In the present embodiment, the core rod of mould 10 on it, the groove of counterdie 20 and metallic plate are in heating environment to be processed, temperature in heating environment is between 180 DEG C to 600 DEG C, the thickness of this fingerprint body is less than 1.5mm, namely be fingerprint body thickness can be 1mm, 1.2mm, 0.5mm, 1.4mm etc., can more be actually needed and be adjusted; And coating layer thickness is less than 0.05mm, namely the thickness of coating 002 can be 0.01mm, 0.02mm, 0.03mm, 0.04mm etc., can more be actually needed and be adjusted;

And the material that fingerprint body adopts has four kinds:

The first aluminium sheet: the aluminum of 85% to 99.9%, the silicon of 0.005% to 15%, 0.005% to 5% copper, the magnesium of 0.005-5%, 0.005-5% zinc.

The second magnesium plate: the magnesium of 85% to 99.9%, the aluminum of 0.005% to 10% and 0.005% to 8% zinc.

The copper of the third copper coin 85% to 99.9%, 0.005% to 10% aluminum and 0.005% to 8% zinc. For nickel plate:

4th kind of nickel of nickel plate 85% to 99.9%, 0.005% to 10% aluminum and 0.005% to 8% vitriol.

Metallic plate is adopted to make hands mould, the intensity making fingerprint body is high and extremely durable, life-span is 3-8 times of ceramic hand-mold, can with as long as the several years, the ultra-thin setting less than 1.5mm of the fingerprint body thickness, the temperature rise making fingerprint body is exceedingly fast, programming rate is more than the twice of ceramic hand-mold, save the energy more than 50%, save the production time more than 30% simultaneously, and its weight is less than or equal to 600g, it is lightweight, its specific heat capacity is low, heat conduction is fast, thus reducing caloric receptivity, heat up very fast, in addition the surfaces externally and internally of metal fingerprint coats one layer of ceramic coating, not only can acid-alkali-corrosive-resisting, and ceramic coating can repeatedly be reprocessed again, it is substantially reduced the production cost of fingerprint.

Wherein the high-temperature resistant coating of ceramic coating is with inorganic silicon for bonding agent, carries out formulated with ceramics for powder, have high temperature resistant, adhesive force is strong, corrosion resistant feature.

Embodiment of above is merely to illustrate the present invention; and it is not limitation of the present invention; those of ordinary skill about technical field; without departing from the spirit and scope of the present invention; can also make a variety of changes and modification; therefore all equivalent technical schemes fall within scope of the invention, and the scope of patent protection of the present invention should be defined by the claims.

Claims

1. a metal energy-saving glove mould processing technology, it is characterised in that: comprise the following steps:

(1), according to the fingerprint of required making make by design fingerprint median plane centered by be divided into left and right two half of fingerprint, two secondary punching stretch punching blocks are made according to two and half fingerprint, every secondary punching block includes upper die and lower die, has gap between upper mould and counterdie;Wherein, described upper mould is punch, and it has downwardly convex core rod; Counterdie is die, and it has the groove corresponding with core rod;

2. a kind of metal energy-saving glove mould processing technology according to claim 1, it is characterized in that: the composition of described metallic plate is, the aluminum of 85% to 99.9%, the silicon of 0.005% to 15%, 0.005% to 5% copper, the magnesium of 0.005-5%, 0.005-5% zinc.

3. a kind of metal energy-saving glove mould processing technology according to claim 1, it is characterised in that: the composition of described metallic plate is, be the magnesium of 85% to 99.9%, the aluminum of 0.005% to 10% and 0.005% to 8% zinc.

4. a kind of metal energy-saving glove mould processing technology according to claim 1, it is characterised in that: the composition of described metallic plate is, be the copper of 85% to 99.9%, the aluminum of 0.005% to 10% and 0.005% to 8% zinc.

5. a kind of metal energy-saving glove mould processing technology according to claim 1, it is characterised in that: the composition of described metallic plate is, be the nickel of 85% to 99.9%, the aluminum of 0.005% to 10% and 0.005% to 8% vitriol.

6. a kind of metal energy-saving glove mould processing technology according to claim 1, it is characterised in that: described fingerprint thickness is less than 1.5mm, and its optimum thickness is less than or equal to 1mm.

7. a kind of metal energy-saving glove mould processing technology according to claim 1, it is characterised in that: the thickness of described ceramic coating is less than 0.05mm.