CN105520260A

CN105520260A - Corrosion-prevention high-temperature-resistant boosts used in high-risk chemical sites and manufacturing method therefor

Info

Publication number: CN105520260A
Application number: CN201610035003.8A
Authority: CN
Inventors: 杨忠桃
Original assignee: Individual
Current assignee: Haina Security Technology Zhejiang Co ltd
Priority date: 2016-01-19
Filing date: 2016-01-19
Publication date: 2016-04-27
Anticipated expiration: 2036-01-19
Also published as: CN105520260B

Abstract

The invention discloses a pair of corrosion-prevention high-temperature-resistant boosts used in high-risk chemical sites. Each boot comprises a boot body and a sole arranged below the boot body, wherein the sole is formed by enabling a corrosion-prevention surface layer to be adhered to corrosion-prevention rubber, wherein the corrosion-prevention surface layer is formed by a polytetrafluoroethylene fiber crossed net in a laying manner; the corrosion-prevention surface layer is adhered to the corrosion-prevention rubber through polypropylene fiber corrosion-prevention adhesive; flange structures that are made from ceramics and are configured at equal intervals are arranged on the lower end plane of the sole; the flange structures penetrate through the corrosion-prevention surface layer and the polypropylene fiber corrosion-prevention adhesive, and are fixedly connected with the corrosion-prevention rubber; a cavity is formed in one side, facing to the sole, of the boot body; and messaging bumps that are configured at equal intervals are arranged in the cavity. According to the corrosion-prevention high-temperature-resistant boosts, the boot body and the sole are connected through a buckle; the sole can be detached in necessary so as to avoid inconvenience in walking when the sole is adhered to chemical raw materials; and meanwhile, due to the flange structures made from ceramics, an effect of abrasion resistance and thermal insulation is achieved, and the safety of the structure is improved.

Description

A kind of high-risk chemical industry place corrosion-resistant high-temperature boots and preparation method thereof

Technical field

The present invention relates to a kind of high-risk chemical industry place corrosion-resistant high-temperature boots and preparation method thereof.

Background technology

When there is leakage or fire in high-risk chemical industry place; raw material is easily caused to leak; when raw material occurs to leak; existing boots when walking, is easily bonded on industrial chemicals, causes difficulty in walking; simultaneously; easily there is high temperataure phenomena in chemical plant raw material, causes footwear boots seriously corroded, there is potential safety hazard.

Summary of the invention

The object of the present invention is to provide a kind of high-risk chemical industry place corrosion-resistant high-temperature boots and preparation method thereof; prior art Problems existing can be improved; boots body and sole is connected by adopting buckle; can sole can be avoided to be bonded in shoe sole when needed industrial chemicals causes handicapped; flanged structure simultaneously by adopting pottery to make can play the effect of Wear-resistant heat insulation, improves the security of structure.

The present invention is achieved through the following technical solutions:

A kind of high-risk chemical industry place corrosion-resistant high-temperature boots, the sole comprising boots body and be arranged on below boots body, described sole is that polytetrafluoroethylene fibre intersects the anticorrosion surface layer that net laying formed and is bonded on antiseptic rubber and formed, be bonded on described antiseptic rubber at described anticorrosion surface layer by polypropylene fibre dope, the flanged structure that the pottery of arranging at equal intervals is made is provided with in described sole lower surface, described flanged structure runs through described anticorrosion surface layer and described polypropylene fibre dope and is fixedly connected on described antiseptic rubber, at described boots body, described sole side is provided with cavity, the massage of arranging at equal intervals is provided with protruding in described cavity, the free end face of described massage projection is to described boots body upper end, polypropylene fibre dope is filled with in space between adjacent described massage projection, described cavity inner top side face is provided with air bag, metal net layer is provided with between described air bag and the upper surface of described massage projection, described metal net layer is bonded in described air bag lower end surface by high temperature resistant binder, described boots body with described antiseptic rubber outside side wall are respectively arranged with the corresponding blind hole be intervally arranged in position, buckle is provided with in described blind hole, the upper and lower two ends of described buckle are connected to respectively in the described boots body blind hole corresponding with position on described antiseptic rubber and make described antiseptic rubber upper surface be fitted on the lower surface of described boots body, described boots body lower end sidewall is provided with refractory ceramics layer, cavity is provided with in the middle part of described refractory ceramics layer, described blind hole is positioned on the outside side wall of described refractory ceramics layer.

Further, for realizing the present invention better, described boots body lower end outer wall is provided with the shrinkage pool of arranging at equal intervals, described refractory ceramics aspect is provided with locating flange to described boots body sidewall side, described locating flange is corresponding with described shrinkage pool quantity and position, and described locating flange can be embedded in described shrinkage pool.

Further, for realizing the present invention better, between described refractory ceramics layer and described boots body sidewall, be provided with high temperature resistant bonding oxidant layer, described refractory ceramics layer is bonded on described boots body by high temperature resistant binder.

Further, for realizing the present invention better, the lower surface of described metal net layer is provided with the separation layer that PSA fiber intersection net laying is formed, described separation layer is bonded on the protruding upper surface of described massage by polypropylene fibre antiseptic rubber.

Further, for realizing the present invention better, the invention also discloses the preparation method of a kind of high-risk chemical industry place corrosion-resistant high-temperature boots, comprising the following steps:

S1: make footwear sole construction, comprise the following steps:

S1.1: arrange blind hole structure in the lower surface of antiseptic rubber, is bonded in blind hole structure by flanged structure by high temperature resistant binder;

S1.2: spray coating polypropylene fiber dope on the lower surface of antiseptic rubber, and anticorrosion surface layer is bonded on polypropylene fibre dope, make its secure bond;

S2: make boots body construction, comprise the following steps:

S2.1: processing boots body, and at bottom part down bonding air bag, binding metal stratum reticulare on air bag lower surface;

S2.2: below boots body, bonding massage is protruding, and at massage lobed interior filled polypropylene fiber dope, make to form cavity between the protruding outer ledge of massage and boots body lower surface, make the upper surface of massage projection be positioned at below metal net layer;

S3: install buckle, boots body and sole are interconnected by buckle;

S4: bonding refractory ceramics layer, boots body and antiseptic rubber sidewall arranges blind hole respectively, is that the refractory ceramics layer of hollow structure is bonded on boots body and antiseptic rubber sidewall, makes it firmly connect by middle part.

The present invention compared with prior art, has following beneficial effect:

(1) the present invention is by adopting buckle connected shoe soles and boots body construction, can determine whether as required footwear sole construction is installed, thus footwear sole construction can not be installed under conventional sense, the cavity utilizing boots body bottom portion to arrange, realizes the buffering of the active force on sole and ground, and when needed, sole site can be arranged on boots body, boots body bottom portion thickness is increased, chemicals attack foot can be avoided, improve overall security;

(2) the present invention is by arranging massage bulge-structure, the effect that sole is massaged can be played, the bending property of boots body bottom portion can be improved simultaneously, it is made to wear more comfortable, adopt the airbag structure of side disposed thereon simultaneously, the effect of massage and uniform force better can be played, improve the comfortableness of boots body bottom portion;

(3) flanged structure of the present invention by adopting pottery to make bottom, sole integrated support can be got up, the direct kiss the earth of footwear sole construction is avoided to cause wearing and tearing, simultaneously, there is massage effect, and there is wear-resisting antiskid effect, simultaneously, because pottery has good corrosion resistance, integrally-built corrosion resistance can be improved;

(4) the present invention is by arranging refractory ceramics layer, can protect boots body from the side, avoid side to be corroded by industrial chemicals, can improve the security of boots body bottom portion.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, be briefly described to the accompanying drawing used required in embodiment below, be to be understood that, the following drawings illustrate only some embodiment of the present invention, therefore the restriction to scope should be counted as, for those of ordinary skill in the art, under the prerequisite not paying creative work, other relevant accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is overall structure schematic diagram of the present invention.

Wherein: 101. soles, 102. flanged structures, 103. cavitys, 104. massages are protruding, 105. air bags, 106. metal net layers, 107. buckles, 108. refractory ceramics layers, 109. locating flanges, 110. separation layers.

Detailed description of the invention

Below in conjunction with specific embodiment, the present invention is described in further detail, but embodiments of the present invention are not limited thereto.

Embodiment 1:

As shown in Figure 1, a kind of high-risk chemical industry place corrosion-resistant high-temperature boots, comprise boots body and be arranged on the sole 101 below boots body, the anticorrosion surface layer that described sole 101 is the formation of polytetrafluoroethylene fibre intersection net laying is bonded on antiseptic rubber and is formed, be bonded on described antiseptic rubber at described anticorrosion surface layer by polypropylene fibre dope, the flanged structure 102 that the pottery of arranging at equal intervals is made is provided with in described sole 101 lower surface, described flanged structure 102 runs through described anticorrosion surface layer and described polypropylene fibre dope and is fixedly connected on described antiseptic rubber, at described boots body, described sole 101 side is provided with cavity 103, the massage projection 104 of arranging at equal intervals is provided with in described cavity 103, the free end face of described massage projection 104 is to described boots body upper end, polypropylene fibre dope is filled with in space between adjacent described massage projection 104, described cavity inner top side face is provided with air bag 105, metal net layer 106 is provided with between described air bag 105 and the upper surface of described massage projection 104, described metal net layer 106 is bonded in described air bag 105 lower end surface by high temperature resistant binder, described boots body with described antiseptic rubber outside side wall are respectively arranged with the corresponding blind hole be intervally arranged in position, buckle 107 is provided with in described blind hole, described buckle about 107 two ends are connected to respectively in the described boots body blind hole corresponding with position on described antiseptic rubber and make described antiseptic rubber upper surface be fitted on the lower surface of described boots body, described boots body lower end sidewall is provided with refractory ceramics layer 108, cavity is provided with in the middle part of described refractory ceramics layer 108, described blind hole is positioned on the outside side wall of described refractory ceramics layer 108.

The present invention is by adopting buckle connected shoe soles and boots body construction, can determine whether as required footwear sole construction is installed, thus footwear sole construction can not be installed under conventional sense, the cavity utilizing boots body bottom portion to arrange, realizes the buffering of the active force on sole and ground, and when needed, sole site can be arranged on boots body, boots body bottom portion thickness is increased, chemicals attack foot can be avoided, improve overall security; The present invention is by arranging massage bulge-structure, the effect that sole is massaged can be played, the bending property of boots body bottom portion can be improved simultaneously, it is made to wear more comfortable, adopt the airbag structure of side disposed thereon simultaneously, the effect of massage and uniform force better can be played, improve the comfortableness of boots body bottom portion; The flanged structure of the present invention by adopting pottery to make bottom, sole integrated support can be got up, the direct kiss the earth of footwear sole construction is avoided to cause wearing and tearing, simultaneously, there is massage effect, and there is wear-resisting antiskid effect, simultaneously, because pottery has good corrosion resistance, integrally-built corrosion resistance can be improved; The present invention, by arranging refractory ceramics layer, can protect boots body from the side, avoid side to be corroded by industrial chemicals, can improve the security of boots body bottom portion.

In the present embodiment, the conveniently installation of refractory ceramics layer, preferably, described boots body lower end outer wall is provided with the shrinkage pool of arranging at equal intervals, described refractory ceramics layer 108 is provided with locating flange 109 towards described boots body sidewall side, described locating flange 109 is corresponding with described shrinkage pool quantity and position, and described locating flange 109 can be embedded in described shrinkage pool.

In order to improve the fastness bondd between refractory ceramics layer and boots body, in the present embodiment, preferably, between described refractory ceramics layer 108 and described boots body sidewall, be provided with high temperature resistant bonding oxidant layer, described refractory ceramics layer 108 is bonded on described boots body by high temperature resistant binder.

In order to improve the anti-puncture performance of boots body bottom portion structure, in the present embodiment, preferably, the lower surface of described metal net layer 106 is provided with the separation layer 110 that PSA fiber intersection net laying is formed, and described separation layer is bonded on protruding 104 upper surfaces of described massage by polypropylene fibre antiseptic rubber.

Embodiment 2:

The present embodiment, on the basis of embodiment 1, the invention also discloses the preparation method of a kind of high-risk chemical industry place corrosion-resistant high-temperature boots, it is characterized in that: comprise the following steps:

S1: make footwear sole construction, comprise the following steps:

S1.1: arrange blind hole structure in the lower surface of antiseptic rubber, is bonded in blind hole structure by flanged structure 102 by high temperature resistant binder;

S2: make boots body construction, comprise the following steps:

S2.1: processing boots body, and at bottom part down bonding air bag 105, binding metal stratum reticulare 106 on air bag 105 lower surface;

S2.2: bonding massage protruding 104 below boots body, and at the protruding 104 inner filled polypropylene fiber dopes of massage, make to form cavity 103 between protruding 104 outer ledges of massage and boots body lower surface, make the upper surface of massage projection 104 be positioned at below metal net layer 106;

S3: install buckle 107, boots body and sole 101 are interconnected by buckle;

S4: bonding refractory ceramics layer 108, boots body and antiseptic rubber sidewall arranges blind hole respectively, is that the refractory ceramics layer 108 of hollow structure is bonded on boots body and antiseptic rubber sidewall, makes it firmly connect by middle part.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. high-risk chemical industry place corrosion-resistant high-temperature boots, it is characterized in that: comprise boots body and be arranged on the sole (101) below boots body, the anticorrosion surface layer that described sole (101) is the formation of polytetrafluoroethylene fibre intersection net laying is bonded on antiseptic rubber and is formed, be bonded on described antiseptic rubber at described anticorrosion surface layer by polypropylene fibre dope, the flanged structure (102) that the pottery of arranging at equal intervals is made is provided with in described sole (101) lower surface, described flanged structure (102) runs through described anticorrosion surface layer and described polypropylene fibre dope and is fixedly connected on described antiseptic rubber, at described boots body, described sole (101) side is provided with cavity (103), the massage projection (104) of arranging at equal intervals is provided with in described cavity (103), the free end face of described massage projection (104) is to described boots body upper end, polypropylene fibre dope is filled with in space between adjacent described massage projection (104), described cavity inner top side face is provided with air bag (105), metal net layer (106) is provided with between described air bag (105) and the upper surface of described massage projection (104), described metal net layer (106) is bonded in described air bag (105) lower end surface by high temperature resistant binder, described boots body with described antiseptic rubber outside side wall are respectively arranged with the corresponding blind hole be intervally arranged in position, buckle (107) is provided with in described blind hole, the upper and lower two ends of described buckle (107) are connected to respectively in the described boots body blind hole corresponding with position on described antiseptic rubber and make described antiseptic rubber upper surface be fitted on the lower surface of described boots body, described boots body lower end sidewall is provided with refractory ceramics layer (108), described refractory ceramics layer (108) middle part is provided with cavity, described blind hole is positioned on the outside side wall of described refractory ceramics layer (108).

2. one according to claim 1 high-risk chemical industry place corrosion-resistant high-temperature boots; it is characterized in that: on described boots body lower end outer wall, be provided with the shrinkage pool of arranging at equal intervals; described refractory ceramics layer (108) is provided with locating flange (109) towards described boots body sidewall side; described locating flange (109) is corresponding with described shrinkage pool quantity and position, and described locating flange (109) can be embedded in described shrinkage pool.

3. one according to claim 1 high-risk chemical industry place corrosion-resistant high-temperature boots; it is characterized in that: between described refractory ceramics layer (108) and described boots body sidewall, be provided with high temperature resistant bonding oxidant layer, described refractory ceramics layer (108) is bonded on described boots body by high temperature resistant binder.

4. one according to claim 1 high-risk chemical industry place corrosion-resistant high-temperature boots; it is characterized in that: on the lower surface of described metal net layer (106), be provided with the separation layer (110) that PSA fiber intersection net laying is formed, described separation layer is bonded on described massage projection (104) upper surface by polypropylene fibre antiseptic rubber.

5. a preparation method for high-risk chemical industry place corrosion-resistant high-temperature boots, is characterized in that: comprise the following steps:

S1: make footwear sole construction, comprise the following steps:

S1.1: arrange blind hole structure in the lower surface of antiseptic rubber, is bonded in blind hole structure by flanged structure (102) by high temperature resistant binder;

S2: make boots body construction, comprise the following steps:

S2.1: processing boots body, and at bottom part down bonding air bag (105), binding metal stratum reticulare (106) on air bag (105) lower surface;

S2.2: bonding massage protruding (104) below boots body, and at protruding (104) the inner filled polypropylene fiber dope of massage, make to form cavity (103) between massage projection (104) outer ledge and boots body lower surface, make the upper surface of massage projection (104) be positioned at metal net layer (106) below;

S3: install buckle (107), boots body and sole (101) are interconnected by buckle;

S4: bonding refractory ceramics layer (108), boots body and antiseptic rubber sidewall arranges blind hole respectively, is that the refractory ceramics layer (108) of hollow structure is bonded on boots body and antiseptic rubber sidewall, makes it firmly connect by middle part.