KR101709949B1 - Expansion absorbing member May prevent freezing for Water meters cubage - Google Patents

Abstract

The present invention relates to a volume expanding absorbent member for preventing the water meter from being frozen by forming a tubular implant, a barrier cover member and an oxidation preventive cover member in a triple structure to satisfy various requirements required in the process of volume expansion absorption in a meter And to improve the quality stability and the use stability by suppressing oxidation of the barrier cover member.
In order to accomplish the above object, the present invention provides a barrier type cover body comprising a barrier layer for blocking water and gas, a resin layer laminated on the barrier layer, and a tubular implant filled with compressed air, And a thermally fused portion formed on an inner circumferential surface of the peripheral covering member, wherein the thermally fusible portion is formed on the inner circumferential surface of the peripheral covering member, And the body is disposed outwardly of the barrier cover body to be joint-molded.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a volume expanding absorbent member for preventing freezing of a water meter,

The present invention relates to a volume expanding absorbent member for preventing the water meter from being frozen by forming a tubular implant, a barrier cover member and an oxidation preventive cover member in a triple structure to satisfy various requirements required in the process of volume expansion absorption in a meter And to improve the quality stability and the use stability by suppressing oxidation of the barrier cover member.

Water meters for measuring the amount of tap water are frequently encountered in cold weather such as winter, causing economic loss due to repair and replacement as well as social problems. In order to solve this problem, A technique such as the registration No. 0582755 has been proposed.

The above-mentioned prior art is a method of manufacturing a thermoplastic resin-based polyurethane film by pressurizing the inside of the polyurethane film to form a tube-type air bag, and then installing it in the meter, absorbing the volume expansion caused by the water turning into ice, Or polyurethane film as a single base material, it is preferable that the film is made of a single base material. Therefore, it is preferable that the film has good heat resistance / abrasion resistance / chemical resistance / elasticity / heat sealing strength / It is difficult to maintain the designed volume because the pressurized compressed air flows out rapidly due to the influence of the moisture permeation and swelling and this volume change acts as a factor which hinders the elastic restoration efficiency in repeated compression and expansion processes, Because the expanded volume can not be absorbed immediately, It can not be resolved.

Thus, it satisfies all the characteristics required as a tubular volume expanding absorbent member and efficiently absorbs the expanded volume in the meter at all times without being influenced by moisture permeation, swelling, or softening phenomenon that may occur during continuous contact with tap water, Patent No. 10-1357153, which can fundamentally solve the problem, has been proposed.

The volume expansion absorbing member T of the present applicant who was registered and registered as the above-mentioned applicant has a barrier layer (a) based on an aluminum foil having excellent moisture-proofing property and gas barrier property as shown in Fig. 1, A tubular implant 200 composed of a composite laminate type thermoplastic resin material is doubly joined and a barrier cover 100 made of a layer (b) and a layer (c) is combined with an inner circumferential surface (Ta) is formed in the inner space and the compressed air is filled in the inner space. Thus, the volume expansion due to the moisture permeation. The swelling and softening phenomenon of the absorbing member completely blocks the pressurized air leakage, It was absorbed immediately, and it was prevented efficiently the wave of the meter.

However, the aluminum foil surface adopted as the base material of the barrier layer has a means for delaying or suppressing the acceleration of oxidation in the state where dissolved oxygen contained in tap water can not be excluded from the possibility of oxidation due to a chemical reaction, And it is not possible to guarantee the stability of tap water use.

For example, a thermoplastic resin (resin layer) in a molten state is extrusion-coated on one side or both sides of an aluminum foil (barrier layer) to form a multilayer composite film and then molded into various shapes to produce a barrier cover. The layer (a) and the resin layer (b) (c) are tightly fused together in a single body so that dissolved oxygen and moisture permeated into the resin layer immediately contact the surface of the aluminum foil, c), it is difficult to suppress the acceleration of the oxidation of the surface of the aluminum foil by promoting the chemical reaction, and the oxidation product is easily introduced into the tap water through the pores of the resin layer, There is also a high possibility of inflow, which can not guarantee the safety of using tap water.

Particularly, permeation of moisture from the outer cut surface 101, which is a fragile portion of the barrier cover member 100, can be promoted to accelerate the oxidation of the aluminum foil, and the thermal fusion portion serves as an oxidant- Water pollution due to influx can be caused.

The aluminum content of tap water is determined to be less than 0.2 mg per liter, and even if aluminum enters the body, 99% is released as it is. However, if it is exposed to aluminum for a long period of time, , It is necessary to provide an alternative to enhance the stability of the volumetric expansion absorber.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a multi-functional composite film type tubular prosthesis having excellent resilience and resilience as a result of compression and expansion, a composite film type barrier cover having excellent moisture- And the aluminum foil oxidation suppressing cover body are combined and used as a water vapor volume expanding absorber to satisfy all of the required characteristics required in the volume expansion absorption process and at the same time to suppress the formation of harmful aluminum foil oxidant and to prevent the influx of tap water To prevent water contamination due to the volume expansion absorbing member.

The cover for antioxidation according to the present invention is manufactured in the form of a pocket suitable for wrapping the outer cut surface which is a fragile portion of the barrier cover body and is combined and molded. The contact time and the amount of contact between the dissolved oxygen and the aluminum foil are dispersed during the water vapor permeation of the tap water, and the contact persistence is remarkably reduced to suppress the acceleration of the oxidation. Even if a trace amount of oxide is generated, In addition, it is another purpose to further improve the stability of use of the volume expansion absorbing member, since it is prevented as much as possible from flowing into the tap water.

The present invention protects the entire surface of the barrier cover including the folded portion formed with the tubular implant and the folded portion formed by the combined molding process with the oxidation inhibiting cover to minimize the physical damage during the fitting process or storage and transportation of the meter to improve the quality stability and durability The present invention has another object to further improve the efficiency of inhibiting the occurrence of oxidation and preventing leakage.

In order to achieve the object of the present invention, a barrier type cover body composed of a barrier layer for blocking water and gas, a resin layer laminated on the barrier layer, and a tubular implant filled with compressed air are double- And a thermally fused portion formed on an inner circumferential surface of the outer circumferential wall and the central fitting ball, characterized in that it is characterized in that it is provided with an anti-oxidation coating for wrapping the entire surface including the outer cut surface of the barrier cover body, And the cover body is disposed outwardly of the barrier cover body to be joint-molded.

The present invention is characterized in that a machining portion is formed on the inner circumferential surface of the cover body so as not to stick to the outer surface of the barrier cover body, and the machining portion is formed of any one of embossing, irregularity and irregular waving.

The present invention is characterized in that the barrier cover member and the oxidation preventing cover member are spaced from each other by an interval of about 0.2 to 0.8 mm through a closed space portion formed from the oxidation preventing cover member.

The present invention relates to a method of forming a barrier film of a composite film in which a barrier film is formed by cutting two barrier type cover bodies of a composite film type in which a barrier layer and a thermoplastic resin layer are formed on an aluminum foil base, Step 1; A second step of thermally fusing a pair of film-type thermoplastic resins to form a tubular implant having a fusion-bonded portion, an air inlet, and an insertion hole, then pressurizing and sealing the air inside; A third step of inserting the tubular prosthesis filled with pressurized air into the inside of the barrier cover body and then removing the air between the barrier cover body and the tubular prosthesis in a vacuum state and then fusing and sealing the opening portion of the barrier cover body; And a fourth step of thermally fusing and puncturing the center of the tubular body and the barrier cover body through the third step to form a fitting hole, the method comprising the steps of:

Wherein the oxidation-preventing cover body is formed by thermally fusing a pair of film-type thermoplastic resin bodies to one side of the volume expanding absorbent member, A step of molding the openings in the open pocket and a step of thermally fusing and sealing the open portion after removing the remaining air outside the necessary air for forming the closed space portion having a uniform clearance by inserting the volume expansion absorbing member of the double bond And a thermally fusing and perforating step for forming a fitting hole at the center is performed to provide a volume expansion absorbing member of a triple bonded structure.

According to the present invention, by additionally bonding and forming an oxidation-preventing cover member on a volume expansion absorbing member made of a tubular implant and a barrier cover member, it is possible to prevent the chemical expansion between the aluminum foil of the barrier cover member and the dissolved oxygen in the tap water during the process of using the volume expansion absorbing member The occurrence of oxidation due to the reaction is suppressed as much as possible and the quality stability is improved and the water pollution due to the discharge of aluminum oxide is fundamentally prevented so that the stability of the volume expansion absorbing member is further improved.

In addition, it is possible to effectively prevent oxidation promotion of aluminum foil by blocking the physical damage of the barrier cover body during the installation process in the volume expanding absorber meter and during the transportation and storage.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an illustration for explaining the prior art of a volume expansion absorbing member
2 is a cross-sectional view of a volume expansion absorber according to a preferred embodiment of the present invention;
FIG. 3 is a process diagram for manufacturing the volume expansion absorbing member according to the present invention, and is intended to explain the manufacturing process of the tubular implant and the barrier cover member.
FIG. 4 is a process diagram for each step of manufacturing a volume expansion absorbing member according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way The present invention should be construed in accordance with the principles and the meaning and concept consistent with the technical idea of the present invention.

It is also to be understood that the specific structure or functional description is illustrative only for the purpose of illustrating an embodiment consistent with the concept of the present invention and that the embodiments according to the concept of the present invention may be embodied in various forms, It should not be construed as being limited to examples.

Hereinafter, a configuration and a manufacturing method of a volumetric expansion absorbing member for preventing the water meter from being frozen will be described in detail with reference to the accompanying drawings.

FIG. 2 is a cross-sectional view of a volume expansion absorbing member according to a preferred embodiment of the present invention, and T is a volume expansion absorbing member disposed inside a water meter.

The volume expansion absorbing member T in the illustrated embodiment is a tubular shape like a donut or a U-shaped horseshoe, and is formed along the periphery of the outer circumference and around the inner peripheral surface of the central fitting hole Tb (the hole into which the metering impeller shaft is inserted) (B) composed of a barrier layer (a) for blocking water and a gas and a resin layer (b) (c) laminated on the barrier layer, wherein pressure (Ta) The cover body 200 and the tube-shaped implant 100 made of a thermoplastic resin and the oxidation-preventing cover body 300 are combined and formed in a triple structure. The oxidation-preventing cover body 300 is formed of a volume expansion absorbing member T And the barrier cover 200 is disposed on the intermediate layer and the tubular implant 100 is disposed on the inner side of the barrier cover.

In the above embodiment, the barrier cover 200 is composed of a composite laminated structure in which a barrier layer (a) for blocking water and oxygen and a resin layer (b) (c) (B) composed of a thermoplastic resin and having a thickness of 6 to 12 탆 which is excellent in moisture resistance and gas barrier properties and is effective for effectively preventing swelling and softening phenomenon that may occur during contact with water, (c) is laminated in order to provide elasticity and thermal adhesiveness while protecting the aluminum foil to maintain structural stability and to compensate other properties to be possessed by the volume expansion absorbing member in addition to moisture-proof property and gas barrier property.

The resin layer (b) (c) of the barrier cover body is formed of a thermoplastic resin such as polyolefin, polyester, polystyrene, polyvinyl chloride, polycarbonate, polyamide, polyurethane, ethylene / vinyl alcohol copolymer, polyvinylidene chloride Or a combination of two or more selected from the group consisting of the barrier layer aluminum foil base material and the barrier layer aluminum foil base material, or both layers of the same or different types of thermoplastic resin materials can be laminated in a single layer or in multiple layers.

The barrier coating body having the above-described structure can be produced by laminating the barrier layer (a) and the resin layer (b) (c) in the form of a film and then using an adhesive, or by laminating the resin layer on one side of the barrier layer And then bonding them by extrusion coating to form a single body.

The tubular implant 100 of the above embodiment provides overall shape retention and resiliency of the volume expandable absorbent member T to substantially absorb the expanding volume in the meter and to provide a barrier to completely block water permeability and gas permeation Layered or multi-layered laminate using a thermoplastic resin to form a composite film, and then the laminate is coated with a donut Shaped horseshoe-shaped tube. In the molding process, the air inlet 101, the heat-sealed portion 102 and the fitting hole 103 are formed at one side, and the compressed air 104 is pressurized and filled will be.

The tubular implant 100 may be formed of any one selected from the group consisting of a polyolefin, a polyester, a polystyrene, a polyvinyl chloride, a polycarbonate, a polyamide, a polyurethane, an ethylene / vinyl alcohol copolymer and a polyvinylidene chloride as a thermoplastic resin These thermoplastic resins may be used alone or in combination of two or more, and if necessary, homogeneous or heterogeneous thermoplastic resins may be laminated in a single layer or in multiple layers.

The tubular implants having the above-described structure are manufactured by molding a thermoplastic resin in a molten state into a single-layered multi-layer composite film using a coextrusion lamination device in which a plurality of extruders and a circle die are combined, and finally molding is completed.

The cover for oxidation suppression according to the present embodiment is a substrate made of a thermoplastic resin of the (300) film type, which is made of polyolefin-based low density polyethylene, medium density polyethylene, ultra low density polyethylene, linear low density polyethylene, metallocene low density polyethylene, There may be mentioned polyethylene, polypropylene, lead-free polypropylene, ethylene-propylene rubber, ethylene-vinyl acetate copolymer, ethylene-acrylic acid ester copolymer, ionomer, polyester-based polyethylene terephthalate, Polystyrene, polystyrene, impact resistant polystyrene, styrene / butadiene / styrene / block copolymer, polyvinyl chloride hard / soft polyvinyl chloride, polycarbonate, polyamide, polyurethane, ethylene / vinyl alcohol copolymer, polyvinyl chloride Made of liden Or a combination of two or more thereof. If necessary, the homogeneous or heterogeneous thermoplastic resin may be laminated in a single layer or a multilayer. In addition, it is preferable that the thermoplastic resin is non-toxic and does not generate an environmental hormone and is excellent in abrasion resistance, durability, (PUR) resin excellent in sealing property, waterproof property and the like.

The oxidation-preventing cover member 300 of the above example is a component that is disposed outside the barrier cover member 200 to be bonded and formed. The cover member 300 surrounds the entire surface including the outer cut surface d of the barrier cover member, The space portion 301 is formed to disperse the contact time and the contact amount between the dissolved oxygen and the aluminum foil at the time of moisture permeation of the tap water and the contact persistence is remarkably lowered to suppress the oxidation acceleration and even if a small amount of oxide is generated, So that it is prevented from flowing into tap water as much as possible under the influence of the moisture permeable pressure.

More specifically, the oxygen-inhibiting cover member 300 serving as a shielding membrane is uniformly dispersed in the closed space portion 301 in which the dissolved oxygen including water that has passed slowly over a long period of time is spread evenly, so that the moisture permeation efficiency (B) (c) of the barrier cover member 200 after a rapid damping of the aluminum foil surface (a) and the final barrier layer The contact amount and time between the dissolved oxygen and the aluminum foil are delayed as much as possible, and the contact continuity is significantly reduced, thereby effectively suppressing the aluminum foil oxidation reaction rate.

In addition, even if a very small amount of oxide is generated on the surface of the aluminum foil over a long period of time, most of the resin layer (b) (c) and the closed space 301 are dispersed and sealed, Water pollution due to the use of the expansion absorbing member (T) is prevented, and the aluminum content in the tap water can be managed and maintained within the reference value range (0.2 mg / l), thereby further improving the stability of use.

Further, in the process of bonding and forming the oxidation preventing cover member 300 to the outside of the barrier cover member, a clearance of about 0.2 to 0.8 mm is formed between the barrier cover member 200 and the oxidation preventing cover member 300 And the remaining air is removed by leaving the necessary air for dispersing the dissolved oxygen and the oxidized product. The inner circumferential surface of the cover for inhibiting oxidation is processed by embossing, machining such as irregular or irregular wool The cover 302 is formed so that the oxidation preventing cover member 300 is adsorbed to the outer surface of the barrier cover 200 according to the moisture permeation effect to prevent the loss of the space and the function of the closed space 301 from deteriorating.

The following description will be made with reference to FIGS. 3 and 4 in order to examine a manufacturing process of a volume expansion absorbing member having a triple bonded structure.

Two composite film-like barrier covering bodies 200 laminated with the barrier layer (a) and the thermoplastic resin layer (b) (c), which are made of aluminum foil as a base, are first cut to a predetermined size, (A) and a thermoplastic resin layer (b), which are made of an aluminum foil as a base material, for blocking moisture permeation and gas permeation, (b) and (c) are extruded and coated on an aluminum foil (barrier layer: a) by laminating the aluminum foil (a) A composite film type barrier covering body 200 is formed by using one processing method.

At this time, the resin layer (b) (c) laminated on the barrier layer (a) is formed on one side or both sides of the barrier layer, and if necessary, a resin material of the same kind or a different kind of resin material is laminated in a single layer or a multilayer .

Then, a pair of composite film type thermoplastic resin materials are thermally fused to form a tubular implant 100 having a fusion portion 102, an air inlet 101 and an insertion hole 103, And a second step (P2) of fusing and sealing the final open portion is performed.

That is, the tubular prosthesis 100 is formed by molding a thermoplastic resin material in a molten state into a single-layered multilayer composite film using a coextrusion lamination apparatus combined with a plurality of extruders and a circle die, The two airtight hoses are overlapped with each other and processed into a donut or U-shaped horseshoe shape having an air inlet 101, a thermally fused portion 102 and a fitting hole 103 formed on one side by high frequency welding or heat fusion, And then air-tightly sealing the air-tightly.

Thereafter, a tubular implant 100 filled with pressurized air is inserted into the barrier cover 200 to remove air between the barrier cover 200 and the tubular prosthesis 100 in a vacuum state, A third step P3 of fusing and sealing a portion of the tubular body is performed, and the center of the tubular body and the barrier cover body which is continuously joined is thermally fused and perforated to form a fitting hole 202 for receiving the impeller shaft (drive shaft) (P4) are sequentially performed to complete the manufacture of the double-structure, volume expansion absorbing member.

After the above-described double-structure volumetric expansion absorbing member is formed, the oxidation-preventing cover member 300 is further finally combined and molded to complete the manufacture of the volume expansion absorbent member T having a triple structure. The oxidation-preventing cover member (300) is formed by thermally fusing a pair of film-shaped thermoplastic resin products to form a pocket (P5) having one open side, and the volume expansion absorbing member (P6) of thermally fusing and sealing the open portion after removal of the air other than the necessary air for forming the airtight sealed space portion (301), and performing a heat fusion perforation step (P7).

In the oxidation-preventing cover body forming step (P5) of the above manufacturing method, the processed portion 302 such as an embossing or irregular or irregular wax-like shape is formed on the inner peripheral surface of the oxidation preventing cover member 300 so as not to stick to the outer surface of the barrier- And the other surface except for the one open side 303 of the rounded shape is thermally welded and formed into a circular shape to form a circular shape as a whole, or the other side except for the linear open side 304 is thermally fused The air for forming the clearance of about 0.2 to 0.8 mm is left between the barrier cover member and the oxidation preventing cover member, and the remaining air is removed to seal the dissolved oxygen and the oxidation product The space portion 301 is secured.

As has been described in detail above, the volume expansion absorbing structure made of the triple bond structure of the cover body for barrier water having excellent water permeability and gas permeation blocking efficiency, the tubular implant having excellent resilience and the oxidation preventing cover body for preventing oxidation of the aluminum foil The member can satisfy both the moisture-proofing property, the gas barrier property and all other characteristics, so that the compressed air can not be leaked out even after a long period of contact with the tap water, Of course, it is possible to prevent the formation of harmful aluminum foil oxidizing substances and to block the influx into the tap water, thereby preventing the water pollution caused by the volume expansion absorbing member.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

T: volume expansion absorbing member, Ta: heat fusion portion,
Tb: insertion ball, 100: tubular implant,
200: a barrier-type cover body, 300: an oxidation-prevention cover body,
301: a closed space part, 302: a machining part,
a: barrier layer, b, c: resin layer

Claims (7)

A barrier cover (200) composed of a barrier layer (a) for blocking water and gas and a resin layer (b) (c) laminated on the barrier layer, and a tubular implant (100) (T) for preventing freezing of the water metering machine, wherein the thermally fused portion (Ta) is formed on the outer peripheral surface and the inner peripheral surface of the central fitting hole (Tb)
The barrier cover (200) and the oxidation inhibiting cover (300) are combined and formed on the outer side of the barrier cover (200) so as to inhibit generation of oxides of the barrier layer Wherein the closed space (301) is formed with a fine clearance of about 0.2 to 0.8 mm between the cover member (300) for preventing volumetric expansion of the water meter.
The method according to claim 1,
The oxidation preventing cover member 300 is formed of a thermoplastic resin such as polyolefin-based low density polyethylene, medium density polyethylene, ultra low density polyethylene, linear low density polyethylene, metallocene low density polyethylene, high density polyethylene, polypropylene, But are not limited to, propylene rubber, ethylene-vinyl acetate copolymer, ethylene-acrylic acid ester copolymer, ionomer, polyester-based polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate, polystyrene-based polystyrene, Styrene block copolymers, rigid / flexible polyvinyl chloride based polyvinyl chloride series, polycarbonate, polyamide, polyurethane, ethylene / vinyl alcohol copolymer, and polyvinylidene chloride. Formed by stacking in combination, or the like or a water meter for preventing freezing volume expansion absorbing member having the oxidation suppression means a thermoplastic resin material of the hetero characterized in that configured to be laminated to a single layer multi-layer.
Two sheets of the barrier film of the composite film type laminated with the barrier layer (a) based on an aluminum foil and the thermoplastic resin layer (b) (c) were cut into a certain size, (P1) for forming the barrier covering body (200) in a pocket shape by forming a first cover (201); A pair of film-type thermoplastic resin materials are thermally fused to form a tubular implant 100 having a fusion portion 102, an air inlet 101 and an insertion hole 103, and then pressurized air 104 is filled in the tubular implant 100 A second step (P2) of fusion sealing; After inserting the tubular implements 100 filled with pressurized air into the inside of the barrier cover 200, air between the barrier cover 200 and the tubular implements 100 is removed in a vacuum state, A third step (P3) of fusing and sealing the opening portion; And a fourth step (P4) of forming a fitting hole 202 by thermally fusing and punching the center of the tubular shaped body and the barrier cover body through the third step are sequentially performed to obtain a volume expanding absorbent member In this case,
The oxidation-preventing cover member (300) is coupled to the outside of the volume expansion absorbing member which is double-formed through the first and the fourth steps so as to inhibit the generation of oxides of the barrier layer (a) and the inflow of oxides in tap water. The oxidation-preventing cover member (300) is formed by thermally fusing a pair of film-type thermoplastic resin materials to form a pocket (P5) having one side opened, and placing the double-necked volume expansion absorbing member (P6) of thermally fusing and sealing the open portion after removal of the air other than the necessary air for forming the closed space portion (301) having a fine clearance of about 0.8 mm, and forming a fitting hole (Tb) (P7) for performing the heat fusion bonding step (P7) for preventing the freezing and thawing of the water meter.
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