KR102669550B1 - Freezing prevention apparatus - Google Patents

Abstract

The present invention provides a freeze prevention device. The present invention relates to a frame part that is installed to be spaced apart with an accommodation space around the outer circumference of the freeze prevention object, and a frame part that is detachably positioned in the accommodation space and is in close contact with the frame part in a filled state with gas inside, forming a frame part that is spaced apart from the outer circumference of the freeze prevention object. It includes a gas jacket portion configured to surround the perimeter in a sealed manner. According to this configuration, a sufficient gas layer is formed around the outer circumference of the freeze prevention object to achieve an insulating effect, thereby effectively preventing freezing of the freeze prevention object.

Description

Freezing prevention device{FREEZING PREVENTION APPARATUS}

The present invention relates to a freeze prevention device, and specifically to a freeze prevention device that can prevent freezing of objects such as storage containers storing liquid.

In general, storage means such as pipes and storage containers (tanks) that contain liquids such as water located outdoors may freeze and burst in low-temperature environments such as winter. Freeze rupture is a phenomenon in which the volume increases when the liquid, such as water, present inside the storage means in which the liquid is accommodated is cooled and solidifies, such as ice, and the storage means bursts because it cannot withstand the increased volume. Therefore, in order to prevent freezing, during cold or low-temperature weather periods, technology is applied to prevent freezing by removing the liquid inside the previously installed freeze prevention object (storage means) or to inject antifreeze that can lower the cooling temperature. there is. However, there are cases where it is impossible to empty the inside of this freeze prevention object or add antifreeze.

In this case, in order to prevent freezing, the outside of the object should be covered with a cloth or vinyl to insulate it, or by heating the object using a heating wire, etc., to prevent the object from freezing from external temperature. can do. However, in the former case, the thermal insulation effect is not significant, and in the latter case, there is a problem of high costs for installation and temperature maintenance.

KR10-2015-0135579A (published on December 3, 2015)

In order to solve at least one of the above problems, the purpose of the present invention is to provide a freeze prevention device that can prevent freezing of an object.

In order to achieve the above object, according to an embodiment of the present invention, a frame part is installed to be spaced apart with an accommodating space around the outer circumference of the freeze-proof object, and a filler that is detachably positioned in the accommodating space and filled with gas therein. Provided is a freeze prevention device including a gas jacket portion configured to be in close contact with the frame portion and surround the outer circumference of the freeze prevention object in a sealed manner.

According to the freeze prevention device including the above configuration of the present invention, a frame part is installed on the outside of the freeze prevention object and a gas jacket part is installed in the accommodation space between the freeze prevention object and the frame part, so that the gas jacket is attached to the freeze prevention object (A). By enclosing the outer circumference in a sealed manner, a sufficient gas layer is formed around the outer circumference of the freeze-prevention object to achieve an insulating effect, thereby effectively preventing freezing of the freeze-prevention object. In addition, through the freeze prevention device of the present invention, manufacturing costs can be effectively reduced by using an existing freeze prevention object without separately manufacturing a double gas jacket for freeze prevention.

Figure 1 is a structural diagram of a freeze prevention device installed on a freeze prevention object according to an embodiment of the present invention.
Figure 2 is a structural diagram of a freeze prevention device installed on a freeze prevention object according to another embodiment of the present invention.
Figure 3 is an exemplary diagram showing a structure provided with reinforcing ribs in a freeze prevention device according to an embodiment of the present invention.
Figure 4 is a structural diagram of a freeze prevention device including a sealing member according to an embodiment of the present invention.
Figure 5 is a process diagram showing a method of installing a freeze prevention device according to an embodiment of the present invention.
Figure 6 is a diagram showing the step of installing a frame part in the installation method of a freeze prevention device according to an embodiment of the present invention.
Figure 7 is a diagram showing the structure in which the gas jacket part in Figure 6 is installed.
Figure 8 is a cross-sectional example showing the step of installing a gas jacket unit including one gas jacket in the installation method of a freeze prevention device according to an embodiment of the present invention.
Figure 9 is a cross-sectional example showing the step of installing a gas jacket unit including a plurality of gas jackets in the installation method of a freeze prevention device according to another embodiment of the present invention.
Figure 10 is a process diagram showing a method of installing a freeze prevention device according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail through exemplary drawings. When adding reference numerals to components in each drawing, please note that the same components are given the same reference numerals as much as possible even if they are shown in different drawings. Additionally, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

In addition, throughout the specification, 'including' a certain element means that other elements may be further included, rather than excluding other elements, unless specifically stated to the contrary.

Below, the freeze prevention device of the present invention will be described with reference to the drawings.

Figure 1 is a structural diagram of a freeze prevention device installed on a freeze prevention object according to an embodiment of the present invention, and Figure 2 is a structural diagram of a freeze prevention device installed on a freeze prevention object according to another embodiment of the present invention. , Figure 3 is an exemplary diagram showing a structure in which a reinforcement rib is provided in a freeze prevention device according to an embodiment of the present invention, and Figure 4 is an example structure of a freeze prevention device including a sealing member according to an embodiment of the present invention. am.

Referring to Figure 1, according to one embodiment of the present invention, a freeze prevention device 10 is provided on the outside of the freeze prevention object A to prevent freezing of the freeze prevention object A. Freeze-prevention objects (A) are structures with various shapes, and are objects that perform various functions by containing liquids inside, such as pipes through which liquid flows, storage containers that store liquid, etc., and are designed to prevent freezes and bursts in low-temperature environments. refers to an object that requires a , and is not limited to an object that performs a specified structure or function.

The freeze prevention device 10 according to an embodiment of the present invention may include a frame portion 20 and a gas jacket portion 30 positioned between the freeze prevention object and the frame portion 20 and filled with gas therein. there is.

The frame portion 20 may be installed to be spaced apart from each other with a receiving space (S) for installing the gas jacket portion (30) around the outer circumference of the freeze prevention object (A). This frame portion 20 is installed in the receiving space S (shown in FIG. 6) between the freeze prevention object S and the frame portion 20. ) Not only can it support the shape of the object (A) to be maintained, but it can also protect the freeze prevention object (A) from external shock and effectively prevent the appearance of the freeze prevention object (A) from being deformed.

The frame unit 20 may be integrally formed or may be structured to include a plurality of frames and be integrally connected. When the frame portion 20 is formed as one body, the freeze prevention object A and the gas jacket portion 30 may be provided with openings through which they can be inserted and removed into the frame portion 20 .

Additionally, the frame portion 20 may be configured in a shape corresponding to the outer shape of the freeze prevention object (A).

In the case of an example of the freeze prevention device 10, as shown in FIG. 1, when the freeze prevention object A is made in a cylindrical outer shape, the frame portion 20 includes a plurality of strut frames 21. , the plurality of strut frames 21 are surrounded at regular intervals around the outer circumference of the freeze prevention object (A) with a receiving space (S) for accommodating the gas jacket portion 30 between the freeze prevention object (A) and have an overall cylindrical shape. It can be configured in the form

In the case of another example of the freeze prevention device 10a, as shown in FIG. 2, when the freeze prevention object A' has a rectangular outline shape, the frame portion 20a includes a plurality of strut frames 21a. It includes a plurality of strut frames (21a), which are surrounded at regular intervals around the outer circumference of the freeze prevention object (A') with a receiving space for accommodating the gas jacket portion 30 between them and the freeze prevention object (A'). It may be configured in a square shape.

However, the present invention is not limited to the above form, and the frame portion 20 may be configured in a form corresponding to the outer shape of the freeze prevention object A according to various shapes of the freeze prevention object A.

Therefore, the gas jacket portion 30 is detachably positioned in the receiving space (S) and is filled with gas inside, and freeze prevention is prevented by the outer shape of the frame portion 20 corresponding to the freeze prevention object (A). It is stably supported and installed on the outside of the object (A), forming a sufficient gas layer to achieve an insulation effect.

The gas jacket portion 30 is located in the receiving space (S) between the freeze prevention object (A) and the frame portion 20 and is in close contact with the frame portion 20 in a filled state with gas inside, thereby protecting the freeze prevention object (A). It may be configured to surround the outer perimeter of A) in a sealed manner. Here, depending on the actual situation or the structure of the freeze prevention object (A), the gas jacket portion 30 is formed to surround the outer circumference of the entire portion of the freeze prevention object (A) in a sealed manner, excluding the inlet (I) through which contents such as liquid flow. ) can be installed. However, the present invention is not limited to this, and if necessary, the gas jacket portion 30 may be installed to surround the entire outer circumference of the freeze prevention object A including the inlet I in a sealed manner.

According to the freeze prevention device 10 having this configuration, the frame portion 20 is installed on the outside of the freeze prevention object A and is placed in the receiving space S between the freeze prevention object A and the frame portion 20. By installing the gas jacket part 30, the gas jacket part 30 surrounds the outer circumference of the freeze prevention object (A) in a sealed manner, thereby forming a sufficient gas layer around the outer circumference of the freeze prevention object (A) to insulate it. By implementing the effect, it is possible to effectively prevent freezing of the freeze prevention object (A). In addition, through the freeze prevention device 10 of the present invention, manufacturing costs can be effectively reduced by using an existing freeze prevention object (A) without separately manufacturing a freeze prevention object with a double gas jacket for freeze prevention. there is.

Furthermore, the gas jacket portion 30 can be tightly fixed to the frame portion 20 and the outer peripheral surface of the freeze prevention object (A) in the filled state. The gas jacket portion 30 can be sufficiently filled with gas to completely adhere to the outer circumferential surface of the freeze prevention object by the frame portion 20. Therefore, the gas jacket portion 30 is located in the receiving space (S) and is tightly fixed to the outer peripheral surface of the freeze prevention object (A) by the pressing force from the frame portion 20 in the filled state, thereby preventing the freeze prevention object from externally. Airtightness can be effectively ensured so that air does not flow between (A) and the gas jacket portion 30.

The gas jacket portion 30 can be pre-manufactured in an optimized shape to suit the external shape of the freeze prevention object (A). The gas jacket portion 30 may be integrally formed or may include a plurality of units.

As a specific example, the gas jacket unit 30 may include at least one gas jacket. As shown in FIG. 9, in the case of the gas jacket portion 30b including a plurality of gas jackets 31, between adjacent gas jackets 31 and between each gas jacket 31 and the freeze prevention object (A) The foam 40 formed by spraying can be combined to maintain airtightness. As an example, when the shape of the freeze prevention object (A) is complicated or difficult, as shown in FIG. 9, the gas jacket portion (30b) is manufactured by dividing into a plurality of gas jackets (31), and the plurality of gas jackets (31) and Between adjacent gas jackets (31) and between each gas jacket (31) and the freeze prevention object (A) to maintain airtightness between adjacent gas jackets (31) as well as contact to prevent air from entering between the freeze prevention objects (A). It can be finished by combining the foam 40 formed by spraying. Here, even in the case of the gas jacket portion 30 formed as one piece, it goes without saying that finishing can be done by combining the foam 40 formed by spraying between the gas jacket portion 30 and the freeze prevention object (A).

Meanwhile, the gas jacket portion 30 is preferably formed using a material with high elasticity and excellent adhesion. Furthermore, since the gas jacket portion 30 is exposed to the outside, it has a level of strength that can withstand a certain external impact. It can be made of a ductile material, such as a polymer.

The gas jacket unit 30 installs the frame unit 20 on the outside of the freeze prevention object (A) and then inserts the gas into the receiving space (S) between the freeze prevention object (A) and the frame part 20. It can be filled, and this is to improve ease of installation and adhesion to the freeze-proof object. However, the present invention is not limited to this, and depending on the situation, the gas jacket portion 30 filled with gas may be inserted into the receiving space (S) between the freeze prevention object (A) and the frame portion (20).

Additionally, the gas contained within the gas jacket portion 30 may be air. In another embodiment, a gas having a lower thermal conductivity than air may be used as the gas accommodated inside the gas jacket portion 30, which can more effectively realize the insulation effect. As a specific example, the gas contained within the gas jacket unit 30 may include at least one of carbon monoxide, carbon dioxide, and oxygen. Therefore, the insulation effect can be maximized at a relatively low cost. However, the present invention is not limited to this, and considering cost reduction and ease of installation, air may be filled as needed.

In one embodiment, when the frame unit 20 includes a plurality of frames, it may include a plurality of strut frames 21 spaced apart from each other around the outer circumference of the freeze prevention object A. At this time, in order to protect the frame part 20 and the gas jacket part 30 and to protect the freeze prevention object A from external shock, as shown in FIG. 3, a reinforcing rib 22 is installed between the strut frame 21. ) can be installed additionally. The gas jacket portion 30 may be detachably disposed in the receiving space S through a gap between the strut frames 21 in an unfilled state in which gas is not filled therein. Therefore, the gas jacket portion 30 can be selectively placed or removed in the accommodation space (S) between the freeze prevention object (A) and the frame portion 20 depending on conditions such as the environmental temperature of the freeze prevention object (A). Accordingly, the gas jacket portion 30 can be easily attached and detached, thereby improving convenience of use.

Furthermore, referring to FIG. 4 , in one embodiment of the present invention, the freeze prevention device 10 may further include a sealing member 50 that covers the outer circumference of the frame portion 20 in a sealed manner. This sealing member 50 can be disposed along the outer circumferential surface of the frame portion 20 to further increase the thermal insulation and heat retention effects. The sealing member 50 can seal the outside of the frame portion 20 using a vinyl material, etc. to seal the entire gas jacket portion 30 once again, so it has the function of increasing density together with the gas jacket portion 30. The given double gas jacket structure can be implemented.

In addition, a method of installing a freeze prevention device according to another embodiment of the present invention will be described below with reference to the drawings.

Figure 5 is a process diagram showing the installation method of the freeze prevention device according to an embodiment of the present invention, and Figure 6 is a diagram showing the step of installing the frame portion in the installation method of the freeze prevention device according to an embodiment of the present invention. Figure 7 is a diagram showing the structure of installing the gas jacket part in Figure 6, and Figure 8 shows the step of installing the gas jacket part including one gas jacket in the installation method of the freeze prevention device according to an embodiment of the present invention. It is a cross-sectional example, and Figure 9 is a cross-sectional example showing the step of installing a gas jacket unit including a plurality of gas jackets in the installation method of the freeze prevention device according to another embodiment of the present invention, and Figure 10 is a cross-sectional example of the present invention. This is a process diagram showing a method of installing a freeze prevention device according to another embodiment.

Referring to Figure 5, the installation method of the freeze prevention device according to an embodiment of the present invention may include a frame portion installation step (S1) and a gas jacket portion installation step (S2).

As shown in Figure 6, the frame part installation step (S1) is a step of installing the frame part 20 to be spaced apart from the receiving space (S) around the outer circumference of the freeze prevention object (A). Here, the frame portion 20 may be configured in the same form as the frame portion 20 of the freeze prevention device 10 described above. In the frame part installation step (S1), installing the frame part 20 to be spaced apart from the outer circumference of the freeze prevention object (A) is the space where the gas jacket part 30 is located in the gas jacket part installation step (S2), which will be described later. This is to form an accommodation space (S) that acts as a freeze prevention object (S) and when the gas jacket unit (30) is installed in the accommodation space (S) between the freeze prevention object (S) and the frame unit (20), the frame unit (20) Not only can support the shape of the gas jacket portion 30 to be maintained, but can also protect the freeze prevention object (A) from external shock and effectively prevent the appearance of the freeze prevention object (A) from being deformed.

Furthermore, in the frame unit installation step (S1), the frame unit 20 may be configured in a shape corresponding to the outer shape of the freeze prevention object (A). In this case, in the gas jacket installation step (S2), which will be described later, the gas jacket portion 30 is located in the receiving space (S) and the frame portion corresponding to the freeze prevention object (A) is filled with gas therein. Due to the outer shape of 20), it is stably supported and installed on the outside of the freeze prevention object (A) to form a sufficient gas layer to realize the insulation effect.

In addition, in the frame part installation step (S1), when the frame part 20 includes a plurality of frames, it may include a plurality of strut frames 21 spaced apart from each other around the outer circumference of the freeze prevention object (A). At this time, in order to protect the frame part 20 and the gas jacket part 30 and to protect the freeze prevention object A from external shock, a reinforcing rib is installed between the strut frame 21 as shown in FIG. 3. (22) can be installed additionally.

Referring to FIGS. 6 and 7, the gas jacket installation step (S2) involves detachably positioning the gas jacket portion (30) in the receiving space (S) between the freeze prevention object (A) and the frame portion (20). This is a step in which the gas jacket part 30 is in close contact with the frame part 20 in a state filled with gas and surrounds the outer perimeter of the freeze prevention object A in a sealed manner.

In the gas jacket installation step (S2), the gas jacket portion 30 may be tightly fixed to the frame portion 20 and the outer peripheral surface of the freeze prevention object (A) in the filled state. The gas jacket portion 30 can be sufficiently filled with gas to completely adhere to the outer circumferential surface of the freeze prevention object by the frame portion 20. Therefore, the gas jacket portion 30 is located in the receiving space (S) and is tightly fixed to the outer peripheral surface of the freeze prevention object (A) by the pressing force from the frame portion 20 in the filled state, thereby preventing the freeze prevention object from the outside. Airtightness can be effectively ensured so that air does not flow between (A) and the gas jacket portion 30.

Here, the gas jacket portion 30 can be pre-manufactured in an optimized shape to suit the external shape of the freeze prevention object (A). In addition, in the case of the freeze prevention device 10 as an example, the gas jacket portion 30 may be integrated as shown in FIG. 8, that is, it may include one gas jacket, or as another example of the freeze prevention device 10b ), as shown in FIG. 9, the gas jacket portion 30b may include a plurality of gas jackets 31.

Specifically, referring to FIG. 9, in the gas jacket installation step (S2), in the case of the gas jacket portion (30b) including a plurality of gas jackets (31), the gas jacket portion (30b) is installed in the receiving space (S). After being placed in the gas-filled state, the foam 40 formed by spraying can be tightly coupled between the gas jacket portion 30b and the freeze prevention object A. Specifically, finishing can be done by combining foam 40 formed by spraying between adjacent gas jackets 31 and between each gas jacket 31 and the freeze prevention object (A). As an example, when the shape of the freeze prevention object (A) is complex or difficult, the gas jacket portion (30b) is manufactured by dividing it into a plurality of gas jackets (31), and a space is formed between the plurality of gas jackets (31) and the freeze prevention object (A). Foam 40 formed by spraying between adjacent gas jackets 31 and between each gas jacket 31 and the freeze prevention object (A) to maintain contact and airtightness between adjacent gas jackets 31 to prevent air from entering. ) can be combined for finishing.

In addition, the gas jacket portion 30 is preferably formed using a material with high elasticity and excellent adhesion. Furthermore, since the gas jacket portion 30 is exposed to the outside, it has a level of strength that can withstand a certain external impact. It can be made of a ductile material, such as a polymer.

Furthermore, in the gas jacket installation step (S2), gas may be filled into the gas jacket portion (30) before or after positioning the gas jacket portion (30) in the receiving space (S).

For example, in the gas jacket installation step (S2), the gas jacket unit 30 installs the frame unit 20 on the outside of the freeze prevention object (A) and then installs it between the freeze prevention object (A) and the frame unit (20). Gas can be filled while inserted into the receiving space (S), and this is to improve ease of installation and adhesion to the freeze prevention object. However, the present invention is not limited to this, and depending on the situation, the gas jacket portion 30 filled with gas may be inserted into the accommodation space (S) between the freeze prevention object (A) and the frame portion (20).

Additionally, in the gas jacket installation step (S2), the gas jacket portion 30 may be filled with a gas having a lower thermal conductivity than air, and as a specific example, at least one of carbon monoxide, carbon dioxide, and oxygen may be filled. Therefore, the insulation effect can be maximized at a relatively low cost.

In addition, in one embodiment of the present invention, referring to FIG. 10, after the gas jacket installation step (S2), a sealing member 50 is installed to cover the outer circumference of the frame portion 20 in a sealed manner. Step (S3) may be further included. This sealing member 50 can be disposed along the outer circumferential surface of the frame portion 20 to further increase the thermal insulation and heat retention effects. The sealing member 50 can seal the outside of the frame portion 20 using a vinyl material, etc. to seal the entire gas jacket portion 30 once again, so it has the function of increasing density together with the gas jacket portion 30. The given double gas jacket structure can be implemented.

As a result, according to the freeze prevention device 10 and its installation method according to an embodiment of the present invention, the frame portion 20 is installed on the outside of the freeze prevention object (A) and the freeze prevention object (A) and the frame portion are By installing the gas jacket part 30 in the accommodation space (S) between (20), the gas jacket part 30 surrounds the outer circumference of the freeze prevention object (A) in a sealed manner, thereby forming the freeze prevention object (A) ) By forming a sufficient gas layer around the outer circumference of the object (A) to achieve an insulating effect, it is possible to effectively prevent freezing and rupture of the freeze prevention object (A).

As described above, although the present invention has been described with limited examples and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following will be understood by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalence of the patent claims to be described.

10,10a,10b Freeze prevention device 20,20a Frame part
21,21a Frame 22 Reinforcing ribs
30,30a,30b gas jacket section 31 gas jacket
40 Foam 50 Sealing member
A,A' Freezing prevention object S accommodation space
I inlet

Claims (8)

A frame portion installed to be spaced apart from each other with a receiving space around the outer circumference of the freeze prevention object; and
It includes a gas jacket portion that is detachably positioned in the receiving space and configured to be in close contact with the frame portion in a state filled with gas therein and to surround the outer circumference of the freeze prevention object in a sealed manner,
The frame portion includes a plurality of strut frames spaced apart from each other around the outer circumference of the freeze prevention object, and the gas jacket portion is detachable from the receiving space through the gap between the strut frames in an unfilled state in which no gas is filled therein. Possibly arranged, freeze prevention device. The freeze prevention device according to claim 1, wherein the gas jacket portion is tightly fixed to the frame portion and an outer peripheral surface of the freeze prevention object in the filled state. delete The freeze prevention device according to claim 1, wherein the frame portion is configured in a shape corresponding to the outer shape of the freeze prevention object. The freeze prevention device according to claim 1, wherein the gas accommodated inside the gas jacket portion is air or a gas with a lower thermal conductivity than air. The freeze prevention device according to claim 5, wherein the gas contained within the gas jacket includes at least one of carbon monoxide, carbon dioxide, and oxygen. The freeze prevention device according to claim 1, wherein the gas jacket unit includes at least one gas jacket, and foam formed by spraying is airtightly coupled between the gas jackets and between the gas jacket and the freeze prevention object. The freeze prevention device according to claim 1, further comprising a sealing member that covers the outer circumference of the frame portion in a sealed manner.