KR102580325B1 - Electrode-terminal assembly for liquid quality meter apparatus and liquid quality meter apparatus including the same - Google Patents

Abstract

In the electrode terminal assembly for a liquid quality meter apparatus for measuring liquid quality based on the electrical resistance of the target liquid to be measured, the electrode terminal assembly according to the present invention is in contact with the target liquid when measuring liquid quality. and a fixed body including a pair of electrode terminals including a generally bar-shaped body and protruding ends formed at a predetermined portion between both ends of the body, and a pair of electrode penetration holes through which the pair of electrode terminals penetrate. do. In the electrode terminal assembly having the above-mentioned structure, each of the pair of electrode terminals is configured to prevent the electrode terminal from being inserted further so that when the electrode terminal is inserted at a predetermined length into the electrode penetration hole of the fixed body, the protruding end is caught on the fixed body. It is prepared.

Description

Electrode terminal assembly for liquid quality meter and liquid quality meter including same {ELECTRODE-TERMINAL ASSEMBLY FOR LIQUID QUALITY METER APPARATUS AND LIQUID QUALITY METER APPARATUS INCLUDING THE SAME}

The present invention relates to an electrode terminal assembly for a liquid quality measuring device and a liquid quality measuring device including the same.

For liquids used for certain purposes, such as water flowing into a boiler, it is important to measure the quality or contamination of the liquid.

For example, when a boiler is operated using water containing various dissolved substances rather than pure water, foreign substances may be generated inside the boiler, reducing the boiler's efficiency.

In particular, in systems equipped with filters that can be turned on/off or have variable filtering performance, it may be more meaningful to measure the quality or contamination of the liquid. This is because, depending on the quality or contamination of the measured liquid, the filter can be turned on or off, or the filtering performance can be set to high or low performance, thereby minimizing power consumption and effectively filtering the liquid.

Total dissolved solids (total dissolved solids or total dissolved salts, TDS) is an indicator of the quality of a liquid, and a device for measuring the total dissolved solids of a liquid is called a TDS sensor or TDS meter.

Such a TDS meter typically includes an electrode body assembly including an electrode terminal in contact with the liquid whose quality is to be measured when measuring liquid quality, and a control unit for controlling power applied to the electrode terminal.

Conventional electrode terminal assemblies for TDS measuring devices are typically manufactured by placing electrode terminals at predetermined positions in a mold and filling the mold with molding liquid to form a fixed body (usually by injection method). In such a conventional electrode terminal assembly, the shape of the electrode terminal is simply a bar shape.

The conventional electrode terminal assembly prepared in this way had a problem in that the electrode terminal was pushed into the inside of the fixed body when used under high temperature and high pressure conditions. In this case, there was a problem in that the liquid seeped into the gap between the electrode terminal and the fixing body, causing water leakage inside the liquid quality measuring device, thereby deteriorating its durability.

Additionally, when the electrode terminal assembly is used in a high temperature liquid (approximately 80°C or higher), there is a problem in that the molding forming the fixed body melts and the electrode terminal becomes unfixed.

The main purpose of the present invention is to provide an electrode terminal assembly having a structure in which electrode terminals can be firmly fixed even when used under high temperature and high pressure conditions, and a liquid quality measuring device including the same.

Additionally, the purpose is to prevent water leakage from occurring in the electrode terminal assembly and increase durability.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve the above object, an electrode terminal assembly for a liquid quality measuring device according to an embodiment of the present invention is formed in a predetermined portion between a body that is generally bar-shaped and both ends of the body, which is in contact with the target liquid when measuring liquid quality. A pair of electrode terminals including a protruding end; It includes a fixed body including a pair of electrode penetration holes through which the pair of electrode terminals pass.

Through this, each of the pair of electrode terminals is provided so that when the electrode terminal is inserted into the electrode penetration hole of the fixed body by a predetermined length, the protruding end is caught by the fixed body and the electrode terminal is no longer inserted.

In order to achieve the above object, the liquid quality measuring device according to an embodiment of the present invention includes an electrode terminal assembly and a control unit for applying power to the electrode terminal assembly.

The electrode terminal assembly includes a pair of electrode terminals including an overall bar-shaped body and a protruding end protruding from one side of the body; It includes a fixed body including a pair of electrode penetration holes through which the pair of electrode terminals pass.

Through this, each of the pair of electrode terminals is provided so that when the electrode terminal is inserted into the electrode penetration hole of the fixed body by a predetermined length, the protruding end is caught by the fixed body and the electrode terminal is no longer inserted.

According to an embodiment of the present invention, one or more of the following effects are achieved.

By including a fixed body including a pair of electrode terminals including protruding ends of the electrode terminals and a pair of electrode penetration holes through which the pair of electrode terminals penetrate, the electrode terminal assembly can be used even when used under high temperature and high pressure conditions. The terminal can be effectively prevented from being pushed into the interior of the fixed body.

Additionally, as the electrode terminal is prevented from being pushed into the fixed body, water leakage between the electrode terminal and the fixed body can be prevented, and the durability of the electrode terminal assembly can be improved.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a diagram illustrating a portion of an electrode terminal assembly for an exemplary liquid quality meter.
Figure 2 is a diagram showing an electrode terminal assembly for a liquid quality meter according to an embodiment of the present invention.
Figure 3 is an exploded perspective view of the electrode terminal assembly of Figure 2.
Figure 4 is a longitudinal cross-sectional view of the electrode terminal assembly of Figure 2.

Hereinafter, some embodiments of the present invention will be described in detail through illustrative drawings. When adding reference numerals to components in each drawing, it should be noted that identical components are given the same reference numerals as much as possible even if they are shown in different drawings. Additionally, when describing embodiments of the present invention, if detailed descriptions of related known configurations or functions are judged to impede understanding of the embodiments of the present invention, the detailed descriptions will be omitted.

Additionally, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are only used to distinguish the component from other components, and the nature, sequence, or order of the component is not limited by the term. When a component is described as being "connected," "coupled," or "connected" to another component, that component may be directly connected or connected to that other component, but there is no need for another component between each component. It should be understood that may be “connected,” “combined,” or “connected.”

1 is a diagram showing a portion of an electrode terminal assembly for an exemplary liquid quality meter, FIG. 2 is a diagram showing an electrode terminal assembly for a liquid quality meter according to an embodiment of the present invention, and FIG. 3 is an electrode terminal of FIG. 2. It is an exploded perspective view of the assembly, and Figure 4 is a longitudinal cross-sectional view of the electrode terminal assembly of Figure 2.

The electrode terminal assembly 100 according to this embodiment can be applied to a liquid quality meter apparatus for measuring liquid quality based on the electrical resistance of the target liquid to be measured.

An example of a liquid quality meter for measuring liquid quality based on the electrical resistance of the liquid is a TDS (total dissolved solids or total dissolved salts) sensor.

Here, the total dissolved solids (total dissolved solids or total dissolved salts, TDS) value refers to the total amount of solid substances dissolved in water, and usually refers to the total amount of ions, including cations and anions, dissolved in water.

A liquid quality meter for measuring liquid quality based on the electrical resistance of the liquid, such as a TDS sensor, controls an electrode body assembly including an electrode terminal in contact with the target liquid when measuring liquid quality, and power applied to the electrode terminal. Includes a control unit for

The electrode terminal assembly 100 according to this embodiment includes a pair of electrode terminals 110 and a fixed body 120.

A pair of electrode terminals 110 are in contact with the target liquid when measuring liquid quality.

The pair of electrode terminals 110 may include an electrode terminal body 111 that is generally bar-shaped and an electrode terminal protruding end 112 formed at a predetermined portion between both ends of the electrode terminal body 111.

The fixing body 120 includes a pair of electrode penetration holes 123 through which the pair of electrode terminals 110 pass.

Through this, when the pair of electrode terminals 110 are inserted a predetermined length into the electrode penetration hole 123 of the fixing body 120, the protruding end 112 of the electrode terminal is caught by the fixing body 120. The pair of electrode terminals 110 are provided so that they can no longer be inserted.

The electrode terminal assembly 100 may further include first and second housings 130 and 140 for accommodating the fixing body 120 and the pair of electrode terminals 110.

The first and second housings 130 and 140 may be combined to form an internal space in which the fixing body 120 and the pair of electrode terminals 110 are accommodated. The fixed body 120 and the pair of electrode terminals 110 are aligned in the direction in which the pair of electrode terminals 110 are inserted toward the fixed body 120 by the first and second housings 130 and 140. By being supported, the fixing body 120 and the pair of electrode terminals 110 are prevented from being separated from each other.

The electrode terminal assembly 100 according to the present embodiment prepared in this way is formed by combining a pair of separately prepared electrode terminals 110, the fixed body 120, the first housing 130, and the second housing 140. It is a structure that has been prepared.

At this time, the relative position of the pair of electrode terminals 110 with respect to the fixed body 120 and the first housing 130 is limited by the electrode terminal protruding end 112. That is, the pair of electrode terminals 110 are further inserted toward the fixed body 120 and the outer side of the first housing 130 by the electrode terminal protruding end 112 formed on the pair of electrode terminals 110. withdrawal is prevented.

Conventional electrode terminal assemblies for liquid quality measuring devices are typically produced by placing electrode terminals at predetermined positions in a mold and filling the mold with molding liquid to form a fixed body (commonly referred to as an injection method). In such a conventional electrode terminal assembly, the shape of the electrode terminal is simply a bar shape.

The conventional electrode terminal assembly prepared in this way had a problem in that the electrode terminal was pushed into the inside of the fixed body when used under high temperature and high pressure conditions. In this case, there was a problem in that the liquid seeped into the gap between the electrode terminal and the fixing body, causing water leakage inside the liquid quality measuring device, thereby deteriorating its durability.

Additionally, when the electrode terminal assembly is used in a high temperature liquid (approximately 80°C or higher), there is a problem in that the molding forming the fixed body melts and the electrode terminal becomes unfixed.

Therefore, as shown in FIG. 1, the electrode terminal has a plate-shaped body 2021 extending in one direction, and a protrusion 2022, which is a portion protruding from the body 2021 in a direction that is not parallel to the extending direction, is formed in one area. An exemplary electrode terminal assembly 200 having an electrode terminal 202 having a shape may be considered. A locking portion 204 is formed inside the housing 201 to prevent the protrusion 2022 from escaping, and a molding 203 is formed surrounding the electrode terminal on the inside of the housing by filling and hardening the molding liquid for sealing. You can.

However, even in this case, apart from being able to prevent the electrode terminal 202 from being pushed out due to high temperature and high pressure, the molding 203 formed for sealing melts due to high temperature or causes water leakage due to cracks in the electrode terminal. The terminals 202 may conduct electricity, causing a short circuit.

In order to overcome this, even if you try to place a watertight member such as an O-ring (not shown) that is made of an elastic material and blocks the boundary in a structure other than the molding 203, especially in the area where water leakage may occur, the electrode terminal 202 Because it is formed in a plate shape, it may be difficult to maintain watertightness smoothly.

In the electrode terminal assembly 100 according to this embodiment, the electrode terminal 110 cannot be fixed due to the operating environment or conditions (for example, the voltage applied to the electrode terminal or the temperature of the electrode terminal) of the electrode terminal assembly 100. This is to prevent it from being unmaintained and prevent water leakage of the electrode terminal assembly 100 to improve durability.

To this end, the electrode terminal assembly 100 according to the present embodiment includes an electrode terminal protruding end 112, a pair of electrode terminals 110 that are generally bar-shaped, and a pair of electrode terminals 110 through which the pair of electrode terminals 110 penetrate. It includes a fixed body 120 including a pair of electrode through-holes 123, and when the electrode terminal 110 is inserted by a predetermined length into the electrode through-hole 123 of the fixed body 120, the electrode terminal protrudes. The end 112 is hooked on the fixing body 120 to prevent the electrode terminal 110 from being inserted further.

The characteristics of the electrode terminal assembly 100 according to this embodiment will be described in more detail below.

Referring to FIG. 2, the first and second housings 130 and 140 may be vertically coupled to each other.

The first housing 130 includes a first housing body portion 131 and a first housing extension portion 122 extending downward in the direction in which the pair of electrode terminals 110 extend from the first housing body portion 131. ) may include.

The first housing 130 may include a pair of first housing through-holes 130h through which the pair of electrode terminals 110 pass.

The first housing through-hole 130h extends in the vertical direction in which the pair of electrode terminals 110 extend, and is formed to penetrate the first housing extension 122, forming a pair of first housing through-holes. The pair of electrode terminals 110 may be exposed to the outside of the first housing 130 through (130h).

The second housing 140 includes a second housing body 141 coupled to the first housing body 131, and a second housing extension 142 extending upward from the second housing body 141. It can be included.

The second housing 140 may have an accommodating space 143 inside which a pair of terminals 10 are accommodated. The second housing 140 may be shaped to include a central hole to provide a receiving space 143 in which the pair of terminals 10 are accommodated.

The pair of terminals 10 are each connected to a pair of electrode terminals 110 and connected to a control unit (not shown) to apply power to the pair of electrode terminals 110. That is, the pair of terminals 10 can mediate the application of power from the control unit or the power supply device to the pair of electrode terminals 110.

Referring to FIG. 3, each of the pair of electrode terminals 110 has an electrode terminal body 111, which is generally bar-shaped, and an electrode terminal protruding end formed at a predetermined portion between the upper and lower ends of the electrode terminal body 111. 112) may be included.

The electrode terminal protruding end 112 may be formed by compressing the electrode terminal body 111 using a press or the like.

In one embodiment, the electrode terminal protruding end 112 may be formed in a ring shape along the circumferential surface of the electrode terminal body 111.

The fixed body 120 may include a fixed body main body 121 and a pair of fixed body extension parts 122 extending downward from the fixed body main body 121.

The fixed body 120 may include a pair of electrode penetration holes 123 through which the upper ends of the pair of electrode terminals 110 penetrate.

Each of the pair of electrode penetration holes 123 may be formed to penetrate the fixed body main body 121 and each of the pair of fixed body extension parts 122.

Through this, the upper end of the pair of electrode terminals 110 can be connected to the pair of terminals 10 by penetrating the fixed body 120.

Meanwhile, unlike what is shown in FIG. 3, the fixed body extension may be provided as a single extension, and in this case, a pair of electrode through-holes may be formed penetrating the fixed body main body and the fixed body extension.

Referring to FIG. 4, the fixing body 120 has a shape in which the portion in contact with the electrode terminal protruding end 112 of the pair of electrode terminals 110 is depressed inward in order to accommodate the electrode terminal protruding end 112. You can have it.

At the distal end of the fixed body extension 122, a protruding end receiving groove 124 may be formed in which the edge of the electrode through hole 123 is recessed to a predetermined depth inside the fixed body extension 122.

When the pair of electrode terminals 110 are inserted toward the fixed body 120, the electrode terminal protruding end 112 is inserted into the protruding end receiving groove 124, and the pair of electrode terminals 110 and the fixed body 120 ) can become stronger. That is, the pair of electrode terminals 110 can be more firmly fixed by the fixing body 120. Through this structure, it is possible to prevent the electrode terminal 110 from being pushed out and leaving its original position even in a high temperature and high pressure environment.

In addition, the fixed body 120 includes a fixed body extension portion 122 extending in the vertical direction where the electrode terminal 110 extends, thereby increasing the contact area between the electrode terminal 110 and the fixed body 120. However, the coupling force between the fixing body 120 and the pair of electrode terminals 110 can be increased.

Referring to Figures 3 and 4, the first housing 130 may be provided with a fixed body receiving groove 133 in which the fixed body 120 is accommodated. The fixed body receiving groove 133 may be formed in the first housing body portion 131.

A pair of first housing through-holes 130h may be formed in the bottom surface 133a of the fixed body receiving groove 133 to open toward the outside of the first housing 130. That is, referring to FIG. 4, the pair of first housing through-holes 130h may extend downward from the bottom surface 133a of the fixed body receiving groove 133 and open to the outside of the first housing 130. .

At this time, the bottom of the first housing through-hole 130h passes through the first housing through-hole 130h, and the electrode terminal protruding end 112 passes through the first housing. It may be formed to a predetermined size so that it does not pass through the through hole 130h and is caught on the bottom surface 133a of the fixed body receiving groove 133.

For example, when the electrode terminal body 111 has a cylindrical bar shape and the electrode terminal protruding end 112 has a ring shape with a predetermined diameter, the first housing through hole 130h is the electrode terminal body 111. It may be a circular hole with a diameter larger than the diameter of and smaller than the diameter of the electrode terminal protruding end 112.

Through this, the lower ends of the pair of electrode terminals 110 are exposed to the outside of the first housing 130 for a predetermined length through the first housing through-hole 130h, and the pair of electrode terminals 110 are connected to the fixed body. It can be prevented from being separated from 120 and exposed beyond a predetermined length to the outside of the first housing 130 .

Among the first and second housings 130 and 140, a female thread portion may be provided on one side and a male thread portion may be provided on the other side, so that the first and second housings 130 and 140 may be screwed together.

In one embodiment, the first housing 130 may be provided with a female thread portion 134, and the second housing 140 may be provided with a male thread portion 144.

Through this, the first and second housings 130 and 140 are firmly coupled so that they are not easily separated due to vertical force, and the electrode terminal 110 is supported and fixed upward by the first housing 130. The body 120 is supported downward by the second housing 140 so that the coupling between the electrode terminal 110 and the fixed body 120 can be firmly maintained.

In addition, the second housing 140 and the fixing body 120 are not directly coupled, but are in contact, so that the fixing body 120 is pressed downward as the second housing 140 is coupled to the first housing 130. You can. With this structure, the second housing 140 presses the fixing body 120 against the first housing 130, and the electrode terminal protruding end 112 disposed between the fixing body 120 and the first housing 130 ) and the inner O-ring 150, which will be described later, can be uniformly pressed.

The electrode terminal assembly 100 is installed on the inside of the first housing through-hole 130h to prevent fluid from flowing into the fixed body receiving groove 133 through the first housing through-hole 130h. It may further include a pair of inner O-rings 150 interposed between the end (or the bottom surface 133a of the fixed body receiving groove 133) and the pair of electrode terminal protruding ends 112. That is, a structure for fixing the electrode terminal 110 and a structure for sealing may be provided separately.

The inner O-ring 150 is made of an elastic material and is pressed from the upper side by the electrode terminal protruding end 112 or the fixed body 120, and is pressed from the lower side by the bottom portion 133a of the fixed body receiving groove 133. It is deformed by being pressed, and can seal between the electrode terminal protruding end 112 or the fixed body 120 and the bottom portion 133a of the fixed body receiving groove 133. Since the electrode terminal body 111 is formed in a cylindrical bar shape and the electrode terminal protruding end 112 is formed in a ring shape, uniform sealing can be achieved when the ring-shaped inner O-ring 150 is disposed.

For example, the inner O-ring 150 may be made of rubber or a material containing rubber.

Through this, fluid is prevented from flowing into the fixing body receiving groove 133 through the first housing through-hole 130h, effectively preventing the electrode terminal assembly 100 from being deteriorated in durability due to water leakage. You can.

The electrode terminal assembly 100 according to this embodiment can be installed in a case containing the target liquid to be measured. A fastening portion 135 may be provided on the first housing body 131 so that the electrode terminal assembly 100 can be coupled to a case containing the target liquid.

The electrode terminal assembly 100 further includes an outer O-ring 160, so that when the electrode terminal assembly 100 is combined with a case containing the target liquid, the space between the case and the electrode terminal assembly 100 can be sealed. .

Although the present invention has been described above with limited examples and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following description will be provided by those skilled in the art in the technical field to which the present invention pertains. Various implementations are possible within the scope of equivalency of the patent claims.

10: terminal
11: Electrode terminal receiving groove
100: Electrode terminal assembly
110: electrode terminal
111: Electrode terminal body
112: Protruding end of electrode terminal
120: fixed body
121: Fixed body main body
122: Fixed body extension part
123: Electrode penetration hole
124: Protruding end receiving groove
130, 140: 1st, 2nd housing
130h: 1st housing through hole
131: first housing body portion
132: first housing extension
133: Fixed body receiving groove
133a: Bottom surface of fixed body receiving groove
134: Female thread part
135: fastening part
141: second housing body portion
142: second housing extension
143: Accommodating space of the second housing
144: Male thread part
150: Inner O-ring
160: Outer O-ring

Claims (9)

In the electrode terminal assembly for a liquid quality meter apparatus for measuring liquid quality based on the electrical resistance of the target liquid to be measured,
A pair of electrode terminals that are in contact with the target liquid when measuring liquid quality and include a rod-shaped body and protruding ends formed at a predetermined portion between both ends of the body;
a fixed body including a pair of electrode penetration holes through which the pair of electrode terminals pass; and
Comprising a first housing for accommodating the fixing body and the pair of electrode terminals,
Each of the pair of electrode terminals is provided so that when the electrode terminal is inserted into the electrode penetration hole of the fixed body by a predetermined length, the protruding end is caught by the fixed body and the electrode terminal is no longer inserted,
The pair of electrode terminals includes one end penetrating the fixed body and the other end opposite the one end,
The first housing is,
It includes a fixed body receiving groove in which the fixed body is accommodated,
A pair of first housing through holes are formed on the bottom of the fixing body receiving groove to open toward the outside of the first housing,
In order to prevent the pair of electrode terminals from being separated from the fixed body, the other end of the pair of electrode terminals passes through the first housing through-hole, and the protruding end of the pair of electrode terminals passes through the first housing. It is provided to be caught on the bottom of the fixed body receiving groove without passing through the through hole,
The other end of the pair of electrode terminals is exposed to the outside of the first housing through the pair of first housing through-holes. In claim 1,
The fixed body includes a fixed body main body portion and a pair of fixed body extension portions extending from the fixed body main body toward the other end of the pair of electrode terminals,
Each of the pair of electrode penetration holes is formed by penetrating the fixed body main body portion and each of the pair of fixed body extension portions. In claim 1,
The fixed body is an electrode terminal assembly for a liquid quality measuring device, wherein a portion in contact with the protruding ends of the pair of electrode terminals is recessed inward to accommodate the protruding ends. In claim 1,
An electrode terminal assembly for a liquid quality meter, further comprising a second housing for accommodating the fixing body and the pair of electrode terminals together with the first housing. In claim 1,
A pair of inners disposed between the inner end of the first housing through hole and the protruding end of the pair of electrode terminals to prevent fluid from flowing into the fixing body receiving groove through the first housing through hole. An electrode terminal assembly for a liquid quality meter, further comprising an O-ring. In claim 4,
The second housing is an electrode for a liquid quality measuring device having a shape including a central hole to provide a space for receiving a pair of terminals connected to one end penetrating the fixed body of the pair of electrode terminals. Terminal assembly. In claim 4,
The first housing includes a first housing body portion in which the fixing body receiving groove is formed, and a first housing extension portion extending from the first housing body portion in a direction in which the pair of electrode terminals extend,
The first housing through hole extends in a direction in which the pair of electrode terminals extend and is formed to penetrate the first housing extension part. In claim 1,
It further includes a second housing for accommodating the fixing body and the pair of electrode terminals together with the first housing,
An electrode terminal assembly for a liquid quality meter, wherein a female thread is provided on one side of the first and second housings and a male thread is provided on the other side, so that the first and second housings are screwed together. In the liquid quality measuring device, which is a device for measuring liquid quality based on the electrical resistance of the target liquid to be measured, including an electrode terminal assembly and a control unit for applying power to the electrode terminal assembly,
The electrode terminal assembly,
A pair of electrode terminals including a rod-shaped body and a protruding end protruding from one side of the body;
a fixed body including a pair of electrode penetration holes through which the pair of electrode terminals pass; and
Comprising first and second housings for accommodating the fixing body and the pair of electrode terminals,
Each of the pair of electrode terminals is provided so that when the electrode terminal is inserted into the electrode penetration hole of the fixed body by a predetermined length, the protruding end is caught by the fixed body and the electrode terminal is no longer inserted,
The pair of electrode terminals includes one end penetrating the fixed body and the other end opposite the one end,
In the first housing, a pair of first housing through holes are formed to open toward the outside of the first housing,
In order to prevent the pair of electrode terminals from being separated from the fixed body, the other end of the pair of electrode terminals passes through the first housing through-hole, and the protruding end of the pair of electrode terminals passes through the first housing. It is provided to be caught in the first housing without passing through the through hole,
The other end of the pair of electrode terminals is exposed to the outside of the first housing through the pair of first housing through-holes.

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