KR101298996B1 - Clamp type leakage sensor - Google Patents

Abstract

The present invention relates to a clamp-type leak detection device, the object of the present invention is to provide a clamp-type leak detection device for detecting a fluid leaked by the minute wound by fixing in the form of a clamp on the outside of the fluid pipe.
Clamp-type leak detection device of the present invention for achieving the above object, the leakage sensor formed side by side a pair of conductive lines in the longitudinal direction on the upper surface of the film layer base material; Fixing one side of the leak sensor to the inside of the body to electrically connect the conductive line with the power cable introduced from the outside, and the other side of the leak sensor is fixed by the fixing part when received inside the sensor insertion hole formed in the body It consists of a clamp.
The present invention can be installed easily and simply by winding the leak sensor on the fluid tube by a clamp integrated in the film type leak sensor, it is possible to detect the minute leak generated in the fluid tube to check the initial state of the fluid tube leak It has the effect of making quick action.

Description

Clamp type leakage sensor

The present invention relates to a clamp-type leak detection device, and more particularly, to a clamp-type leak detection device for detecting a fluid leaked finely attached to the outer circumference of the fluid pipe.

The applicant of the present invention has already proposed a tape-like leak detection sensor that can easily detect the occurrence of leakage by providing a tape-like shape in a number of registered patents (10-0909242, 10-0827385, etc.) have.

As shown in FIGS. 8 and 9, the leak detection sensor 10 is formed by sequentially laminating the lower adhesive layer 12, the base layer 11, and the upper protective layer 13 from the bottom upward.

The lower adhesive layer 12 is to be attached to where the leakage occurs, is composed of an adhesive tape, the base layer 11 is a layer for forming the conductive lines (11-1, 11-2) on the upper, In order to form the pattern of the lines (11-1, 11-2) in the printing method is formed of a film of PET, PE, PTFE, PVC or other Teflon-based material.

The conductive lines 11-1 and 11-2 are spaced apart from each other on the upper surface of the base layer 11 and disposed in strips in parallel in the longitudinal direction, and are printed with a conductive ink or a silver compound.

The upper protective layer 13 is stacked on top of the base layer 11 to protect the conductive lines 11-1 and 11-2 from external magnetic poles, and like PET, PE, It is formed of PTFE, PVC or other Teflon-based materials, and configured to penetrate the sensing holes 13-1 at predetermined intervals at positions corresponding to the conductive lines 11-1 and 11-2.

Therefore, when a leak occurs, water is introduced through the sensing hole 13-1 at the location where the leak occurs, so that the two conductive lines 11-1 and 11-2 are challenged by the moisture, and the remote controller By detecting the conductive state, that is, the closed circuit is formed, it is possible to detect the leakage.

By the way, the film-type leak detection sensor 10 detects a leak that is dropped by being adhered to the bottom from the bottom of the fluid pipe for leaking, etc., but the fluid leaked from the fluid pipe does not drop or Even if it is dropped, it is not easily detected.

Due to this, there is a problem that can cause more damage due to the failure to check and check the crack state of the fluid tube early.

The present invention is to provide a clamp-type leak detection device for detecting a fluid leaking finely by winding and fixing in the form of a clamp on the outside of the fluid pipe to solve this conventional problem.

Clamp-type leak detection device of the present invention for achieving the above object,

A leak sensor in which a pair of conductive lines are formed side by side on the upper surface of the base layer made of a film material;

Fixing one side of the leak sensor to the inside of the body to electrically connect the conductive line with the power cable introduced from the outside, and the other side of the leak sensor is fixed by the fixing part when received inside the sensor insertion hole formed in the body It consists of a clamp.

The present invention can be installed easily and simply by winding the leak sensor on the fluid tube by a clamp integrated in the film type leak sensor, it is possible to detect the minute leak generated in the fluid tube to check the initial state of the fluid tube leak It has the effect of making quick action.

1 is a view showing the structure of the clamp-type leak detection device of the present invention.
2 is a side cross-sectional view.
Figure 3 is a front sectional view of the clamp body.
4 is a view showing a structure of a leakage sensor.
5 is a coupling diagram of the leak sensor.
Figure 6 is a view for explaining a state in which the present invention is installed.
7 is a view for explaining the installation process of the present invention.
8 and 9 are views showing the structure of a conventional leak detection sensor.

The present invention configured as described above will be described in detail with reference to the accompanying drawings.

1 is a view showing the structure of the present invention, the clamp 100 is a film-shaped leak sensor 200 is shown in a fixed form, the leak sensor 200 in the lower side to the body 110 of the clamp 100 One side of the is fixed to the inside is inserted, has a structure electrically connected to the power cable 140 is fixed to the inside and drawn from the outside during the molding of the body (110).

The sensor insertion hole 120 is formed through the lateral direction in the middle of the body 110 so that the other side of the leak sensor 200 is inserted so that the leak sensor 200 may form a ring shape.

In addition, the fixing part insertion hole 130 penetrates from the upper end of the body 110 to the sensor insertion hole 120 is formed, the fixing part 150 is inserted into the sensor insertion hole 120 of the leak sensor 200 It is fixed to the other side.

To this end, the fixing part 150 has a stopper shape that is press-fitted into the sensor insertion hole 120, the fixing pin 151 protrudes in the lower direction on both lower sides.

Accordingly, as shown in FIG. 2, the fixing pin 151 penetrates the other side of the leak sensor 200 to prevent the leak sensor 200 from being separated.

In addition, in order to facilitate the separation of the press-fitted fixing part 150, as shown in Figure 3, the fixing part insertion hole 130 and the fixing part 150 has a form in which the upper side is wide and gradually narrowed toward the lower side. Departure grooves (131, 132) are formed in both sides in the government insertion hole (130) in the vertical direction, by inserting a pin into the release grooves (131, 132) to fold in the outward direction of the body 110, the fixing portion 150 easily Make it possible to leave.

4 is a view showing the structure of the leak sensor 200, a base layer 210 made of PET, PE, PTFE, PVC or other Teflon-based film material, and the upper layer laminated on the base layer 210 The protective layer 220 is formed.

On the upper surface of the base layer 210, a pair of conductive lines 211 and 212 are spaced apart from each other and disposed in a strip shape in parallel in the longitudinal direction, and are printed with a conductive ink or a silver compound.

The upper protective layer 220 is stacked on top of the base layer 210 to protect the conductive lines 211 and 212 from external stimuli. Like the base layer 210, PET, PE, PTFE, PVC or other Teflon It is formed of a series of materials, and configured to penetrate the sensing holes 221 and 222 at predetermined intervals at positions corresponding to the conductive lines 211 and 212.

Therefore, when a leak occurs, water is introduced through the sensing holes 221 and 222 at the leak location, so that the two conductive lines 211 and 212 are challenged by water, and the remote controller is in a conductive state, that is, a closed circuit is formed. By identifying the leak can be detected.

In addition, the power line of the power cable 140 is electrically connected to the conductive lines 211 and 212, respectively, so that power is supplied from the controller.

Figure 6 is a view showing a state in which the present invention is installed, it is possible to generate an alarm by detecting a leakage leaked finely wound around the outside of the hot water pipe installed in the vertical direction of the heating control system to check this.

The process of installing the present invention on the hot water pipe installed in the vertical direction will be described with reference to FIG.

First, the water adsorption cloth 300 made of a nonwoven fabric as shown in (a) in the hot water pipe to install the present invention, and then to the outside of the water adsorption cloth 300 to wind the leak sensor 200 as shown in (b) At this time, the portion where the upper protective layer 220 is formed is wound inward so as to be in contact with the water adsorption cloth 300 and inserted into the sensor insertion hole 120 to pull tightly.

Thereafter, as shown in (c), the fixing part 150 is inserted into the fixing part insertion hole 130 so that the leak sensor 200 is fixed at the outside of the water adsorption cloth 300.

Therefore, when water leaks from the hot water pipe and flows downward as shown in (d), the water adsorption cloth 300 spreads the leak first, and the leaked water is introduced through the sensing holes 221 and 222 to form a conductive line ( As the 211 and 212 are connected to each other, the remote controller can check whether there is a leak.

100: clamp 110: body
120: sensor insertion hole 1 130: fixing part insertion hole
131,132: Breakaway groove 140: Power cable
150: fixing part 151: fixing pin
200: leak sensor 210: base layer
211,212: conductive line 220: upper protective layer
221,222 Sensing hole 300: water adsorption cloth

Claims (4)

A leak sensor in which a pair of conductive lines are formed side by side on the upper surface of the base layer made of a film material;
Fixing one side of the leak sensor to the inside of the body to electrically connect the conductive line with the power cable introduced from the outside, and the other side of the leak sensor is fixed by the fixing part when received inside the sensor insertion hole formed in the body Consisting of a clamp;
The clamp body has a sensor insertion hole penetrating laterally, and a fixing part insertion hole penetrating from an upper side of the body to a sensor insertion hole is formed, and the fixing part insertion hole is press-fitted with a fixing pin formed at a lower end thereof. Clamp-type leak detection device characterized in that the fixing pin is configured to fix through the leak sensor inserted into the sensor insertion hole.
According to claim 1, wherein the leak sensor is laminated on the upper protective layer of the film material on the upper side of the base layer, the upper protective layer is formed with a sensing hole for exposing the conductive line of the base layer to the top at a predetermined interval Clamp-type leak detection device, characterized in that.
delete The clamp-type leak detection apparatus according to claim 1, wherein the fixing part insertion hole and the fixing part have a wide upper side and a narrower side toward the lower side, and a sidewall of the fixing part insertion hole has a separation groove formed in the vertical direction. .

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