KR101179038B1 - Automatic fire sensing wire - Google Patents

Abstract

PURPOSE: A measurement apparatus of a resistance value in a bobbin for an automatic fire sensing wire is provided to accurately and stably measure a resistance value by measuring the resistance value of a bobbin before the bobbin is installed in a tube. CONSTITUTION: A jig(10) on a lower plate comprises a new column(14) having a protrusion portion(14a). The jig on the lower plate comprises a ceramic ring(12) made of insulating materials which is coupled with the new column. A middle insulating plate(20) is coupled with the jig on the lower plate. A middle insulating plate comprises a ceramic ring(22) made of the insulating materials and a new column(24) with a through hole(24a) in the center which is coupled with the ceramic ring. A cover(30) is combined with the middle insulating plate. The cover comprises a new column(32) having the protrusion portion and a ceramic ring(34) made of the insulating materials which is coupled with the new column.

Description

Resistance measurement device of bobbin for automatic fire detection wire {Automatic fire sensing wire}

The present invention relates to a bobbin which is a key material for an automatic fire detection line, and more particularly, to a resistance value measuring device for manufacturing the bobbin and then checking the bobbin to determine whether the bobbin passes.

As is well known, firefighting equipment is installed in large-scale facilities such as factories, industrial facilities, government offices, schools, financial institutions, apartments, and dense populations, as well as at home. These fire fighting equipment is equipped with an alarm to notify in case of fire.

As an alarm device, a person who detects a fire manually sends a fire signal to a receiver or a repeater by manually operating a switch. However, such a device is operated by manual operation of a person, so it is inconvenient to miss timing. There is a possibility of a large fire.

In order to solve this problem, it is a fire monitoring fire equipment that automatically notifies the fire alarm by detecting the fire early by using heat or smoke generated during the fire.It is a heat detector, a smoke detector, a hybrid detector and a flame detector. Is developed. The flame detector is operated when a change in the amount of light emitted from the flame is a predetermined value or more, and is activated by the change in the amount of received light of the light receiving element due to the flame. There are two types of flame detectors: ultraviolet type for detecting the fire by detecting ultraviolet rays, infrared type for detecting the fire by detecting infrared rays, and complex type for detecting the fire by detecting ultraviolet rays and infrared rays.

These flame detectors have a narrow range of detector selection depending on the wavelength components of ultraviolet and infrared rays emitted from the flame according to various combustion materials, thereby causing problems in sensitivity and response speed. In addition, there is a disadvantage that the sensitivity is lowered when dust is caught in the monitoring window.

On the other hand, there are bimetal type, thermal semiconductor type, etc. as the heat detector, and a photosensitive or scattered light type using photoelectric ore is used as the smoke detector.

However, the above-described fire detection device is generally used in buildings and the like, it is difficult to detect environmental fires in places such as engine rooms, boiler rooms, special vehicles, etc. underground, where communication, power cables, gas pipes, etc. are buried. There is a problem. In addition, even when using a heat detector, there is a limit in length, size, resistance, and the like, and fire detection is required only when heat is applied to a specific location, so there is a problem in that the fire detection position and range are limited. Moreover, most of them are inconvenient because they have to be replaced once a certain part is operated once. In addition, if the heat sensor is used in a specific environment and the heat sensor is to be applied to another environment, for example, an engine operating at a higher temperature, it is inconvenient to replace the entire heat sensor.

On the other hand, as a prior art for solving the above problems there is a patent registration No. 10-0962997 (the name of the invention: automatic fire detection fire fighting device) patented by the applicant as of June 01, 2010. The prior art solves the above-mentioned problems of the prior art as well as generating thermoelectric power for a specific range of temperature irrespective of the length and size of the sensing line and irrespective of the region and region to which heat is applied. It can be used for various purposes by changing only the program of the control part while using the detection line as it is. It can be used semi-permanently and prevents corrosion, damage and breakage of both ends of the detection line assembly by moisture in high temperature and high humidity environment. It features an automatic fire detection firefighting device to maintain the technical characteristics.

In the present invention, in the technical configuration of the automatic fire detection fire extinguishing device having the above characteristics, a method for manufacturing a mineral oxide insulator, which is a core material of the fire detection line, specifically the first shown in Figure 5 of the prior art Mineral oxide insulator 116 (hereinafter referred to as "bobbin") which stabilizes the thermoelectric power generated by the conductor wire 112 and the second conductor wire 114 and allows the numerical value of the thermoelectric power to exhibit a constant value at a specific temperature. ) Has been developed a method for manufacturing, and will be described in detail below.

1. Registered Patent Publication No. 10-0962997 (Invention name: Automatic fire detection fire fighting device. Announcement date: June 10, 2010)

The present invention manufactures a bobbin for the automatic fire detection line, and then by measuring the bobbin resistance value before mounting the bobbin to the tube through the resistance test of the bobbin itself of the automatic fire detection line bobbin that can determine whether the pass before mounting It is an object of the present invention to provide a resistance value measuring device.

Another object of the present invention is to provide an apparatus for measuring resistance of bobbins for automatic fire detection lines, which can reduce unnecessary labor when measuring the resistance of bobbins and also save material required when manufacturing bobbins and contribute to quality control. Is in.

The present invention is a bottom plate jig composed of a new column having a protrusion and a ceramic ring made of an insulating material coupled to the new column, a ceramic ring made of an insulating material and coupled to the bottom plate jig, and a through hole in the center thereof. It characterized in that it comprises an intermediate insulating plate consisting of a column having a column, and the cover is coupled to the intermediate insulating plate and having a protrusion and a ceramic ring made of an insulating material.

The resistance measuring device according to the present invention can measure the resistance value of the bobbin before mounting the bobbin to the tube, not only to measure the accurate and stable resistance value, but also to save unnecessary labor and also required for manufacturing the bobbin. There is a synergistic effect that can significantly reduce material costs and contribute to quality control.

1 is a view showing the configuration of the resistance value measuring device of the bobbin for automatic fire detection line according to an embodiment of the present invention.
2 is a cross-sectional view of the resistance measurement device of the bobbin shown in FIG.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In the following detailed description, exemplary embodiments of the present invention will be described in order to accomplish the above-mentioned technical problems. And other embodiments which may be presented by the present invention are replaced by descriptions in the constitution of the present invention.

1 to 2 is a view showing a device for measuring the resistance value of the bobbin for automatic fire detection line according to an embodiment of the present invention. The resistance measuring apparatus of the present invention is composed of a bottom plate jig, a cover, and an intermediate insulating plate.

Referring to FIGS. 1 and 2, the lower plate jig 10 constitutes a column 14 having a protrusion 14a at an upper end thereof, and the ceramic ring 12 of an insulating material is coupled to the column 14. In addition, the intermediate insulating plate 20 constitutes a ceramic ring 22 made of an insulator, and a column 24 having a through hole 24a is coupled to the circumferential surface of the ceramic ring 22. The cover 30 constitutes a new column 32 having a protrusion 32a, and the ceramic ring 34 of an insulating material is coupled to the new column 32.

In the resistance measurement device configured as described above, the intermediate insulation plate 20 is first coupled to the lower plate jig 10, and then the bobbin is finely crushed into the through-hole 24a of the column 24 of the intermediate insulation plate 20. After filling the powder (hereinafter referred to as "bobbin powder 100"), the cover 30 is bonded to the intermediate insulating plate 20. At this time, the bobbin powder 100 is a state before being mounted on the tube, specifically, the bobbin before the drawing operation is finely pulverized.

Then, the combined resistance value measuring device (preferably the bottom plate jig 10, the intermediate insulating plate 20, the cover 30 is combined) as described above is completely compressed using a conventional vise, and then The resistance change of the bobbin according to the temperature change is inserted into the temperature chamber of.

On the other hand, by using the resistance value measuring apparatus of the present invention configured as described above will be presented in detail the order of measuring the resistance value of the bobbin.

First, the intermediate insulating plate 20 is inserted into the lower plate jig 10, and then a sufficient amount of bobbin powder 100 is filled, and then the cover 30 is put on the intermediate insulating plate 20. Thereafter, after the complete compression with a normal vise, insert it into the temperature chamber, and then take out the compensation conductors 50 and 60 connected to the lower plate jig 10 and the cover 30 to the outside of the normal temperature chamber, Connect to the multitester. Next, the temperature of the temperature chamber is gradually heated to stabilize at 260 ° C. for 15 minutes, and then the change in the resistance value of the bobbin according to the temperature is measured.

10: bottom plate jig 20: middle insulation plate
30: cover

Claims (1)

In the resistance measurement device of the bobbin for automatic fire detection line,
A bottom plate jig 10 composed of a column 14 having a protrusion 14a and a ceramic ring 12 coupled to the column 14 and made of an insulating material;
An intermediate insulating plate 20 composed of a ceramic ring 22 made of an insulating material and coupled to the lower plate jig 10 and a column 24 coupled to the ceramic ring 22 and having a through hole 24a in the center thereof. and;
It is coupled to the intermediate insulating plate 20, characterized in that it comprises a cover 30 consisting of a new column 32 having a protrusion (32a) and a ceramic ring 34 of the insulating material coupled to the new column (32) Resistance measurement device for bobbins for automatic fire detection lines.

Images