KR102539792B1 - Oxygen Concentration Sensing Manhole Cover for Operation Management of Underground Transmission and Distribution Facilities - Google Patents

Abstract

The present invention relates to an oxygen concentration sensing manhole cover for operation and management of underground transmission and distribution facilities, comprising: a stopper 44 closing an upper end of a measurement port 40; A latch hole 35 formed at an end of the bar receiving groove 33; A latch withdrawal groove 36 formed at the upper edge of the latch hole 35; It is formed horizontally on the inner wall of the latch hole 35 and includes a tapped hole 37 to which the pin bolt 53 is coupled.

Description

Oxygen Concentration Sensing Manhole Cover for Operation Management of Underground Transmission and Distribution Facilities}

The present invention relates to an oxygen concentration sensing manhole cover for operation and management of underground transmission and distribution facilities, and more particularly, to an oxygen concentration detection manhole cover for operation and management of underground transmission and distribution facilities used to precisely measure the oxygen concentration inside a manhole.

Transmission and distribution facilities are divided into overhead lines installed in the air by steel towers and underground lines buried in the ground. For reasons such as purification of the urban environment, securing the right to view, prevention of safety accidents, and convenience of maintenance and repair, old or new lines tend to be newly built as underground lines.

In general, the construction method of underground transmission and distribution facilities can be divided into a direct sales method, a duct method, and a power distribution method. The direct burial method is a method of directly burying cables in the ground, which is difficult to expand and remove, and is rarely applied at present due to the inconvenience of maintenance and repair. Due to the high construction cost, it is applied only in special cases.

The conduit type is a method of installing a manhole at the midpoint of a conduit buried in the ground and laying cables in the conduit, and is widely used due to easy maintenance and low construction cost due to the manhole connecting the underground and the ground.

Workers enter the space inside the manhole to operate and manage transmission and distribution facilities buried in the ground, and they must be especially careful about suffocation due to lack of oxygen or harmful gas inside the manhole.

To this end, Korean Patent Registration No. 10-2276455 (published date 2021.07.12.) discloses that a sensor whose color changes according to the oxygen concentration inside the manhole is entered into the manhole using a rope and then pulled out to measure the oxygen concentration. The prior art available is limited.

However, this prior art has a problem in that the measurement time is greatly delayed because the degree of discoloration can be confirmed only by entering the sensing unit into the manhole, exposing it with a certain time delay, and then pulling the rope to pull the sensing unit out.

In addition, the prior art has a disadvantage in that the degree of discoloration of the sensor varies greatly depending on the storage period and storage environment, so the reliability of measurement is greatly reduced. It is difficult to work, and there is a problem that a large deviation occurs in the measurement depending on the depth of the sensing unit entering the inside of the manhole.

Domestic Patent Registration No. 10-2276455 (Announcement Date 2021.07.12.) Domestic Patent Registration No. 10-2219411 (Announcement date 2021.02.23.)

The present invention has been made to solve the above problems, and its object is to provide an oxygen concentration sensing manhole cover for operating and managing underground transmission and distribution facilities that can quickly and precisely measure the oxygen concentration of air remaining inside the manhole.

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In order to achieve the object of the present invention, a manhole cover for detecting oxygen concentration for operation and management of underground transmission and distribution facilities includes a measuring hole penetrating the center of the manhole cover; A pair of keyways formed on the left and right sides of the inner circumferential surface of the measuring hole; A bar receiving groove formed on the upper surface of the manhole cover to pass through the center of the measuring hole and meeting the key groove; a measurement port positioned and accommodated in the measurement hole and having a through hole; A pair of clevis formed on the left and right sides of the outer circumferential surface of the upper end of the measuring port and guided in the vertical direction along the keyway; A pair of hanger bars whose lower end is hinged to the clevis, inserted into the bar storage groove when unfolded horizontally, lowered along the keyway when erected vertically, and hanging the measuring port at a certain depth inside the manhole; A hinge pin connecting the clevis and the hanger bar; L-shaped clasps formed at the top of the hanger bar and caught in the bar storage groove when the hanger bar is erected; A pair of pin guides each formed on the clasp; A pair of pin bolts inserted into the center of the pin guide and erected vertically together with the hanger bar when the hanger bar is erected; A pair of pin holes formed on the bottom surface of the bar receiving groove and through which pin bolts are inserted and caught; An oxygen sensor that is lowered into the manhole together with the measurement port while being inserted into the measurement port and detects the oxygen concentration inside the manhole through the through hole; In including a communication line led out from the upper center of the oxygen sensor through the measurement hole,
a stopper closing an upper end of the measurement port; A latch hole formed at an end of the bar receiving groove; A latch withdrawal groove formed at the upper edge of the latch hole; It is formed horizontally on the inner wall surface of the latch hole and includes a tapped hole to which a pin bolt is coupled.

As described above, the present invention is configured to measure the oxygen concentration inside the manhole 20 at a constant position by the measuring port 40 and the oxygen sensor 60 located at a constant depth by the hanger bar 50 Because of this, it has the effect of obtaining data on oxygen concentration under uniform conditions.

There is an effect of always positioning the measuring port 40 and the oxygen sensor 60 at a constant depth by the clasp 51 formed on the upper end of the hanger bar 50 .

Since the lower end of the pin bolt 53 is configured to be inserted into the pin hole 34, there is an effect of preventing the latch 51 from coming off in the lateral direction.

The effect of allowing the clevis 42 and the hanger bar 50 to enter the inside of the manhole cover 30 or to be drawn out of the manhole cover 30 through the keyway 32 formed on the inner circumferential surface of the measuring hole 31 there is

Since the hanger bar 50 can be stored in the bar storage groove 33 formed in the manhole cover 30, there is an effect of protecting the hanger bar 50 from vehicles or pedestrians passing through the road 22. there is.

Since the pin bolt 53 can be coupled to the tap hole 37 formed on the inner wall of the clasp hole 35, there is an effect of preventing the clasp 51 and the hanger bar 50 from being separated.

Using the latch withdrawal groove 36 formed in the latch hole 35, there is an effect of conveniently withdrawing the latch 51.

Furthermore, since the present invention is configured to close the upper entrance of the measurement port 40 using the stopper 44, an effect of preventing contamination of the measurement port 40 can also be expected.

1 is a cross-sectional view showing a state in which the hanger bar and the measuring port are accommodated in the manhole cover in the present invention
Figure 2 is a cross-sectional view showing measuring the oxygen concentration inside the manhole in the present invention
Figure 3 is a half cross-sectional perspective view of Figure 1
Figure 4 is a half cross-sectional perspective view of Figure 2
5 is an exploded perspective view showing a measuring port, a hanger bar, a pin bolt and their surrounding components according to the present invention;
6 is a front view showing that the hanger bar according to the present invention is erected vertically
Figure 7 is an exploded perspective view of the main part according to the present invention
8 is an enlarged perspective view showing that a hanger bar according to the present invention is erected vertically and an oxygen sensor is inserted into a measurement port;
9 is a cross-sectional perspective view showing a measuring port and a stopper according to the present invention;
10 is an exploded perspective view showing a hanger bar according to the present invention
11 is a perspective view showing a manhole cover according to the present invention

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings 1 to 11.

The present invention includes a measuring hole 31 passing through the center of the manhole cover 30; A pair of key grooves 32 formed on the left and right sides of the inner circumferential surface of the measuring hole 31; It is formed on the upper surface of the manhole cover 30 so as to pass through the center of the measuring hole 31 and includes a bar receiving groove 33 meeting the key groove 32.

The measuring hole 31 may be formed in a penetrating type at the center of the manhole cover 30, and the key groove 32 may be formed in a vertical penetrating type to have a certain width and depth on the left and right sides of the inner circumferential surface of the measuring hole 31 .

The bar storage groove 33 may be formed with a certain width on the upper surface of the manhole cover 30 and may be formed to have a slightly larger width than the width of the hanger bar 50.

The present invention is located and stored in the measuring hole 31, the measuring port 40 having a through hole 41; It is formed on the left and right sides of the upper outer circumferential surface of the measuring port 40, and includes a pair of clevis 42 guided in the vertical direction along the key groove 32.

The measuring port 40 may be formed into a cylindrical shape with an open top and a bottom, and a plurality of through holes 41 are drilled on the outer circumferential surface and the bottom surface so that the air remaining inside the manhole 20 passes through the through holes 41. Let it flow into the oxygen sensor 60.

The clevis 42 may be integrally formed with the measurement port 40 and may be formed to achieve left-right symmetry.

In the present invention, the lower end is hinged to the clevis 42, inserted into the bar storage groove 33 when unfolded horizontally, descended along the keyway 32 when erected vertically, and the measuring port 40 is inserted into the manhole 20 A pair of hanger bars 50 that are suspended at a certain depth inside; a hinge pin 43 connecting the clevis 42 and the hanger bar 50; It is formed at the upper end of the hanger bar 50, and includes a L-shaped clasp 51 caught in the bar receiving groove 33 when the hanger bar 50 is erected.

As shown in FIG. 10 , the hanger bar 50 may be formed using a steel plate having a certain thickness as a material, and may be configured by overlapping two steel plates and then welding them.

As shown in FIG. 10, the hinge pin 43 is installed through the eye part 54 and the clevis 42 formed at the lower end of the hanger bar 50, and serves to support the rotation of the hanger bar 50 do

The hinge pin 43 may be composed of a pin having a countersunk head. In this case, a countersunk hole is formed in a hole formed in the center of the clevis 42, and then the hinge pin 43 is inserted into the countersunk hole, and then The end of the protruding hinge pin 43 may be molded into a dish shape so that both ends of the hinge pin 43 match both surfaces of the clevis 42 .

The reason why the step difference is prevented from occurring by matching both ends of the hinge pin 43 and the surface of the clevis 42 is that interference by the hinge pin 43 occurs when the clevis 42 moves in the keyway 32. to prevent it from happening.

The clasp 51 is for hanging in the bar receiving groove 33 when the hanger bar 50 is erected vertically, for example, the clasp 51 may be formed in an L shape.

The present invention includes a pair of pin guides 52 each formed on the latch 51; A pair of pin bolts 53 inserted into the center of the pin guide part 52 and vertically erected together with the hanger bar 50 when the hanger bar 50 is erected; It is formed on the bottom surface of the bar receiving groove 33 and includes a pair of pin holes 34 through which the pin bolts 53 are inserted.

As shown in FIG. 10, when the hanger bar 50 is composed of two steel plates, the pin guide part 52 is formed by forming a part of the clasp 51 in a semicircular shape, overlapping the two steel plates, and then welding the pin guide part ( 52) may be formed in a cylindrical shape.

A head that can be held and handled by hand is formed at one end of the pin bolt 53, it can be configured by forming a screw thread only on a part of the outer circumferential surface of the pin bolt 53, and the pin hole 34 can be formed vertically. there is.

The present invention is an oxygen sensor 60 that descends into the manhole 20 together with the measurement port 40 while being inserted into the measurement port 40 and detects the oxygen concentration inside the manhole 20 through the through hole 41. ); It includes a communication line 61 that is led out from the center of the top of the oxygen sensor 60 through the measurement hole 31.

The oxygen sensor 60 is for measuring the oxygen concentration in the air remaining inside the manhole 20, and the oxygen concentration is measured at a certain depth inside the manhole 20 by the hanger bar 50 and the measuring port 40. Detected as an analog signal.

The communication line 61 is for connecting the oxygen sensor 60 and the A/D converter 62 and may be composed of a flexible wire.

The present invention includes an A/D converter 62 that converts an analog signal detected from an oxygen sensor 60 through a communication line 61 into a digital signal; a control unit 63 that converts the digital signal converted from the A/D converter 62 into a character code for displaying the oxygen concentration; It includes a display 64 that displays the oxygen concentration by outputting characters corresponding to the character codes output from the control unit 63 to the screen.

The A/D converter 62 is an analog/digital converter that converts the analog signal detected from the oxygen sensor 60 into a digital signal, and the display 64 may be composed of, for example, an LCD display for outputting characters. .

The control unit 63 includes circuits such as an arithmetic processing unit, a data memory such as RAM, a program memory such as EEPROM, a clock generator, an input/output interface circuit unit, a timer, a comparator, a pulse width modulation unit, and a serial communication unit inside the chip. It can be configured with a microcontroller integrated in

The present invention includes a stopper 44 for closing the top of the measuring port 40; A latch hole 35 formed at an end of the bar receiving groove 33; A latch withdrawal groove 36 formed at the upper edge of the latch hole 35; It is formed horizontally on the inner wall of the latch hole 35 and includes a tapped hole 37 to which the pin bolt 53 is coupled.

As shown in FIGS. 1, 3, 5 and 9, the stopper 44 is the top of the measuring port 40 in a state where the measuring port 40 is located in the measuring hole 31 formed in the manhole 20. It is for closing the inlet, and the stopper 44 can be installed by press-fitting the upper entrance of the measuring port 40, and when measuring the oxygen concentration inside the manhole 20, the stopper 44 from the measuring port 40 separate

As shown in FIG. 11, the clasp hole 35 is formed with a width through which the clasp 51 formed at the end of the hanger bar 50 and the pin guide part 52 can enter.

The latch withdrawal groove 36 may be formed in a semicircular shape, for example, and when the hanger bar 50 is withdrawn from the bar receiving groove 33, the latch 51 is held by using the latch withdrawal groove 36. At this time, when a tool such as pliers enters the clasp withdrawal groove 36 to grab both sides of the clasp 51 and then lifts the clasp 51 upward, the hanger bar 50 is withdrawn from the bar receiving groove 33.

The tap hole 37 is for screwing and fixing the pin bolt 53, and when the pin bolt 53 is screwed into the tap hole 37, the hanger bar ( 50) can be prevented from moving.

Reference numeral 21 in the drawing indicates a frame buried in the road 22 and supporting the manhole cover 30, and 38 indicates a rainwater inlet hole formed in the manhole cover 30.

Hereinafter, the operation according to the present invention will be described in detail based on the accompanying drawings.

In the case of measuring the oxygen concentration inside the manhole 20, with the pin bolt 53 separated from the tap hole 37, as shown in FIGS. 6 and 11, the latch 51 using the latch withdrawal groove 36 ) is held and lifted upward, the hanger bar 50 is withdrawn from the bar receiving groove 33 while being rotated around the hinge pin 43.

Subsequently, as shown in FIG. 8, the oxygen sensor 60 is inserted into the measurement port 40 with the hanger bar 50 vertically erected, and then the measurement port 40 and the hanger bar 50 are connected to the manhole cover 30. ), the clevis 42 and the hanger bar 50 pass through the key groove 32 and the latch 51 is caught in the bar receiving groove 33 as shown in FIGS. 2 and 4 When the lower end of the pin bolt (53) is inserted into the pin hole (34) is caught.

At this time, the measuring port 40 and the oxygen sensor 60 are located at a certain depth inside the manhole 20, and the communication line 61 connected to the oxygen sensor 60 passes through the center of the measuring hole 31 to the outside. are withdrawn

As described above, the upper end of the hanger bar 50 is maintained in a stable state by the pin bolt 53 inserted into the pin hole 34 and the clasp 51 caught in the bar receiving groove 33 and supported.

As shown in FIG. 2, the air remaining inside the manhole 20 flows into the oxygen sensor 60 through the through hole 41 formed in the measuring port 40, and the oxygen sensor 60 An analog signal according to the oxygen concentration is output.

At this time, when the analog signal output from the oxygen sensor 60 is input to the A/D converter 62 through the communication line 61, the A/D converter 62 converts the analog signal into a digital signal, and the A/D converter 62 converts the analog signal into a digital signal. The digital signal input from the converter 62 to the control unit 63 is converted into a character code for displaying the oxygen concentration and then output to the display 64.

At this time, the display 64 displays the oxygen concentration by outputting characters corresponding to the character code output from the control unit 63 on the screen. , safety accidents such as gas poisoning can be prevented.

On the other hand, if the latch 51 and the hanger bar 50 are raised, the measuring port 40 and the oxygen sensor 60 can be pulled out of the manhole cover 30. At this time, the oxygen sensor 60 from the measuring port 40 1, 3 and 5, as shown in FIGS. 1, 3 and 5, the measurement port 40 is placed in the center of the measurement hole 31 in a state where the hanger bar 50 is spread horizontally, and the hanger bar 50 When is inserted into the bar receiving groove 33, the clasp 51 is inserted into the clasp hole 35.

Thereafter, when the pin bolt 53 is coupled to the tapped hole 37 formed on the inner wall of the clasp hole 35, the loss of the hanger bar 50 can be prevented, and the upper entrance of the measuring port 40 is connected to the stopper 44. ), it is possible to protect the measurement port 40 from rainwater or contaminants.

20: manhole 21: frame
22: road 30: manhole cover
31: measuring hole 32: keyway
33: bar storage groove 34: pin hole
35: latch hole 36: latch withdrawal groove
37: tap hole 38: rainwater inlet hole
40: measurement port 41: through hole
42: clevis 43: hinge pin
44: stopper 50: hanger bar
51: latch 52: pin guide
53: pin bolt 54: Ibu
60: oxygen sensor 61: communication line
62: A / D converter 63: control unit
64: display

Claims (3)

delete delete a measuring hole 31 penetrating the center of the manhole cover 30;
A pair of key grooves 32 formed on the left and right sides of the inner circumferential surface of the measuring hole 31;
A bar receiving groove 33 formed on the upper surface of the manhole cover 30 to pass through the center of the measuring hole 31 and meeting the key groove 32;
a measuring port 40 positioned and accommodated in the measuring hole 31 and having a through hole 41;
A pair of clevis 42 formed on the left and right sides of the upper outer circumferential surface of the measurement port 40 and guided in the vertical direction along the key groove 32;
The lower end is hinged to the clevis 42, is inserted into the bar receiving groove 33 when unfolded horizontally, and descends along the keyway 32 when erected vertically, and the measuring port 40 is inserted into the manhole 20 ) A pair of hanger bars 50 that are suspended and positioned at a certain depth inside;
a hinge pin 43 connecting the clevis 42 and the hanger bar 50;
L-shaped clasps 51 formed at upper ends of the hanger bars 50 and caught in the bar receiving grooves 33 when the hanger bars 50 are erected;
a pair of pin guide parts 52 each formed on the clasp 51;
A pair of pin bolts 53 inserted into the center of the pin guide part 52 and vertically erected together with the hanger bar 50 when the hanger bar 50 is erected;
a pair of pin holes 34 formed on the bottom surface of the bar receiving groove 33 and through which the pin bolts 53 are inserted and caught;
Oxygen sensor 60 that descends into the manhole 20 together with the measurement port 40 while being inserted into the measurement port 40 and detects the oxygen concentration inside the manhole 20 through the through hole 41 );
a communication line 61 led out from the center of the top of the oxygen sensor 60 through the measurement hole 31;
In the oxygen concentration detection manhole cover for operation and management of underground transmission and distribution facilities including,

a stopper 44 closing an upper end of the measurement port 40;
a latch hole 35 formed at an end of the bar receiving groove 33;
A latch withdrawal groove 36 formed at the upper edge of the latch hole 35;
a tap hole 37 formed horizontally on an inner wall surface of the clasp hole 35 and to which the pin bolt 53 is coupled;
Oxygen concentration detection manhole cover for operation and management of underground transmission and distribution facilities comprising a.

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