KR100906210B1 - Safety diagnosis apparatus for water tank having multi-bulkheads water system - Google Patents

Abstract

A safety diagnosis system of multiple partition walls installed in the waterwork water purification facility is provided to efficiently prevent the deformation of multiple partition walls in advance. A safety diagnosis system of multiple partition walls installed in the waterwork water purification facility is composed of a water tank(10) in which an inflow hole(11) is formed in one side, an outflow hole(12) is formed in the other side, and partition walls(13) are formed to control the flow of water, a housing(20) in which a plurality of corrugated pipes are formed along the circumference, a detection device informing an administrator of the deformation of the partition walls, and a contact detection sensor, a controller transmitting the alarm signal to a control panel, and a restoring device for returning partition walls to the original location.

Description

SAFETY DIAGNOSIS APPARATUS APP WATER TANK HAVING MULTI-BULKHEADS WATER SYSTEM}

The present invention is not only possible to cope with unsettledness by providing a means for quickly knowing when deformation of multiple bulkheads (front / rear position deformation, torsional deformation and angular deformation) occurs in the water tank, which is a water treatment facility. When the multiple bulkheads are deformed, the multiple bulkheads can be prevented from being deformed any more, and the bulkheads of the multiple bulkheads installed in the water tank of the water treatment plant are easy to maintain by automatically returning the deformed bulkheads to their original positions. The present invention relates to a safety diagnosis device.

In general, drinking water means drinking water that has been treated to be suitable for drinking natural water and natural water, as defined in the Ministry of Environment's Drinking Water Management Act, which was amended on August 28, 1997. do.

In other words, drinking water is prepared by applying natural / non-hazardous water such as groundwater, rock water, etc., which is not harmful even if it is ingested for life for various harmful substances, and by applying physical and chemical treatments to be suitable for eating such spring water. Drinking spring water and water resources (water sources, dams, valley water, river water, etc.) can be classified into drinking water for drinking water.

In particular, since tap water is used for most people in the economical life, thorough water quality management is undertaken for the management of national health.

A general water and sewage treatment plant is a facility for disinfecting chemicals and water at the same time to be mixed with each other to disinfect the water used as a constant water inlet is formed in the inlet in which water and disinfectant is introduced, the disinfectant on the other side An outlet for supplying the mixed water to the demand source of each household is formed.

However, since the conventional water treatment plant is mixed with water introduced into the inlet of one center and the disinfectant while flowing toward the outlet of the other center, the water and the disinfectant flowing along the center of the water purification plant also have a short flow path between the inlet and the outlet. In addition to being insufficiently mixed during the flow, the contact time between the water and the disinfectant is short, accompanied by a problem that the disinfection effect is reduced.

Therefore, recently, in order to solve this problem, a vertical partition wall is installed in a zigzag form in a water purification plant in order to smoothly flow water and disinfectant through a longer flow path, and to secure sufficient contact time. Disinfectants are being mixed.

These partition walls are arranged at right angles to the running water inside the water purification plant, and are zigzag on the left and right sides so that water and disinfecting chemicals flowing from the inlet of the water purification plant flow through the partition wall in a maze form, mixed and contacted with each other and discharged to the outlet. It is configured to be.

However, the partition wall of the water purification plant has a problem that the position is deformed in the front, rear, left, and right directions due to strong water pressure, external impact, etc., as well as the occurrence of twisting and the angle is deformed.

The present invention has been made to solve the above problems of the prior art, it is possible to cope with the delay by providing a means to quickly know when the deformation of the multiple bulkheads (front / rear position deformation, torsion deformation and angular deformation) occurs In addition, when the multiple bulkheads are deformed, the multiple bulkheads are effectively prevented from being deformed anymore, and the partitions in which the deformations are generated are automatically returned to their original positions so that they can be easily installed and maintained in the water tank of the water treatment plant. The object of the present invention is to provide a safety diagnosis device for multiple bulkheads.

Means of the present invention for solving the above object is made of a rectangular shape and the inner space is formed, the inlet hole is formed in which the flowing water flows in one side, the outflow hole is formed in the other side is discharged, the inner space is formed, A water tank including a plurality of partition walls arranged at equal intervals in a zigzag shape to control the flow of flowing water, and formed in a circular shape, and a plurality of corrugated pipes are formed at equal intervals along the circumference, and the opening and closing portions are coupled to both sides. And a fixed bracket having a spiral groove formed at the center and a screw thread formed at one side thereof and fastened to the spiral groove of the fixed bracket, and wound winding and seating protrusions on both sides of the housing. Is a protruding movement bar, the center is across the upper end of the movement bar, both ends to the winding projection of the movement bar The first sensing wire is wound, the restoring spring which is seated on the seating protrusion of the movable bar and provides a restoring force to the movable bar, and is installed in the opening and closing portion coupled to the other side of the housing, and the insertion groove into which the movable bar is inserted is formed. The insertion groove has a sensing means composed of a receiving frame further formed in the transverse direction with a second sensing line, and electrically connected to the first and second sensing lines to sense the contact signal when the first and second sensing lines are in contact. A touch sensor, a control unit electrically connected to the touch sensor, receiving a signal transmitted from the touch sensor and transmitting the signal to an administrator, and installed on the partition wall and periodically measuring the distance of the partition wall It is characterized in that it comprises a recovery means for operating in accordance with the value to return the partition.

According to the safety diagnosis device of the multiple bulkhead installed in the water tank of the tap water treatment plant according to the present invention, the contact signal of the first and second sensing lines is generated when the multiple bulkhead is deformed (front / back position deformation, torsional deformation and angular deformation). Through the fact that the manager is immediately informed of the fact of the transformation, the manager has the advantage of being able to grasp the state of the bulkhead from time to time.

In addition, the movable bar applied to the present invention prevents the partition from being deformed anymore when deformation of the partition occurs, and the deformed partition is returned to its original position by the hydraulic cylinder, thereby maintaining the advantage of easy maintenance.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be more apparent.

1 is a combined perspective view of the safety diagnosis device of the multiple bulkhead installed in the water tank of the tap water treatment plant according to the present invention, Figure 2 is a safety diagnosis device of the multiple partition wall installed in the water tank of the tap water treatment plant according to the present invention. 3 is an exploded perspective view of a safety diagnosing device of multiple bulkheads installed in a water tank of a tap water treatment plant according to the present invention, and FIG. 4 is a water tank of the tap water treatment plant according to the present invention. An enlarged view of the restoration means applied to the safety diagnosis device of the installed multiple bulkhead.

As shown in FIG. 1 to FIG. 4, the safety diagnosing device of the multiple bulkhead installed in the water tank of the water treatment plant according to the present invention includes a water tank 10, a housing 20, and a sensing means 30. And a contact detection sensor 50, a control unit 60, and a restoring means 70.

The water tank 10 has a rectangular shape and an internal space is formed, and on one side, an inflow hole 11 into which flow water flows is formed, and on the other side, an outflow hole 12 through which the flow water is discharged is formed. In the space, a plurality of partitions 13 for controlling the flow of running water are arranged at equal intervals in a zigzag form.

In addition, when water is introduced into the internal space of the water tank 10, the disinfectant is introduced at the same time and flows through the partition 13 to be mixed with each other to disinfect water that can be used as a constant.

The housing 20 is formed in a circular shape and an inner space is formed, and mounting grooves 25 are formed at both ends of the housing 20 so that the mounting grooves 25 at both ends are fixed to the upper portions of different partitions 13. A plurality of corrugated pipes 21 are formed at equal intervals along the circumference so that the partition wall 13 is deformed by the impact and strong hydraulic pressure applied from the outside of the water tank 10 (front / rear position deformation, torsional) Deformation and angular deformation) is bent in conjunction with the deformation of the partition wall 13, the corrugated pipe 21 is made of a flexible material.

In addition, opening and closing portions 23 are coupled to both sides of the housing 20, respectively, and insertion protrusions 24 are formed along the circumference of the opening and closing portion 23, and both ends of the housing 20 are circumferentially defined. Accordingly, the inlet groove 22 into which the insertion protrusion 24 of the opening and closing portion 23 is inserted may be formed to seal or open the housing 20 through the opening and closing portion 23. 30 may be easily installed in the inner space of the housing 20, and it is possible to prevent flowing water into the inner space of the housing 20.

In addition, instead of the insertion protrusion 24 and the recessed groove 22, the opening and closing portion 23 forms a male screw thread, and the housing 20 forms a female screw thread engaged with the male screw thread so as to form the housing 20 and the opening and closing portion. (23) may be screwed in.

On the other hand, the sensing means 30 is provided to notify the manager immediately when the partition 13 fixedly arranged in the water tank 10 (front / rear position deformation, torsion deformation and angular deformation) is a risk fact. It consists of a fixed bracket 31, the moving bar 33, the first sensing line 39, the restoring spring 40, and the receiving frame 41.

The fixing bracket 31 is formed in a circular shape and is installed in the opening and closing portion 23 coupled to one side of the housing 20 through welding or bolts and nuts, and a spiral groove 32 is formed in the center thereof.

A thread 34 is formed at one side of the movable bar 33 to be fastened to the spiral groove 32 of the fixing bracket 31, and the other end is formed with a locking groove 37 having an inward shape. A plurality of catching portions 38 are formed at predetermined intervals in the longitudinal direction of the movable bar 33 on both side surfaces close to the inside of the catching groove 37, and a winding protrusion may be formed at a position close to the inside of the catching portion 38. 35) and the seating protrusions 36 are formed to protrude, and in more detail, the winding protrusions 35 and the seating protrusions 36 are positioned to face each other with the moving bar 33 interposed therebetween. When the partition wall 13 is deformed and moved to the front side, the bar 33 moves to the front side as the housing 20 is contracted by the corrugated pipe 21 so that one end thereof is inserted into the insertion groove 42 of the receiving frame 41. The moving bar 33 is located between the partition 13 and the partition wall. The progress partition wall 13 is to prevent any more modifications.

The first sensing line 39 is inserted into the center portion is inserted into the locking groove 37 of the moving bar 33, a portion of the first sensing line 39 protrudes outward of the locking groove 37, the first sensing line 39 Both sides of the center portion of the center portion of the moving bar 33 is fixed to the hanging portion 38 cross-shaped in the X-shape and both ends of the first sensing line 39 is wound around the moving bar 33 is fixed .

The restoring spring 40 is seated on the seating projection 36 of the movable bar 33 so that the movable bar 33 is moved forward and accommodated in the insertion groove 42 of the horizontal frame. It contracts in contact with the surface and returns the moving bar 33 to its original position by the elastic force.

The receiving frame 41 is installed through the welding or bolts and nuts inside the opening and closing portion 23 of the housing 20, and an insertion groove 42 is formed in which one end of the moving bar 33 is inserted in the center portion. The insertion groove 42 is further formed with a second sensing line 43 in the lateral direction. The insertion groove 42 has a diameter larger than that of the movable bar 33, so that the angle of the partition wall 13 is increased. Even if the angle of the movement bar 33 is also bent as it is bent, the movement bar 33 can be easily accommodated.

In addition, current flows in the first and second sensing lines 39 and 43 by a separate power supply source (not shown), and the first and second sensing lines 39 and 43 have excellent electrical conductivity. Copper wire is used.

The contact detection sensor 50 is formed at a position close to the second detection line 43 and is electrically connected to the first and second detection lines 39 and 43 so that the first and second detection lines 39, When 43) contacts, the touch signal is sensed and transmitted to the controller 60.

The control unit 60 is operated by an external power source or its own DC power source, and is electrically connected to the touch detection sensor 50 to receive a signal transmitted from the touch detection sensor 50 to receive an external signal through a wired or wireless connection. Send alarm signal to the control panel.

The restoring means 70 are respectively installed on the partition 13 to periodically measure the distance of the partition 13 so that the partition 13 is deformed beyond the reference value (front / rear position deformation, torsional deformation and angle deformation, etc.). If provided, the partition 13 is provided to return to the original position, it is composed of a fixed bracket 71, the distance sensor 75, and the cylinder 76.

The fixing bracket 71 is located at a position close to the housing 20 included in the sensing means 30, and both sides and the bottom thereof are opened, and the spiral groove 73 having the fixing bolts 74 fastened to both sides thereof. It is formed, the seating grooves 72 are formed between the spiral grooves 73 are respectively seated in the partition 13, when the fixing bolt 74 is turned in one direction, the end of the pair of bolts are the partition ( 13, the fixing bracket 71 is stably fixed to the partition wall 13 by contacting from the front and the rear.

The distance sensor 75 is electrically connected to the control unit 60 and is coupled to the fixing bracket 71 by welding or bolts and nuts, and periodically measures the distance of the partition wall 13 located at the front. When the distance from the partition 13 located in front becomes narrow, it senses it and transmits it to the control unit 60, and the control unit 60 receives the signal transmitted from the distance sensor 75 to open the cylinder 76. In operation, the piston of the cylinder 76 is moved by a predetermined distance by the user to return the partition 13 to its original position. When the piston is moved by a predetermined distance, the hydraulic pressure is discharged to the cylinder 76 so that the piston When the cylinder 76 is connected to a hydraulic pump (not shown) as a normal hydraulic cylinder and the control unit 60 sends an operation signal to the hydraulic pump, the cylinder 76 is returned to its original position. Is injected or Is discharged, one end of the cylinder 76 is coupled to the fixing bracket 71 by welding or bolts and nuts.

In addition, the distance sensor 75 may be mounted in a separate housing (not shown) may be installed on the fixing bracket.

Referring to the operation of the present invention having the configuration as described above are as follows.

First, when the partition 13 located inside the water tank 10 is deformed (front / back position deformation, torsional deformation and angular deformation) by external shock or water pressure, the housing 20 is corrugated pipe ( 21 and the moving bar 33 installed in the housing 21 is inserted into the insertion groove 42 of the receiving frame 41, the first sensing line (installed in the moving bar 33) 39 is in contact with the second sensing line 43 installed in the receiving frame (41).

When the first and second detection wires 39 and 43 are in contact with each other, the touch detection sensor 50 electrically connected to the first and second detection wires 39 and 43 senses the contact signal and is electrically connected to the control unit ( 60), and the control unit 60 receives the signal transmitted from the touch sensor 50 and transmits an alarm signal to an external control panel through wired or wireless.

In addition, the distance sensor 75 senses this when the distance to the partition 13 located in front of the narrow is transmitted to the control unit 60, the control unit 60 transmits a signal transmitted from the distance sensor 75 Receiving and operating the cylinder 76, the cylinder 76 to move the piston by a predetermined distance by the user to return the partition 13 to its original position.

1 is a perspective view of the safety diagnosis device of the multiple partitions installed in the water tank of the water treatment plant according to the present invention.

Figure 2 is an enlarged view of the sensing means applied to the safety diagnosis device of the multiple bulkheads installed in the water tank of the tap water treatment plant according to the present invention.

Figure 3 is an exploded perspective view of the safety diagnosis device of the multiple partitions installed in the water tank of the tap water treatment plant according to the present invention.

Figure 4 is an enlarged view of the restoring means applied to the safety diagnosis device of the multiple bulkheads installed in the water tank of the tap water treatment plant according to the present invention.

** SIGNS FOR MAIN PARTS OF THE DRAWINGS **

10: water tank 11: inlet hole

12: outflow hole 13: bulkhead

20 housing 21 corrugated pipe

22: groove groove 23: opening and closing portion

24: insertion protrusion 25,72: seating groove

30: detection means 31, 71: fixing bracket

32, 73: spiral groove 33: moving bar

34: thread 35: winding protrusion

36: seating projection 37: locking groove

38: dialing portion 39: first detection line

40: restoring spring 41: receiving frame

42: insertion groove 43: second detection wire

50: touch sensor 60: control unit

70: restoring means 74: fixing bolt

75: distance sensor 76: cylinder

Claims (5)

In addition to the rectangular shape, the inner space is formed, the inflow hole 11 is formed in which the flowing water is introduced, the outflow hole 12 is formed in the other side is discharged, the zigzag shape, etc. in the inner space A water tank 10 including a plurality of partitions 13 disposed spaced apart from each other to control the flow of running water; A housing 20 having a circular shape and having a plurality of corrugated pipes 21 spaced at equal intervals along the circumference, and having the opening and closing portions 23 coupled to both sides; The fixing bracket 31 is installed in the opening and closing portion 23 coupled to one side of the housing 20 and the spiral groove 32 is formed at the center thereof, and the thread 34 is formed at one side of the fixing bracket 31. It is fastened to the spiral groove 32, the other side has a moving bar 33, the winding projection 35 and the seating projection 36 protruding on both sides, and the center over the top of the moving bar 33, both ends The first sensing line (39) wound on the winding projection (35) of the movable bar 33 and the seating projection (36) of the movable bar 33 is applied to give a restoring force to the movable bar (33) Restoring spring 40 and the insertion groove 42 is installed in the opening and closing portion 23 coupled to the other side of the housing 20 and the moving bar 33 is formed, the insertion groove 42 A sensing means (30) comprising a receiving frame (41) further formed with a second sensing line (43) in a lateral direction; A contact detection sensor 50 electrically connected to the first and second detection lines 39 and 43 to sense the contact signal when the first and second detection lines 39 and 43 are in contact with each other; A controller 60 electrically connected to the touch sensor 50 to receive a signal transmitted from the touch sensor 50 and to transmit it to an administrator; And a restoring means (70) installed on each of the partition walls (13) and operated according to a measured value by periodically measuring the distance of the partition walls (13) to return the partition walls (13). Safety Diagnosis System for Multiple Bulkheads Installed in Water Tanks of Water Treatment Facilities. The method of claim 1, Safety diagnosing device of the multiple bulkheads installed in the water tank of the water purification treatment facility, characterized in that the bottom of the housing 20 is further provided with a seating groove 25 which is seated on the upper portion of the partition wall (13). The method of claim 1, Both ends of the housing 20 are further formed with a recess groove 22 along the circumference thereof, and the water supply, characterized in that the insertion protrusion 24 is further formed along the circumference of the opening and closing portion 23 corresponding thereto. Safety Diagnosis System for Multiple Bulkheads Installed in Water Tanks of Water Treatment Facilities. The method of claim 1, A hooking groove 37 is further formed at one end of the movable bar 33, and a plurality of hooking portions 38 are formed on both sides of the movable bar 33 in the lengthwise direction so that a central portion of the first sensing line 39 is the locking groove. Fixed to (37), and both sides of the first sensing line (39) centered on both sides of the water tank of the water treatment plant, characterized in that the cross-fixed to the hanging portion 38 in an X shape. Safety Diagnosis Device for Multiple Bulkheads Installed. The method of claim 1, The restoration means 70, Both sides and the bottom is open, and a seating groove 72 is formed on the upper portion of the partition wall 13, and spiral grooves 73 are formed on both sides, respectively, and the fixing bolt 74 is formed on the spiral groove 73. The fixed bracket 71 is fastened to the fixed bracket 71 and electrically connected to the control unit 60, and periodically measures the distance of the partition wall 13 positioned at the front to be positioned at the front. When the distance to the partition wall 13 is narrowed consists of a distance sensor 75 for sensing this, and the cylinder 76 is operated according to the measured value of the distance sensor 75 to position the partition wall 13 in place. Safety diagnosis device for multiple bulkheads installed in the water tank of the tap water treatment plant, characterized in that configured.

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