KR100860289B1 - Chemicals pouring equipment - Google Patents

Abstract

The present invention relates to a chemical liquid injecting device for quantitatively injecting chemical liquid in order to purify wastewater in a wastewater treatment plant or a sewage treatment plant.

The present invention continuously replenishes a chemical solution so that the level of the chemical liquid in the chemical tank can be kept constant at all times, while immersing the chemical liquid in a rolling or rotating tray, and then pouring the chemical liquid into the wastewater in the chemical tank. Chemical solution can be quantitatively injected into the reservoir, and the level of the chemical solution is automatically compensated to a certain level even if the level of the chemical tank changes over time, so that the amount of the chemical solution injected into the wastewater storage tank can be kept constant at all times. It provides a chemical liquid input device that can reduce the installation cost, reduce the frequent repair and replacement of components, and expect the economic effect of reducing the maintenance cost by allowing the chemical liquid to be quantitatively injected from the chemical liquid tank to the waste water storage tank by a relatively simple device.

Waste water treatment plant, chemical liquid tank, waste water storage tank, chemical liquid input device, fixed quantity input

Description

Chemical pouring equipment {Chemicals pouring equipment}

1 is a perspective view showing an embodiment of the chemical liquid injector according to the present invention

2 is a plan view of FIG. 1

Figure 3 is a side view showing the operating state of FIG.

Figure 4 is a perspective view showing another embodiment of the chemical liquid injector according to the present invention

5 is a plan view of FIG.

6 is a side view showing the operating state of FIG.

<Explanation of symbols for main parts of drawing>

10: chemical liquid supply port 11: chemical liquid discharge passage

12: chemical liquid tank 13: water level detector

14 valve 15 drive shaft

16: tray 17: motor

18: opening 19: partition

20a: tray operation bar 20b: tray support bar

21: motor bracket 22: hinge shaft

23: roller

The present invention relates to a chemical liquid injecting device for quantitatively injecting a chemical solution to purify wastewater in a wastewater treatment plant or a sewage treatment plant. More specifically, the chemical liquid in the chemical tank is quantified while maintaining a constant level of the chemical liquid in the chemical tank. In addition, even if the liquid level in the chemical tank is variable over time, the liquid level is automatically compensated so that the correct amount of chemical is always added, so that the mixing ratio of the waste water and the chemical can be kept constant at all times. The present invention relates to a chemical liquid injector that can be compactly configured with the introduction of a driving system and an input system using a mechanical mechanism such as a rotating method.

In general, industrial wastewater generated from homes and industrial wastewater generated from factories, etc., as it is, it causes environmental pollution such as land pollution as well as destroying water resources, so the wastewater must be discharged in a purified state.

Wastewater treatment systems usually consist of a system in which wastewater is introduced, followed by aerobic, anaerobic, sedimentation and discharge.

Currently, various wastewater treatment systems employ a method of filtering by filtering network in the wastewater storage tank while stirring the wastewater flowing into the wastewater storage tank, and mixing and purifying chemicals that decompose the filtered wastewater. .

In the case of supplying the chemicals required for such wastewater treatment, it is very important to continuously input the quantitative liquid into the wastewater, and various apparatuses have been disclosed and used.

However, most of the existing chemical liquid injectors have to install complicated and complicated facilities, and the installation cost is considerable, and the maintenance is difficult due to the frequent occurrence of failures, resulting in inconvenient handling and inefficient defects. And, above all, there was a limit in increasing the purification efficiency associated with wastewater treatment because of difficulty in steadily injecting the correct amount of chemical liquid.

Therefore, the present invention has been devised in view of the above, while continuously replenishing the chemical solution so that the liquid level of the chemical solution tank is always kept constant, while pouring the liquid into the rolling method or rotary tray and then pouring it It is an object of the present invention to provide a chemical liquid input device capable of quantitatively introducing chemical liquids from a chemical liquid tank to a waste water storage tank using a chemical liquid input mechanism.

In addition, another object of the present invention is to provide a chemical liquid injector so that the level is automatically compensated to a certain level even if the level of the chemical liquid tank is variable over time, so that the amount of the chemical liquid to the waste water storage tank is always maintained To provide.

In addition, the present invention is to reduce the installation cost, reduce the repair and replacement of frequent parts, and to reduce the cost of maintenance by adding a chemical solution from the chemical solution tank to the waste water storage tank by a relatively simple device, the chemical liquid input can be expected Another object is to provide a device.

The present invention for achieving the above object has a chemical liquid supply port on one side and the chemical liquid discharge path of the other side, and a chemical liquid tank that can store a certain amount of the chemical liquid, a level sensor installed inside the chemical liquid tank to detect the level of the chemical liquid, A valve for replenishment of the chemical liquid and connected to the chemical liquid supply port side, at least two side-by-side trays installed in a position adjacent to the chemical liquid discharge passage in the chemical liquid tank and pouring the chemical liquid in the chemical liquid tank and pouring into the chemical liquid discharge passage; It characterized in that it comprises a drive shaft for the operation of the tray and a motor for operation of the drive shaft.

In addition, the tray is a rolling method in which the front end is supported by a hinge shaft installed across the chemical tank and the rear end is intermittently lifted by the tray operating bar of the drive shaft which is driven by the motor while the chemical liquid is poured and discharged. It is characterized in that the operation.

In addition, the tray is directly supported on the drive shaft is installed across the chemical tank is supported by the tray support bar of the drive shaft driven by the motor and rotated together while operating in a rotational manner to embed and discharge the chemical liquid It is characterized by.

In addition, the tray operation bar and the tray support bar of the drive shaft is characterized in that arranged in a zigzag form for the sequential operation of the tray.

In addition, the tray operation bar of the drive shaft is characterized in that it has a roller for reducing friction when in contact with the bottom of the tray.

In addition, the chemical liquid tank is characterized in that it further comprises a partition that can partition the chemical liquid discharge side and the chemical liquid supply side while having an open portion at the bottom.

In addition, the trays are arranged in a direction opposite to each other up and down, it is characterized in that it can be poured after pouring the chemical liquid alternately.

In addition, the tray is characterized in that one end in the longitudinal direction is wide and the other end is formed narrow so that the chemical liquid can be loosened to the wide side and the chemical liquid can be poured into the narrow side.

In addition, the water level sensor is characterized in that it is made of a plotter method that works in conjunction with the opening and closing of the valve while descending according to the level of the chemical liquid using buoyancy.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 and 4 are perspective views showing various embodiments of the chemical liquid injector according to the present invention.

1 and 4, the chemical liquid tank 12 for continuously quantitatively storing a predetermined amount of chemicals in a liquid state is formed in the form of a substantially rectangular storage tank having a constant volume.

One side of the chemical tank 12, for example, the rear side is provided with a chemical liquid supply port 10 made of a kind of piping connected to the chemical storage tank (not shown) side to serve as a supply of the chemical liquid, the other side The front is equipped with a chemical discharge passage 11 extending from the inside.

At this time, the chemical discharge passage 11 is disposed long on the inner wall side of the chemical liquid tank 12 while being inclined downward toward the outside while taking the form of a water channel, and its tip portion extends to the waste water storage tank (not shown). Accordingly, the chemical liquid poured into the chemical discharge passage 11 naturally flows down the inclined passage so that it can be introduced into the wastewater storage tank.

In addition, the inner side of the chemical tank 12 is provided with a level sensor 13, which is a sensing means that can keep the level of the chemical liquid constant.

As the chemical solution is continuously added, the chemical liquid level of the chemical liquid tank 12 is lowered. At this time, the water level detector 13 detects the lower water level so that the chemical liquid of the shortage can be replenished.

To this end, a valve 14 is mounted in the chemical liquid supply port 10, which is a passage through which new chemical liquid is supplied, and the chemical liquid can be supplemented and supplied in a manner of controlling the opening and closing of the valve 14 at this time.

For example, a controller (not shown) may receive a detection signal of the water level detector 13 to supplement and supply the chemical liquid by outputting a control signal for controlling the opening and closing of the valve 14.

In a preferred embodiment of the present invention employs a conventionally known floater level sensor 13 provides a method for replenishing the chemical liquid in real time according to the change of the water level.

For example, the water level sensor 13 is made of a floater that can float or sink by buoyancy, one side of the floater is connected to the valve 14 side through a rod, the valve in accordance with the rise and fall of the floater Since the 14 can be closed or opened, a corresponding amount of the chemical liquid can be supplied from the chemical storage tank in proportion to the degree of change in the level of the chemical liquid tank 12.

In addition, the interior of the chemical tank 12 is divided into two zones by the partition 19, that is, divided into two zones to which the tray 16 to be described later belongs and the water level sensor 13 belongs. .

At this time, the lower end of the partition 19 is provided with an opening 18 to enable the contact of the chemical liquid between both zones, so that the water level in the tray side zone and the water level sensor side zone can maintain the same level.

Such a partition 19 can be obtained to prevent the malfunction of the water level detector 13 from the influence of the surface fluctuations during the operation of the tray 16.

The tray 16 plays a role of substantially injecting the chemical liquid.

The tray 16 is a box-shaped box having a shallow depth, which is a kind of shallow depth. The tray 16 is rolled back and forth through a rolling operation or a rotational operation, or enters and exits a chemical solution, and then a predetermined amount of chemical liquid is poured into the chemical discharge passage 11 Pours into the chemical solution by pouring into).

Since the tray 16 is wide at one end in the longitudinal direction and narrow at the other end, the tray 16 is able to float a predetermined amount of the chemical liquid sufficiently by using the wide side, and can effectively pour the chemical liquid without flowing the narrow side. It is possible to quantitatively input the chemical liquid through (16).

Such a tray 16 may be composed of a plurality of trays arranged side by side with a predetermined interval along the chemical liquid discharge passage 11 while taking a right position with respect to the chemical liquid discharge passage 11, in the present invention the tray 16 Shows an example of two configurations.

The tray 16 provided in the present invention has an operation mechanism for discharging and then discharging the chemical liquid through two operation methods, a rolling method and a rotation method.

As shown in Fig. 1 to Fig. 3, the rolling tray 16 is shown here.

The tray 16 is installed in a structure in which its tip is supported by a hinge shaft 22 installed across the chemical liquid tank 12.

The tray 16 installed in this way can be rotated about the hinge shaft 22, and has a characteristic that the rear part is always struck down by its own weight.

For the operation of the tray 16, one side of the hinge shaft 22 is arranged in parallel with the drive shaft 15, the rolling operation of the tray 16 by the drive shaft 15 rotated by the motor 17 This becomes possible.

That is, the drive shaft 15 is supported in a structure that both ends are rotatable across the chemical tank 12 while passing through the bottom of the tray 16, and one end is connected to the motor 17 side, the length of the drive shaft 15 Each tray 16 is provided with a tray operation bar 20a having a one-to-one speed, and when the motor 17 is operated, the tray 16 is driven by the tray operation bar 20a of the drive shaft 15. The rear end is intermittently heard, allowing the drug to be drained and then discharged.

In particular, the respective tray operation bar 20a is arranged in a zigzag shape along the longitudinal direction of the drive shaft 15, so that each of the tray operation bars 20a alternately has an upper limit position and a lower limit position when the drive shaft 15 rotates. Each tray 16 operated by the tray operation bar 20a can be discharged after sequentially pouring the chemical liquid while rolling back and forth around the hinge shaft 22.

For example, as shown in FIG. 3, when the drive shaft 15 rotates according to the operation of the motor 17, the tray operation bar 20a of the drive shaft 15 raises the bottom surface of the rear end of the tray 16. At the same time, the tray 16 is in a state in which the rear end is lifted from the chemical liquid and contains a predetermined amount of chemical liquid, and when the tray operation bar 20a reaches the upper limit position, the tray 16 is rearward. Being inclined higher than the front it is possible to pour the liquid in the front of the liquid discharge path (11) in the front.

After the discharge of the chemical solution, the tray 16 is released from the interference trajectory of the tray operation bar 20a and at the same time, its rear end is struck downward and re-enters the chemical solution again, thereby preparing to embed the chemical again. .

As the tray operation bar 20a of the drive shaft 15 is arranged in a zigzag form, when one tray 16 is pouring the chemical liquid, the other tray 16 next to the tray 16 is in the state of containing the chemical liquid. do.

Each of the trays 16 arranged in parallel in this manner is capable of quantitatively discharging the chemical liquid in the chemical liquid tank 12 to the chemical liquid discharge passage 11 while repeating the operation of pouring and pouring the chemical liquids alternately.

In particular, at least two rollers 23 are attached to the tray operation bar 20a of the drive shaft 15, thereby reducing friction upon contact with the bottom surface of the tray 16.

As shown in Figs. 4 to 6, the tray 16 of the rotation type is shown here.

The tray 16 is installed in a structure directly supported by the drive shaft 15 rotatably installed on the wall surface of the chemical liquid tank 12 while extending from the motor 17 side.

At this time, each tray 16 can be stably supported by the respective tray support bar (20b) of the drive shaft (15).

That is, the tray 16 can be rotated together with the drive shaft 15 while being integrally supported on the tray support bar 20b of the drive shaft 15 in a state where the bottom thereof is supported.

Here, it is preferable to mount a common bearing together at the drive shaft through portion so that the rotation of the drive shaft can be performed smoothly.

In particular, each tray support bar 20b of the drive shaft 15 supporting the bottom surface of the tray 16 is arranged in a zigzag shape, for example, one in a direction opposite to each other with respect to the central axis of the drive shaft 15. It is to be able to balance the rotational operation of each tray (16) performing the chemical liquid injection operation alternately.

As shown in FIG. 6, the tray 16 is capable of embedding the chemical liquid while rotating together with the drive shaft 15, and the mounting posture and direction of each tray 16, and a zigzag-shaped tray support bar 20b. ) By alternately dipping the chemicals can be discharged.

To this end, the respective trays 16 are arranged upside down from each other, for example, if one is upside down, the other is placed upside down so as to alternately pour out the liquid and pour it out. do.

By using each of the trays 16 in turn, one dissolves the liquid and the other pours the liquid, thereby reducing the resistance that the tray 16 receives in the process of dispensing the liquid. Accordingly, the effect of reducing the load on the motor 17 and the like can be obtained.

The motor 17 for the rotation of the drive shaft 15 is installed on the motor bracket 21 attached to the outer wall side of the chemical liquid tank 12.

The motor 17 is connected to one end of the drive shaft 15 by shaft connecting means such as a coupling. When the motor 17 is operated, each tray 16 is rolled by the operation of the drive shaft 15. Alternatively, it is possible to perform the operation of dissolving and pouring the chemical while rotating.

Therefore, the operation state of the chemical liquid injector according to the present invention configured as described above is as follows.

Since the chemical liquid tank 12 is always filled with a certain amount of chemical liquid, the water level can also be maintained at a predetermined level.

The maintenance of such a set level is possible by the method of controlling the chemical liquid supplied from the chemical storage tank through the operation of the valve 14 associated with the operation of the level sensor 13.

When the motor 17 operates in a state where the chemical liquid level of the chemical liquid tank 12 is kept constant, as shown in FIG. 3, the tray 16 is moved by the tray operation bar 20a of the drive shaft 15. After pouring the chemical liquid while rolling back and forth, the rear side is lifted up, or as shown in FIG. 6, the tray 16 integrally installed on the drive shaft 15 rotates into the chemical liquid one by one while rotating the chemical liquid and then out. Will come up.

Subsequently, the chemical liquid in the tray 16 flows down to the opposite side (lower side) and is poured into the chemical liquid discharge passage 11 on the narrow side.

Here, the chemical liquid discharge passage 11 is located as close to the bottom as possible in the range that does not interfere with the end (narrow side) during the rolling or rotation of the tray 16, for example, the rolling trace of the tray end or The chemical liquid contained in the tray 16 is located on a line almost in contact with the rotational track and has the same height as that of the end when the tray 16 is inclined forward by approximately 45 ° in the horizontal position. It can be poured into the chemical liquid discharge path (11).

In addition, when the water level drops due to continuous input of the chemical liquid, the chemical liquid is replenished in real time by the water level detector 13, and the chemical liquid level of the chemical liquid tank 12 is always kept constant. The amount of can also be kept constant.

The two liquids are alternately floated and poured by the two trays 16, and the chemical liquid in the chemical liquid tank 12 is quantitatively injected into the waste water storage tank, and the purification of the waste water in the waste water storage tank is continued. Will be.

As described above, the chemical liquid injector provided in the present invention can always maintain a constant level of the chemical liquid in the chemical liquid tank, and can continuously input a constant amount of chemical liquid at all times, so that the amount of the chemical liquid injected into the wastewater storage tank is always constant. There is an advantage that can be maintained, thereby inducing an accurate and balanced mixing between the wastewater and the drug has the effect of increasing the wastewater treatment efficiency.

In addition, it consists of a relatively simple device can reduce the installation cost, as well as to reduce the repair and replacement of frequent parts, there is an effect that can expect the economic effect of reducing the maintenance cost.

Claims (9)

A chemical liquid tank having a chemical liquid supply port on one side and a chemical liquid discharge path on the other side, capable of storing a predetermined amount of chemical liquid, a level sensor installed inside the chemical liquid tank, and detecting a level of the chemical liquid, and a chemical liquid discharge path inside the chemical liquid tank. In the chemical liquid injector comprising at least two side-by-side trays installed in an adjacent position and pouring the chemical liquid in the chemical liquid tank and poured into the chemical liquid discharge passage, a drive shaft for the operation of the tray and a motor for operating the drive shaft, The tray 16 is supported by the tray operating bar 20a of the drive shaft 15 which is supported by the hinge shaft 22 installed across the chemical liquid tank 12 and simultaneously operated by the motor 17. The rear end portion is intermittently heard, the chemical liquid injector, characterized in that it is operated in a rolling manner to pour out the chemical liquid. delete The tray support bar of the drive shaft (15) of claim 1, wherein the tray (16) is fixed and supported directly on the drive shaft (15) installed across the chemical liquid tank (12) and is driven by the motor (17). 20b) is a chemical liquid injector, characterized in that it is operated in a rotational manner that is supported by the same time and rotates together while pouring the chemical liquid. The apparatus of claim 1, wherein the tray operation bar (20a) of the drive shaft (15) is arranged in a zigzag form for sequential operation of the tray (16). 2. The chemical liquid injector according to claim 1, wherein the tray operating bar (20a) of the drive shaft (15) has a roller (23) for reducing friction when contacting the bottom of the tray (16). The chemical liquid input device according to claim 1, wherein the chemical liquid tank (12) further comprises a partition (19) having an opening (18) at a lower end thereof to divide the chemical liquid discharge side and the chemical liquid supply side. 4. The chemical liquid injector according to claim 3, wherein the trays (16) are arranged in opposite directions up and down to each other so as to pour out the chemical liquid alternately. The method according to any one of claims 1, 3, and 7, wherein the tray 16 is wide at one end in the longitudinal direction and narrow at the opposite end, so that the liquid can be loosened in the wide direction and the liquid can be poured in the narrow direction. Chemical liquid injector. The chemical liquid injector of claim 1, wherein the water level detector (13) is made in a plotter manner in connection with opening and closing of the valve (14) while being lowered according to the level of the chemical liquid using buoyancy.

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