KR101787312B1 - Tap water apparatus to reservoir tank - Google Patents

Abstract

[0001] The present invention relates to a water supply device for a storage tank, comprising: a selection valve for selecting a traveling direction of water; A first and a second pressure generating units alternately operated so that water flows in accordance with the selection of the selection valve and water pressure is generated or the inflow water is discharged; The first and second pressure generating units are connected to the first pressure generating unit and the second pressure generating unit, respectively. The first and second pressure generating units vary in length by alternating operation, part; And one side connected to the first link portion and the other side connected to the second link portion to draw water from the first pressure generating portion or the second pressure generating portion by the contraction and expansion of the first and second link portions And a third pressure generating unit for simultaneously discharging high pressure water and high pressure water discharged from the third pressure generating unit to supply water to the water storage tank arranged at a high position.

Description

[0001] Tap water apparatus to reservoir tank [

The present invention relates to a water supply apparatus for a water tank, and more particularly, to a water tank installed at a high position, which can supply water using only water pressure, thereby minimizing unnecessary power consumption due to the use of a high pressure pump, To a water supply device to a water storage tank that can prevent power loss.

Generally, when water is supplied to a building such as a home or office using a water pipe, water is supplied to each household or office by using the water pressure of the water storage tank while storing water in the water storage tank disposed on the roof of the building .

A typical reason for supplying water using a reservoir tank is to easily supply water from the reservoir tank when the water supply is stopped due to the singularity of the building.

However, since the reservoir tank is mostly installed at a high position, it requires a considerable hydraulic pressure to move the water to the reservoir tank. Therefore, a relatively high-pressure pump can not be used in order to move water from the high pressure tank to the water storage tank. This causes a problem of wasteful power consumption due to pump operation.

It is an object of the present invention to provide a water tank which is installed at a high position and can supply water using only water pressure, thereby minimizing unnecessary power consumption due to the use of a high pressure pump, Which can prevent a power loss due to a shortage of water.

The present invention has the following structure in order to achieve the above object.

The water supply device for the water storage tank according to the present invention comprises: a selection valve for selecting a traveling direction of water; A first and a second pressure generating units alternately operated so that water flows in accordance with the selection of the selection valve and water pressure is generated or the inflow water is discharged; The first and second pressure generating units are connected to the first pressure generating unit and the second pressure generating unit, respectively. The first and second pressure generating units vary in length by alternating operation, part; And one side connected to the first link portion and the other side connected to the second link portion to draw water from the first pressure generating portion or the second pressure generating portion by the contraction and expansion of the first and second link portions And a third pressure generating unit for simultaneously discharging high pressure water and high pressure water discharged from the third pressure generating unit to supply water to the water storage tank arranged at a high position.

The selector valve selectively opens the first pressure line or the second pressure line from the inflow line according to an electrical signal, and moves the water.

The first and second pressure generating units may include first and second hydraulic cylinders having a predetermined length and filled with a liquid, a piston operating in the first and second hydraulic cylinders, a rod for operating the piston, And first and second air pressure tanks connected to the first and second hydraulic cylinders to extend to one side and filled with a predetermined amount of air.

The first and second hydraulic cylinders are connected to the first and second link portions to operate in the vertical or horizontal direction.

In addition, the first and second link portions may be configured such that the link arms connected to the first and second pressure generating portions are pivoted while the plurality of link arms are staggered by the plurality of rotation shafts, and the other crossed link arms are fixed Or the link arm is pivoted according to the operation of the first and second pressure generating parts and is operated toward the third pressure generating part.

The third pressure generating unit includes a third hydraulic cylinder having a predetermined length, a piston operated in the third hydraulic cylinder according to the operation of the first and second link units, one side connected to the piston, And the other end is composed of a plurality of rods extending to the second link portion.

The third pressure generating part is arranged such that a plurality of check valves are disposed on both sides with respect to the piston, and the plurality of check valves are operated such that when one of them is opened with respect to the piston, the other is shut off, The check valve disposed on the upper side is connected to the selection valve side by the first discharge line and the check valve disposed on the lower side is connected to the reservoir side by the second discharge line.

And a pressure tank is provided between the second discharge line and the water storage tank to move the water with a uniform pressure to the water storage tank.

It is also preferable that the plurality of link arms are operated at an angle between 110 DEG and 180 DEG.

According to the present invention, it is possible to supply water to the water storage tank installed at a high position using only water pressure, thereby minimizing unnecessary power consumption due to use of the high pressure pump, thereby preventing power loss due to water supply.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a water supply device for a storage tank according to the present invention; Fig.
2 and 3 are views showing the operation of the water supply device to the water storage tank according to the present invention.
4 shows another embodiment according to the invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a clearer description.

The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by terms. Terms are used only for the purpose of distinguishing one component from another.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

As shown in FIG. 1, the water supply device for a storage tank according to the present invention includes a selector valve 100, first and second pressure generating units 200 and 300, first and second link units 400 and 500, (600).

The selection valve 100 is connected to the inflow line 110, the first pressure line 210, the second pressure line 310 and the first discharge line 610, When the water is supplied from the inflow line 110 to the first water pressure line 210, the inflow line (210) or the second water pressure line (310) 110 and the second water pressure line 310 are blocked and the second water pressure line 310 and the first discharge line 610 are opened and conversely the water is supplied from the inflow line 110 to the second water pressure line 310 The inflow line 110 and the first water pressure line 210 are blocked and the first water pressure line 210 and the first discharge line 610 are opened.

That is, when the first water pressure line 210 is opened and water is supplied, the water pressure generated by the water is transmitted to the first pressure generating part 200 side, the second water pressure line 310 is opened, The water pressure generated by the water is transmitted to the second pressure generating portion.

The first and second pressure generating units 200 and 300 are connected to the select valve 100 side by the first and second water pressure lines 210 and 310 and the inlet chamber 201b The first and second hydraulic cylinders 201 and 301 are provided with operation chambers 201a and 301a filled with liquid and the other is operated in the first hydraulic cylinders 201 and 301 to pressurize the filled liquid A plurality of pistons 202 and 302 connected to one side of the pistons 202 and 302 and extended outwardly to the outside via an inflow chamber; And first and second air pressure tanks 204 and 304 that are compressed by the liquid in a filled state and generate pressure.

That is, when water is supplied to the first pressure generating part 200 by the selection valve and water pressure is applied, the piston 202 moves from the inflow chamber to the operation chamber side by the hydraulic pressure and the liquid in the operation chamber is discharged to the first air pressure tank The water flowing into the inflow chamber 301b of the second hydraulic cylinder 301 connected to the second hydraulic pressure line 310 is transferred to the second hydraulic pressure line 310 To the third pressure generating part 600 side along the first discharge line 610 via the first discharge line 610.

The first and second link units 400 and 500 include a plurality of link arms 401 and 501 having a predetermined length, rotation shafts 403 and 503 connecting the link arms 401 and 501 in a rotatable manner, And the first and second link units 400 and 500 are operated at an angle of less than 180 ° at an angle of 110 ° with respect to the plurality of link arms 401 and 501, Consists of.

The third pressure generating part 600 includes a third hydraulic cylinder 601 having a first and a second spaces 601a and 601b that are divided into two sides with respect to the piston 602, And a piston 602 that operates in the cylinder 601 and moves the rod 603 to both sides.

A first discharge line 610 and a second discharge line 620 are connected to the spaces on both sides of the piston 602 in the third hydraulic cylinder 601. The first discharge line 610, A plurality of check valves 611, 612, 621 and 622 are arranged in each of the first and second discharge lines 620 and 620 and a reservoir tank WT is disposed at a higher position on the second discharge line 620 side, So that high-pressure water discharged from the high-pressure water tank is stored.

It is preferable that a pressure tank 700 is further provided between the second discharge line 620 and the water storage tank so that the water pressure can be uniformly applied to the water storage tank.

Hereinafter, an operation state will be described with reference to the accompanying drawings.

An electric signal is applied to the selection valve 100 to allow the inflow line 110 and the first pressure line 210 to be opened to allow the water to flow from the inflow line 110 to the first pressure line 210, .

Then, the moved water is filled in the inflow chamber 201b, and the hydraulic pressure generated by applying the pressure to the piston 202 pushes the piston to move the liquid in the operation chamber 201a to the first air pressure tank 204 side, The rod 203 connected to the rod 203 is moved in accordance with the movement of the piston 202 and the link arms 401 of the first link portion 400 connected to the rod 203 are rotated and the length L2.

The rod 603 connected to the link arm is pulled by the length of the reduced first link portion and the piston 602 connected to the rod 603 is moved according to the amount of pulling of the rod 603 to exert an expanding force on the first space 601a, A check valve 612 disposed in the first space 601a and a check valve 621 disposed in the second space 601b are opened in the space 601b and a compression force is applied to the space 601b disposed in the second space 601b The check valve 611 disposed in the first space 601a and the check valve 622 disposed in the first space 601a are blocked.

At the same time, the second pressure generating line 300 is connected to the second pressure line 310 and the first discharge line 610 while being blocked from the inlet line 110 by the selection valve 100, The length L2 of the second link part 500 is increased to the length L1 by the rod 603 of the third pressure generating part 600 according to the operation of the first pressure generating part 200, The piston 302 is pulled to move the piston 302 from the operation chamber 301a side to the inflow chamber 301b side and the compressed air expands to generate the expansion force.

The moved piston moves the water filled in the inflow chamber 301b to the first space 602a through the check valve 612 opened through the first discharge line 610 via the second water pressure line 310, And the water filled in the second space 601b by the moving piston 602 is discharged to the second discharge line 620 via the check valve 621. [

At this time, in the discharged water, the compression force generated from the first pressure generating portion and the expansion force generated from the second pressure generating portion (the pressure generated by pushing the liquid by the compressed air in the second air pressure tank) Therefore, the water can be discharged to a pressure higher than the pressure of the originally introduced water, and the water can be moved toward the water storage tank WT arranged at a higher position.

Conversely, when the selection valve 100 is electrically operated to open the second water pressure line 310, the operation is performed as shown in FIG. 3, and the water in the first space is discharged to the reservoir tank at a high pressure.

For example, when a compressive force is applied to the first pressure generating portion by the water pressure of water, an expansion force is applied to the second pressure generating portion side and a compression force and a pressure for expansion are simultaneously applied to the third pressure generating portion, The water can be discharged in a high pressure state, so that the water supply to the water storage tank disposed at a high position can be smoothly proceeded.

In the present invention, when the first and second pressure generating units 200 and 300 are arranged to operate in the upward direction, the angle? Between the first and second link units 400 and 500 is operated at 110 ° to 180 ° The first and second link portions 400 and 500 and the first and second pressure generating portions 200 and 300 are operated in a horizontal state as shown in FIG. It is also possible to make it operate.

At this time, as shown in the figure, the first and second link units are operated in a state in which the fixing table is not disposed.

By supplying the pressure of the water supplied by using the pressure generating units at a high pressure in this way, it is possible to supply water to the reservoir tank arranged at a high position by using a small electric power, so that high efficiency can be added and energy efficiency can be improved . When these are applied to a reservoir tank of a high-rise building, power waste due to the use of the high-pressure pump can be prevented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. There is no doubt that it is within.

Claims (9)

A selection valve for selecting the direction of water flow;
A first and a second pressure generating units alternately operated so that water flows in accordance with the selection of the selection valve and water pressure is generated or the inflow water is discharged;
The first and second pressure generating units are connected to the first pressure generating unit and the second pressure generating unit, respectively. The first and second pressure generating units vary in length by alternating operation, part; And
One side is connected to the first link portion and the other side is connected to the second link portion to introduce water from the first pressure generating portion or the second pressure generating portion by the contraction and expansion action of the first and second link portions, And a third pressure generating unit for simultaneously discharging high pressure water,
Pressure water discharged from the third pressure generating unit is supplied to a water storage tank disposed at a high position,
The third pressure generating portion includes a third hydraulic cylinder having a predetermined length, a piston operated in the third hydraulic cylinder according to the operation of the first and second link portions, one side connected to the piston, and the other side connected to the first link portion And the other end is composed of a plurality of rods extending to the second link portion,
The third pressure generating portion is arranged such that a plurality of check valves are disposed on both sides with respect to the piston, and the plurality of check valves are operated such that when one of them is opened with respect to the piston, the other is shut off, Is connected to the selection valve side by the first discharge line and the check valve arranged on the lower side is connected to the reservoir side by the second discharge line. The method according to claim 1,
Wherein the selector valve selectively opens and transfers water from the inflow line to the first water pressure line or the second water pressure line according to an electrical signal. The method according to claim 1,
The first and second pressure generating units may include first and second hydraulic cylinders having a predetermined length and filled with a liquid, a piston operating in the first and second hydraulic cylinders, a rod for operating the piston, And a first and second air pressure tanks connected to the first and second hydraulic cylinders and filled with a predetermined amount of air. The method of claim 3,
Wherein the first and second hydraulic cylinders are connected to the first and second link portions to operate in a vertical or horizontal direction. 5. The method of claim 4,
In the first and second link parts, the link arms connected to the first and second pressure generating parts are rotated while the plurality of link arms are staggered by the plurality of rotation axes, and the other crossed link arms are fixed Or the link arm is rotated according to the operation of the first and second pressure generating units and is operated toward the third pressure generating unit side. delete delete The method according to claim 1,
Further comprising a pressure tank disposed between the second discharge line and the water storage tank to move the water with a uniform pressure to the water storage tank. 6. The method of claim 5,
Wherein the plurality of link arms are operated at an angle between 110 DEG and 180 DEG with respect to each other.

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