KR101254133B1 - Apparatus for supplying water having buoyancy aspirator - Google Patents

Abstract

Water supply device according to the present invention, the water supply stage 11 and the water discharge end 12 and the water supply tank 10 is provided with an air passage (10a) at the top; Buoyancy aspirator 20 is installed in the air passage (10a) to respond to the water surface filled in the water supply tank (10) to block the air passage (10a) if the water level is above the set value, and to open the air passage (10a) if less than that. ); A water supply unit 40 connected to the water discharge end 12 through a water supply pipe 30; A water supply pump 50 installed between the water supply 40 and the water discharge end 12; And control means (80) for controlling the operation of the feed water pump (50). According to the present invention, since the discharge water pressure is increased by the buoyancy aspirator 20, a separate pressure tank is not required, thereby reducing installation costs, and operating the water supply pump 50 according to the pressure of the pressure control cylinder 70. By determining whether or not it is possible to minimize the operating power required for the feed water pump. By installing a plurality of pressure control cylinders 70 in one water supply tank 10 to perform the function as described above, it is possible to stably supply water to the water supply 40 connected to each pressure control cylinder 70. . The present invention is very suitable for use as a simple sprinkler or emergency fire hydrant because of its simple configuration and high discharge water pressure.

Description

Water supply device with buoyancy aspirator {Apparatus for supplying water having buoyancy aspirator}

The present invention relates to a water supply device for supplying water before supplying water from a water supply tank. In particular, when the water level of the water supply tank is low, the air passage in the water supply tank is opened to allow air inflow and outflow, but when the water supply tank is filled to a certain degree, The present invention relates to a water supply device that increases the discharge water pressure in the water supply tank by preventing the air passage from being blocked so that the air flow is prevented, and thereafter, the discharge pressure is added to the water filled in the water supply tank by the trapped air. The present invention also relates to a water supply device capable of saving energy by allowing the water supply pump to operate only when necessary according to the pressure of the water supply side.

In general, the water supply device is configured to intermediately store water in the water supply tank and supply water to the water supply through the water supply pipe. At this time, if the water supply hydrant is located above the water supply tank, it is necessary to receive the help of the water supply pump, which requires a lot of power to operate the water supply pump. The same problem arises in the case of an area where the water pressure is not constant, because the number of water tanks must be installed and absolutely depended on the help of the water pump. Meanwhile, in the case of a simple fire sprinkler facility for fire extinguishing, there is a limit in connecting to a water pipe, and thus, other help is required.

Conventionally, air should be formed in the water supply tank during the filling or discharging of the water supply tank. Thus, an air passage was formed in the water supply tank. However, these air passages were always kept open and could not be used for energy saving.

Therefore, the problem to be solved by the present invention is that when the water tank is filled with water more than a certain degree, the air passage of the water tank is blocked so that the discharge pressure is further added to the water filled in the water tank by the trapped air. In addition to increasing the discharge water pressure, it is possible to provide a water supply device that can minimize the operating power required for the water supply pump by checking the pressure on the water supply side to determine whether the water supply pump is operated according to the pressure situation on the water supply side. .

 Water supply device according to the present invention for achieving the above object,

A water supply tank having a water supply end and a water discharge end and having an air passage thereon;

A buoyancy buoyant floats in the water filled in the water supply tank is installed in the air passage to determine whether or not the water level is above the set value through the position of the buoyancy body, and if the water surface is above the set value A buoyancy aspirator that closes the air passage and opens the air passage if less than that;

A water supply unit connected to the water discharge end through a water supply pipe;

A water supply pump installed between the water supply and the water discharge end; And

And control means for controlling the operation of the feed water pump.

Here, the buoyancy aspirator,

A coupling body having a through hole connecting the inside and the outside of the water supply tank to be coupled to the air passage at an outer surface of the water supply tank;

A sliding rod formed between a lower end and an upper end, the lower end of which is inserted into a through hole of the coupling body and inserted into the water supply tank;

A buoyancy body installed at the lower end of the sliding rod; And

A bottom through hole is formed at the bottom so that the upper end of the sliding rod is interpolated. The bottom through hole is connected to the coupling body so as to communicate with the through hole of the coupling body, and the external air at a predetermined position. It is made, including; coupled body cover is formed air passage to flow in and out,

The through hole of the defective body has a size larger than the flange so that the flange of the sliding rod can move, the bottom through hole of the coupling body cover has the same size as the flange to be blocked by the flange of the sliding rod,

The through hole of the coupling body and the bottom through hole of the coupling body cover is provided with a flange hanger which can pass the sliding rod but does not pass through the flange, the flange hanger is a through hole of the coupling body and the bottom of the coupling body cover. It is installed in the form of a bar (bar) across the through hole, it is preferred that the sliding rod has a narrow through-hole to pass through but the flange is caught.

Rubber packing is preferably installed on the flange of the sliding rod.

A pressure control cylinder may be installed between the water supply pump and the water supply station. In this case, the pressure control cylinder measures the water pressure of the water in the pressure control cylinder and outputs an off signal when the measured water pressure is equal to or greater than the set pressure. When the measured water pressure is less than the set pressure, it is preferable that a pressure switch for outputting an on signal is provided. In this case, the control means turns the feed water pump when the pressure switch outputs an off signal. When the stop and the pressure switch outputs an on (on) signal, characterized in that for operating the feed water pump.

A water level sensing means may be installed in the water supply tank. In this case, when the level detected by the water level sensing means is less than or equal to a preset level set in the water level sensing means, the control means outputs an off signal. It is preferable to stop the feed pump.

According to the present invention, since the discharge water pressure is increased by the buoyancy aspirator, a separate pressure tank is not required, so the installation cost is reduced. Power can be minimized. In addition, by installing a plurality of pressure control cylinders in one water supply tank to perform the above function, it is possible to stably supply water before the water supply connected to each pressure control cylinder. The present invention is very suitable for use as a simple sprinkler or emergency summoning because of its simple configuration and high discharge water pressure.

1 is a view for explaining a water supply device according to the present invention;
2 and 3 are views for explaining the buoyancy extractor 20 of FIG.
4 is a view for explaining that the water supply device according to the invention applied to the fire sprinkler.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are merely provided to understand the contents of the present invention, and those skilled in the art will be able to make many modifications within the technical scope of the present invention. Therefore, the scope of the present invention should not be construed as being limited to these embodiments.

1 is a view for explaining a water supply device according to the present invention. Referring to FIG. 1, the water supply tank 10 has a water supply end 11 and a water discharge end 12, each of which is provided with a supply valve 11a and a discharge valve 12a. The bottom end of the water supply tank 10 is provided with a drain end 13 for drainage, and a drain valve 13a is also installed here. The water supply end 11 is installed on the upper side and the water discharge end 12 is preferably installed for the supply and discharge of water. And the drain end 13 is for cleaning the water supply tank 10 and the like is preferably installed on the bottom surface of the water supply tank 10 to drain the water without leaving. An air passage 10a is formed on the upper surface of the water supply tank 10 and the air passage 10a is provided with a buoyancy aspirator 20 which is one of the features of the present invention.

2 is a view for explaining the buoyancy sucker 20, Figure 3 is a schematic plan view for explaining the through holes (130a, 110a). As shown in Figures 2 and 3, the coupling body 130 is formed with a through hole (130a) penetrating the upper and lower surfaces and the screw coupling portion (131, 132) for fastening at the upper and lower inlets of the through hole (130a) ) Is formed to protrude. The lower screw coupling portion 132 of the coupling body 130 is inserted into the air passage 10a at the outer surface of the water supply tank 10 and inserted into the water supply tank 10, and then a nut (inside the water supply tank 10). 140).

The sliding rod 120 has a flange 121 formed in the middle upper portion, the rubber packing 122 is fitted from the upper end of the sliding rod 120 to be located on the flange 121. The lower end of the sliding rod 120 is inserted into the through hole 130a of the coupling body 130 and inserted into the water supply tank 10. At this time, the through-hole 130a of the coupling body 130 is larger than the flange 121 so that the flange 121 of the sliding rod 120 can also enter the through-hole 130a.

A screw fastening portion 123 is formed at the lower end of the sliding rod 120, and the screw fastening portion 151 of the buoyancy body 150 is fastened to the screw fastening portion 123 of the sliding rod 120, thereby sliding the rod 120. The buoyancy body 150 is fixedly installed.

The coupling body cover 110 has a hollow cylindrical shape and a bottom through hole 110a through which the upper end of the sliding rod 120 is inserted is formed at the bottom thereof, and a screw coupling part (at the inlet of the bottom through hole 110a). 111 is formed. The bottom through hole 110a has the same size as the flange 121 of the sliding rod 120 so that when the sliding rod 120 rises upward, the flange 121 is inserted into the bottom through hole 110a. It is desirable to make 110a clogged.

The bottom screw coupling portion 111 of the coupling body cover 110 and the upper screw coupling portion 131 of the coupling body 130 are fastened to each other so that the bottom through-hole 110a and the coupling body 130 of the coupling body cover 110 are fastened. Through holes 130a of) are connected to each other. An air passage 113 is formed on one surface of the coupling body cover 110 so that external air flows in and out, and the air purification filter 114 cleans the air introduced into the water supply tank 10 in the air passage 113. ) Is installed.

When the sliding rod 120 is raised and lowered, the through hole 130a of the coupling body 130 and the coupling body cover 110 of the coupling body 130 are provided to limit the lifting clearance and to prevent the sliding rod 120 from moving from side to side. In the bottom through hole 110a, the flange rods 130c and 110c may pass through the sliding rod 120 but do not pass through the flange 121. Flange hangers (130c, 110c) is installed in the form of a bar (bar) across the through-holes (130a, 110a), the sliding rods 120 pass through, but the narrow through-holes (130a, 110b) to catch the flange 121 ) The bar flanges 130c and 110c have a bar shape in order to prevent the penetration holes 130a and 110a from covering up as much as possible so that the air flows in and out smoothly.

When the sliding rod 120 ascends, the bottom through hole 110a of the coupling body cover 110 is blocked by the flange 121 so that air inflow and outflow is blocked, and the sliding rod 120 has a flange 121 with a flange hanger. The climb is possible until it hits 130c.

 Referring back to FIG. 1, the water discharging end 12 is connected to the water supply 40 through a water supply pipe 30, and a water supply pump 50 is installed between the water supply 40 and the water discharging end 12. . A pressure control cylinder 70 having a pressure gauge 71 and a pressure switch 72 is installed between the water supply pump 50 and the water supply 40, and a backflow of water is provided between the pressure control cylinder 70 and the water supply pump 50. Check valve 61 is installed to prevent the.

Apart from the water supply pipe 30, a bypass water supply pipe 31 for connecting the front end of the water supply pump 50 and the pressure control tube 70 is installed, and a check valve 62 for preventing back flow of water in the bypass water supply pipe 31 is also provided. ) Is installed.

The pressure switch 72 outputs an off signal when the measured water pressure is equal to or greater than the set pressure, and outputs an on signal when the measured water pressure is less than the set pressure. The pressure switch 72 is not necessarily attached to the pressure control cylinder 70 and may be installed away from the pressure control cylinder 70. Of course, the pipe for the water pipe itself can perform the function as the pressure control cylinder (70). The pressure gauge 71 is for checking the current pressure by visual field and does not affect whether the water supply pump 50 is driven even if it is not installed. When the pressure switch 72 outputs an off signal, the control means 80 stops the operation of the water supply pump 50 even when the water level detecting means 90 outputs an on signal. ) And the water level detecting means 90 output an on signal, the water supply pump 50 is activated, the pressure switch 72 outputs an on signal, and the water level detecting means 90 is turned off. Off) outputs a signal to stop the feed water pump (50).

Water level sensing means 90 is installed in the water supply tank (10). The level detecting means 90 may be generally selected to be widely known. Here, the configuration of detecting the water level by moving the buoyancy body 91 up and down according to the water level is illustrated. When the water level detected by the water level detecting unit 90 is lower than or equal to the set water level, the water level detecting unit 90 outputs an off signal. When the water level is higher than the water level, the water level detecting unit 90 outputs an on signal. When the water level detecting means 90 outputs an off signal, the control means 80 stops the operation of the water supply pump 50 in order to prevent idling of the water supply pump 50.

Hereinafter will be described the operation of the water supply apparatus according to the present invention.

When the water in the water supply tank 10 is filled with water through the water supply stage 11, if the air in the water supply tank 10 does not escape to the outside, the water is not supplied properly, and thus the air passage 10a is provided in the water supply tank 10. Is installed. Conventionally, although the air passage 10a has always been opened, the present invention is characterized in that the buoyancy aspirator 20 is installed to open and close the air passage 10a according to the water level unlike the conventional case.

Initially, the water supply tank 10 is filled with less water, so the water surface is low, so the buoyancy body 150 of the sliding rod 120 is positioned below, so that the flange 121 of the sliding rod 120 is the bottom surface of the coupling body cover 110. The through hole 110a is not blocked. Therefore, the air in the water supply tank 10 passes through the through hole 130a of the coupling body 130 and the bottom through hole 110a of the coupling body cover 110 and eventually the air passage 113 of the coupling body cover 110. It is taken out to the outside and the water is naturally introduced into the water supply tank (10).

When the water supply tank 10 is filled with water to some extent, the buoyancy body 150 of the sliding rod 120 rises, and the through hole 110a of the coupling body cover 110 is opened by the flange 121 of the sliding rod 120. I get stuck. Then, the air leakage no longer occurs and at this time, a new discharge pressure is generated unlike the conventional one by the air trapped in the upper space of the water supply tank 10. At this time, if the water pressure of the water in the pressure control cylinder 70 is less than the set pressure of the pressure switch 72, the pressure switch 72 outputs an on (on) signal to operate the water supply pump 50 by the control means 80 When the pressure is greater than the set pressure, the pressure switch 72 outputs an off signal so that the water supply pump 50 is stopped by the control means 80 to supply stable water, thereby consuming the water supply pump 50. It can reduce power. In the prior art, there is no technique for separately forming the discharge pressure.

If the normal state is not achieved because the amount of water discharged through the water discharging end 12 than the water flowing from the water supply stage 11, even if the water level in the water supply tank 10 is lowered sliding rod 120 Since the lower through-hole 110a of the coupling body cover 110 is opened by the lowering, air is introduced into the water supply tank 10 so that water is naturally applied to the water supply end 11 and the water supply pump 50 without causing excessive pressure. Discharged. In this case, if air does not flow into the water supply tank 10, the water supply tank 10 is in a sealed state, and the water supply stage 11 and the water supply pump 50 are not preferred.

When the buoyancy aspirator 20 of the present invention opens the air passage 10a at a low water level when the water supply tank 10 is filled or emptied, the air supply and exit to the water supply tank 10 is free. 11) and does not act as an obstacle to the supply and discharge of water through the water discharge end 12, and only blocks the air outflow from the water supply tank 10 when the water level is somewhat high to increase the discharge pressure.

The water discharged from the water supply tank 10 is once filled in the pressure control cylinder 70 through the bypass water supply pipe 31 and the water supply pipe 30 and then ejected to the outside through the water supply 40, at this time the pressure switch 72 ), The water pressure of the pressure control cylinder 70 is measured. The pressure switch 72 is set in advance by the user, and the pressure switch 72 outputs an off signal when the measured pressure is equal to or higher than the set pressure, and then the feed water pump through the control means 80. The operation of 50 is stopped.

If the pressure measured by the pressure switch 72 is greater than or equal to the set pressure, even if the water supply pump 50 is not driven, the pressure control cylinder 70 may be sufficiently driven by its own pressure difference between the pressure control cylinder 70 and the water supply 40. Since water may be ejected to the water supply 40, in this case, the operation of the water supply pump 50 is stopped in order to save energy. On the contrary, the pressure switch 72 outputs an on signal when the measured pressure is less than this set pressure, and then the feed water pump 50 is operated through the control means 80. If the pressure measured by the pressure switch 72 is less than the set pressure, water cannot be ejected to the water supply 40 with its own pressure difference between the pressure control cylinder 70 and the water supply 40. ) To help.

Specifically, take an example. Water pressure flowing into the water supply tank 10 through the water supply stage 11 is often changed according to the ambient conditions. For example, if you use a lot of tap water around the water pressure flowing into the water supply tank 10 will be lowered. Then the amount of water to be filled in the water supply tank 10 will be changed for a certain time, so that the water pressure of the water supply tank 10 is not constant. It is assumed that the water pressure of the water supply tank 10 rises and falls between 2 to 7 kg / cm ² , and the water pressure required by the water supply 40 is 5 kg / cm ² .

In this case, the user may set the set pressure of the pressure switch 72 to 5kg / cm ^2, the pressure switch 72 is a pressure switch (72) is less than 5 kg / cm ² measured pressure the on (on) signals To print. Then, when the water supply 40 is opened when the water pressure by the water supply tank 10 is 3kg / cm ² , the pressure switch 72 is less than 5kg / cm ² as the measured water pressure of the pressure switch 72 is 3kg / cm ² . The water supply pump 50 is operated by outputting an on signal and supplying water at a water pressure of about 5 kg / cm ^{2 from} the water supply 40. In this situation, when the valve of the water feeder 40 is closed, the measured water pressure of the pressure switch 72 exceeds 5 kg / cm ² , and the pressure switch 72 outputs an off signal to supply the water pump 50. Of operation is stopped.

If the water supply 40 is open and the water pressure by the water supply tank 10 is 7kg / cm ² , the pressure switch 72 is more than 5kg / cm ² as the measured water pressure of the pressure switch 72 is 7kg / cm ² . Outputs an off signal and the operation of the feedwater pump 50 is stopped. However, since the pressure control cylinder 70 takes 7 kg / cm ² of water pressure, the pressure control tank 70 is larger than the required 5 kg / cm ² of water pressure, so when the water supply 40 is opened, the 7 kg / cm ² through the water supply 40. Water pressure is discharged.

According to the present invention, since the discharge water pressure is increased by the buoyancy aspirator 20, a separate pressure tank is not required, thereby reducing installation costs, and operating the water supply pump 50 according to the pressure of the pressure control cylinder 70. By determining whether or not it is possible to minimize the operating power required for the feed water pump.

By installing a plurality of pressure control cylinders 70 in one water supply tank 10 to perform the function as described above, it is possible to stably supply water to the water supply 40 connected to each pressure control cylinder 70. . The present invention is very suitable for use as a simple sprinkler or emergency fire hydrant because of its simple configuration and high discharge water pressure.

4 is a view for explaining that the water supply device according to the invention applied to the fire sprinkler. Referring to FIG. 4, the water supply tank 10 and the fire hydrant 40 and the fire sprinkler 43 are branched separately, and the sprinkler water inlet 41 is disposed between the pressure control cylinder 70 and the fire sprinkler 43. If the fire extinguishing sprinkler 42 head is fired when the fire sprinkler 43 is operated, if the measured water pressure of the pressure switch 72 is less than the set value, the switch is turned on The pump 50 is operated to inject water from the fire extinguishing sprinkler 43 head, and when the fire truck arrives, connects the fire truck lake to the fire extinguishing sprinkler water inlet 41 and inserts water into the water supply from the fire truck. The strong water pressure in the water supplied through the water supply pump 50 is injected through the head of the fire extinguishing sprinkler 43. At this time, since there are check valves 61 and 62, the water supply tank 10 and other facilities are affected. Water in the water supply tank 10 As the purpose of the future be able to use. Therefore, it is possible to use the water in the water supply tank 10 as extinguishing water without making a separate water tank for fire extinguishing water.

10: water supply tank
10a, 113: air passage
11: water supply stage
12: water outlet
13: drainage
20: Buoyancy Aspirator
30, 31: water supply pipe
40: hydrant
43: Fire Sprinkler
50: feed water pump
61, 62: check valve
70: pressure control cylinder
71: pressure gauge
72: pressure switch
80: control means
90: level detection means
91, 150: buoyant body
110: body cover
110a, 130a: through hole
110b, 130b: narrow hole
111, 123, 131, 132: screw connection
114: air purification filter
120: sliding rod
121: flange
122: rubber packing
130: combined body
140: nut

Claims (5)

A water supply tank having a water supply end and a water discharge end and having an air passage thereon;
A buoyancy buoyant floats in the water filled in the water supply tank is installed in the air passage to determine whether or not the water level is above the set value through the position of the buoyancy body, and if the water surface is above the set value A buoyancy aspirator that closes the air passage and opens the air passage if less than that;
A water supply unit connected to the water discharge end through a water supply pipe;
A water supply pump installed between the water supply and the water discharge end; And
Control means for controlling the operation of the feed water pump; characterized in that it comprises a. The method of claim 1, wherein the buoyancy aspirator,
A coupling body having a through hole connecting the inside and the outside of the water supply tank to be coupled to the air passage at an outer surface of the water supply tank;
A sliding rod formed between a lower end and an upper end, the lower end of which is inserted into a through hole of the coupling body and inserted into the water supply tank;
A buoyancy body installed at the lower end of the sliding rod; And
A bottom through hole is formed at the bottom so that the upper end of the sliding rod is interpolated. The bottom through hole is connected to the coupling body so as to communicate with the through hole of the coupling body, and the external air at a predetermined position. It is made, including; coupled body cover is formed air passage to flow in and out,
The through hole of the defective body has a size larger than the flange so that the flange of the sliding rod can move, the bottom through hole of the coupling body cover has the same size as the flange to be blocked by the flange of the sliding rod,
The through hole of the coupling body and the bottom through hole of the coupling body cover is provided with a flange hanger which can pass the sliding rod but does not pass through the flange, the flange hanger is a through hole of the coupling body and the bottom of the coupling body cover. It is installed in the form of a bar (bar) across the through hole, the water supply device, characterized in that the sliding rod has a narrow through hole to pass through but the flange is caught. The water supply apparatus according to claim 2, wherein a rubber packing is installed on a flange of the sliding rod. According to claim 1, wherein a pressure control cylinder is installed between the water supply pump and the water supply, the pressure control cylinder measures the water pressure of the water in the pressure control cylinder, and if the measured water pressure is above the set pressure (off) signal And a pressure switch for outputting an on signal when the measured water pressure is less than the set pressure. The control means stops the water supply pump when the pressure switch outputs an off signal. The water supply device characterized in that for operating the water supply pump when the pressure switch outputs an on (on) signal. According to claim 1, wherein the water level sensing means is installed in the water supply tank and the control means outputs an off signal if the level detected by the water level sensing means is less than or equal to a preset level set in the water level sensing means. Water supply device, characterized in that for stopping the water supply pump.

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