JP6671722B2 - Hot water supply system with gas separator - Google Patents

Description

  The present invention relates to a hot spring water supply system including a gas separator for separating and removing gas contained in hot spring water pumped by a hot spring well pump.

  Conventionally, as a gas separation device for hot spring water, for example, in a hot spring water sprinkling section and a gas separation / diffusion section, in order to separate and diffuse gas from the hot spring water, the hot spring water is sprinkled and subjected to impact dropping on an impact plate, and explosive properties. In order to prevent the danger of harm, dilute the gas separated by the primary external air blast and lower the partial pressure of the gas component to be separated in the device to improve the separation performance.The moisture reduction section reduces the generation of white smoke at the exhaust port. In order to reduce moisture, to control the temperature of the exhaust gas close to the outside air temperature and to dilute it to a concentration having a safety factor according to the gas components, a secondary outside air is taken in. In addition, there has been proposed an apparatus that exhausts gas through an intake pipe so that gas does not stay in the hot spring storage section (see Patent Document 1).

  This hot spring water gas separation device safely separates, diffuses, and dilutes the gas to be separated by using a combination of water sprinkling, blasting, and moisture reduction, and also prevents the generation of hot spring scale, the drop in hot spring water temperature, and the secondary damage of white smoke. (See Patent Literature 1), but does not propose more appropriate and rational proposals for more efficient operation and maintenance management of hot spring facilities.

JP-A-2013-13222 (page 1)

  A problem to be solved with respect to a hot water supply system including a gas separator is that a piping configuration related to water supply and circulation of hot spring water in a hot spring facility has not been proposed, although a more appropriate and rational configuration can be made.

  Therefore, an object of the present invention is to provide a hot spring water supply system including a gas separator that can be more appropriately and rationally configured with respect to a piping configuration for sending and circulating hot spring water in a hot spring facility.

The present invention has the following configuration to achieve the above object.
According to one embodiment of the hot spring water supply system including the gas separator according to the present invention, in a hot spring water supply system including a gas separator that separates and removes gas contained in hot spring water pumped by a hot spring well pump, A hot-water pump connected to the gas separator from the hot-spring well pump; and a washing pipe connected to the hot-water pipe. The pump is connected to the gas separator at a height higher than the height at which the hot-water pipe is connected. The height position at which the washing pipe is connected to the hot water pipe is set to be equal or lower, and so as to prevent washing water flowing through the washing pipe from flowing into the hot spring well, A part of the pipe on the hot spring well pump side from a position where the cleaning pipe is connected passes through a position higher than a height position where the hot water pipe is connected to the gas separator. It has become formed backflow preventing protrusion.

  According to one aspect of the hot spring water supply system including the gas separator according to the present invention, the cleaning pipe is a pipe connected to the gas separator from a water supply pipe that supplies hot spring water to a bathtub. A valve may be provided so as to communicate when the supply of hot spring water from the water supply pipe to the bathtub is stopped.

  According to one aspect of the hot spring water supply system including the gas separator according to the present invention, a heat exchanger that heats the hot spring water passing through the water supply pipe by a required heat source is provided in a middle part of the water supply pipe. It can be characterized by being provided.

  Further, according to an embodiment of the hot spring water supply system including the gas separator according to the present invention, by providing a short-circuit water path that connects the water supply pipe and a middle part of the cleaning pipe on the gas separator side, freezing is performed. It can be characterized in that a freezing prevention circulation channel for circulating hot spring water for prevention is configured.

  Further, according to an embodiment of the hot spring water supply system including the gas separator according to the present invention, a plurality of the gas separators are provided, and the number corresponds to the number of the gas separators. Also, the cleaning pipe may be connected to a horizontal branch portion that is branched horizontally on the side connected to the gas separator.

  ADVANTAGE OF THE INVENTION According to the hot water supply system provided with the gas separator according to the present invention, a particularly advantageous effect can be obtained in that a piping configuration related to hot water supply and circulation in hot spring facilities can be more appropriately and rationally configured.

FIG. 2 is a block diagram showing an embodiment of a hot spring water supply system including a gas separator according to the present invention, in which flows of hot spring water supplied to a bathtub are indicated by arrows. The flow of the cleaning water when cleaning the water supply pipe and the like in the embodiment of FIG. 1 is indicated by arrows. The flow of the circulating flow when the freeze prevention of the embodiment of FIG. 1 is performed is indicated by an arrow. BRIEF DESCRIPTION OF THE DRAWINGS It is a front view which shows the principal part of the form example of the supply system of hot spring water provided with the gas separator which concerns on this invention. FIG. 5 is a plan view of the embodiment of FIG. 4. It is a side view which shows the principal part of the hot water piping plumbed in the embodiment of FIG. FIG. 7 is a plan view of the embodiment of FIG. 6. It is a flowchart which shows an example of the control method by the form example of the hot water supply system provided with the gas separator which concerns on this invention. It is a flowchart which shows the other example of the control method by the form example of the hot water supply system provided with the gas separator which concerns on this invention.

  Hereinafter, an embodiment of a hot water supply system including a gas separator according to the present invention will be described in detail with reference to the accompanying drawings (FIGS. 1 to 9). The hot spring supply system including the gas separator 20 is a case where it is required to separate and remove the gas contained in the hot spring water pumped by the hot spring well pump 11, and the hot spring well 10 deeply dug. The system can be used properly in hot spring facilities that pump hot spring water.

  The gas separator 20 of the present embodiment is provided in a vertically long shape so as to separate gas by an impact generated by dropping and hitting hot spring water pumped by the hot spring well pump 11 from a required height. Further, as shown in FIGS. 1 to 7, the gas separator 20 is formed in a tower shape, and two towers having the same shape are installed in a parallel standing state. The upper end of the tower-shaped gas separator 20 is opened so that gas can be released to the atmosphere, and the opening is set to be at least 3 m above the ground by law.

Reference numeral 21 denotes a first pressure sensor, which is provided so as to detect the level of hot spring water temporarily staying inside the gas separator 20 by measuring the pressure.
When the first pressure sensor 21 detects that the level of the hot spring water inside the gas separator 20 is lower than the set specified water level, the output of the hot spring well pump 11 is not sufficient, and This means that the amount of hot water is not enough. Conversely, if the first pressure sensor 21 detects that the level of the hot spring water inside the gas separator 20 is higher than the set specified water level, the output of the hot spring well pump 11 is excessive, This means that the amount of hot spring water exceeds the required amount.

Reference numeral 22 denotes a first inverter, which is provided so as to adjust and control the output of the hot spring well pump 11 so that the water level inside the gas separator 20 falls within a required range by a signal from the first pressure sensor 21. I have.
For example, when the hot spring water level in the hot spring well 10 becomes low and the hot spring water level inside the gas separator 20 becomes low, the frequency related to the power supply of the electric motor for operating the hot spring well pump 11 by the first inverter 22 is changed. The hot water is controlled to be raised by the hot spring well pump 11. Conversely, when the hot spring water level in the hot spring well 10 rises and the hot spring water level inside the gas separator 20 rises, the frequency related to the power supply of the electric motor that activates the hot spring well pump 11 by the first inverter 22. And the amount of hot water by the hot spring well pump 11 is controlled to be reduced.

  According to this, the amount of hot water pumped by the hot spring well pump 11 can be adjusted to be constant within a required range, and stable hot spring water can be supplied. Further, since the level of the hot spring water inside the gas separator 20 is adjusted to be constant within a required range, a height difference (head) for dropping the hot spring water inside the gas separator 20 is maintained within a required range. it can. For this reason, the hot spring water is dropped and the gas is separated and removed from the hot spring water by the impact, which is always performed under appropriate conditions, and stable and safe hot spring water can be supplied.

  Reference numeral 30 denotes a hot spring storage tank, which is a storage tank for storing hot spring water after gas removal processing has been performed by the gas separator 20. Further, the hot spring storage tank 30 of the present embodiment is a tank opened to the atmosphere, and an exhaust port 30a is provided from the inside of the hot spring storage tank 30 so that gas can be discharged to the atmosphere. Reference numeral 30b denotes an overflow drain pipe, which is designed to drain the hot spring water while leaving an empty space at the upper end inside the hot spring storage tank 30 in the case of emergency when hot spring water exceeding a required amount has flowed in. Is provided.

  Reference numeral 31 denotes a hot spring water supply pump for connecting a part of the water supply pipe 35 to the hot spring storage tank 30 so as to supply hot spring water from the hot spring storage tank 30 to the bathtub 40 via the water supply pipe 35. A water supply pipe 35 that is connected by a pipe 35 a and that extends to the bathtub 40 is connected to the discharge port of the hot spring water supply pump 31.

Reference numeral 32 denotes a second pressure sensor, which is provided so as to detect the stored water level of the hot spring water stored in the hot spring storage tank 30 by measuring the pressure.
When the second pressure sensor 32 detects that the level of the hot spring water inside the hot spring storage tank 30 is lower than the set specified water level, the output of the hot spring water supply pump 31 is excessive and the hot spring water is Means that the amount of water supply is larger than the amount of hot water. Conversely, when the second pressure sensor 32 detects that the level of the hot spring water inside the hot spring storage tank 30 is higher than the set specified water level, the output of the hot spring water supply pump 31 is sufficient. In other words, the amount of hot spring water is smaller than the amount of hot water.

Reference numeral 33 denotes a second inverter, which is provided so as to adjust and control the output of the hot spring water supply pump 31 so that the stored water level falls within a required range according to a signal from the second pressure sensor 32.
For example, as shown in the flowchart of FIG. 8, when the water level of the hot spring water inside the hot spring storage tank 30 becomes low, the frequency is reduced by the second inverter 33 to control the amount of water supplied by the hot spring water supply pump 31. . Conversely, when the water level of the hot spring water inside the hot spring storage tank 30 rises, the second inverter 33 controls the frequency so as to increase the amount of water supplied by the hot spring water supply pump 31. In order to prevent the hot spring water pump 31 from running idle, the operation of the hot spring water pump 31 is stopped.

  According to the hot spring water supply system including the gas separator having the above configuration, since both the hot spring well pump 11 and the hot spring water supply pump 31 are controlled by the inverter, the supply of the hot spring water is managed doubly. become. Therefore, more stable hot spring water can be supplied, and the user can use it comfortably. In the present invention, the outputs of the hot spring well pump 11 and the hot spring water supply pump 31 are appropriately varied by the inverter control, and the outputs of the hot spring well pump 11 and the hot spring water supply pump 31 are adjusted without waste. Operating cost can be reduced. It is also possible to adjust the amount of hot water by providing a valve for adjusting the flow rate in the hot water pipe 12, but in that case, the output of the hot spring well pump 11 will be maintained at a high level, and The consumption is high and the operating costs are high.

Further, in the present embodiment, the first pressure sensor 21 and the second pressure sensor 32 can measure the pressure change due to the change in the water level of the hot spring water while the air is in contact with the sensor unit. The hot spring storage tank 30 is connected via an air layer.
As described above, since the first pressure sensor 21 and the second pressure sensor 32 measure through the air layer, the hot spring water does not directly come into contact with the sensor unit (pressure receiving unit). Sensitivity reduction can be prevented, and highly reliable sensing can be performed.

Further, in the present embodiment, the frequency of the second inverter 33 is detected and information for alarm is output so as to detect the cleaning time of the water supply pipe 35 for supplying hot spring water from the hot spring storage tank 30 to the bathtub 40. Frequency detecting means. As the frequency detecting means, a function mounted on the inverter is used, or a means for transmitting an alarm signal when a frequency value exceeds a preset frequency value by a separate frequency indicating controller is used. I just need.
According to this, as shown in the flowchart of FIG. 9, by monitoring an increase change in the frequency of the second inverter 33 related to the hot spring water supply pump 31, when the frequency of the second inverter 33 exceeds the upper limit value. Then, by issuing the maintenance required alarm, it is possible to appropriately notify the cleaning timing of the water supply pipe.

In the present embodiment, a heat exchanger 37 that heats and raises the temperature of hot spring water passing through the water supply pipe 35 by a required heat source is provided in the middle of the water supply pipe 35.
When the heat exchanger 37 is provided in this manner, a portion of the water supply pipe 35 passing through the heat exchanger 37 is a portion that is most likely to be blocked by the scale of hot spring water. In this case, by monitoring a change in the frequency of the second inverter 33 that controls the amount of hot spring water to be equal to the amount of hot water, the blockage of the heat exchanger 37 is substantially monitored. . According to this, the cleaning time of the heat exchanger 37 can be determined appropriately and effectively. This is because if the flow rate of water is constant, the frequency of the second inverter should be constant. However, if the pressure loss increases due to the blockage of the heat exchanger 37, the frequency increases and the frequency increases. By monitoring the progress, it is possible to know the timing of maintenance.

Further, in the present embodiment, a water amount adjusting valve 26 for adjusting the amount of hot spring water is provided in the communication pipe 25 connecting the gas separator 20 and the hot spring storage tank 30.
According to this, the amount of hot spring water pumped by the hot spring well pump 11 is made to correspond to, for example, the amount of water supplied during hot water and the amount of water supplied during business hours for each operation state, and within a required range. It can be appropriately adjusted to a certain amount.

Next, an example of a configuration of a pipe in a hot spring water supply system including the gas separator according to the present invention will be described with reference to the drawings (FIGS. 1 to 7).
In the present embodiment, a hot water supply pipe 12 connected from the hot spring well pump 11 to the gas separator 20 and a cleaning pipe 50 connected to the hot water supply pipe 12 are provided.

  The height position at which the cleaning pipe 50 is connected to the hot water pipe 12 is set to be equal to or lower than the height position at which the hot water pipe 12 is connected to the gas separator 20, and the height of the cleaning pipe 50 In order to prevent the washing water flowing through the pipe 50 from flowing into the hot spring well 10, a part of the hot water well pump 11 on the hot water well pump 11 side from the position where the washing pipe 50 is connected in the hot water supply pipe 12 has a gas separator. There is a backflow prevention convex portion 13 formed so as to pass through a position higher than a height position where the hot water pipe 12 is connected to 20. At the time of hot water supply, the washing pipe 50 is closed by the switching valve 53.

That is, the backflow prevention convex portion 13 is configured such that a part of the hot water supply pipe 12 whose outlet side is connected to the gas separator 20 that is open to the atmosphere prevents the backflow to the hot spring well 10 by providing a height difference in the flow path. It is configured to be in the form to prevent. As described above, the backflow is prevented at the time of washing or freezing prevention by a simple method of providing a height difference in the pipe, and the pipe can be used appropriately and safely.
In addition, by providing a manual valve in the middle of the hot water supply pipe 12 and closing the hot water supply pipe 12 (the flow path between the hot spring well 10 and the gas separator 20), it is also possible to prevent a backflow at the time of washing or preventing freezing. However, since the hot water pipe 12 is in a closed state, there is a possibility that a trouble such as a pipe rupture may occur.

  The cleaning pipe 50 according to the present embodiment is a pipe connected from the water supply pipe 35 for supplying hot spring water to the bathtub 40 to the gas separator 20, and the hot spring water is supplied from the water supply pipe 35 to the bathtub 40 by the switching valve 51. Is provided so as to communicate when the vehicle is stopped. According to this, for example, by circulating the cleaning water mixed with the chemical, the water supply pipe 35, the gas separator 20, and the hot spring storage tank 30 can be efficiently cleaned. The middle part of the water supply pipe 35 provided with the heat exchanger 37 for heating the hot spring water passing through the water supply pipe 35 by a required heat source is easy to adhere to scale, but appropriately and effectively including that part. Can be washed.

Further, in the present embodiment, the short-circuit water passage 61 that connects the water supply pipe 35 and the middle part of the cleaning pipe 50 on the gas separator 20 side is provided, so that the anti-freeze circulation water path 60 that circulates hot spring water for preventing freezing is provided. Is configured. At the time of freezing prevention, the short-circuit water channel 61 is communicated by the switching valve 62, the switching valve 53 is opened, and the switching valve 52 is closed, so that the anti-freezing circulation water channel 60 is communicated.
According to this, in a cold region, damage due to freezing can be avoided. Further, according to the anti-freeze circulation water channel 60, the above-described configuration of the backflow prevention convex portion 13 can prevent the circulating flow at the time of anti-freeze from flowing into the hot spring well 10 and can operate appropriately.

Further, in the present embodiment, a plurality of gas separators 20 are provided, and the gas separators 20 are horizontally branched on the side connected to the gas separator 20 rather than the backflow prevention convex portion 13 of the hot water supply pipe 12 in accordance with the number of the gas separators 20. The cleaning pipe 50 is connected to the horizontal branch portion 14.
According to this, washing water and hot spring water for preventing freezing can be appropriately circulated evenly to each of the plurality of gas separators 20. Each task can be performed appropriately.

Next, a specific operation of the hot spring water supply system including the gas separator according to the present invention will be described.
First, as an example of variably controlling the amount of hot water supply according to the operation situation, a case where the amount of water supply is desired to be variable between hot water and during business hours will be described.

In the present invention, the water level inside the gas separator 20 is assigned to each of the hot water volume at the time of hot water filling and the hot water volume at the time of business, and the hot water volume from the hot spring well 10 can be inverter-controlled.
For example, there is a case where the water level inside the gas separator at the time of hot water filling is raised at 200 L / min at 1260 mm, and the water level inside the gas separator at the time of business is pumped at 120 L / min at 1200 mm.

According to this, the role of variably controlling the amount of hot water from the hot spring water could be added by using the gas separator 20 that was originally installed to release gas.
The amount of water discharged from the gas separator 20 to the hot spring storage tank 30 can be set by the water amount adjustment valve 26 or the like, whereby the inflow amount (in which the water level inside the gas separator 20 can be maintained in a required range). Hot water volume) can be determined.

Next, a case in which the amount of hot water during business hours is kept constant will be described.
In the present invention, in the hot spring well 10 in which the amount of hot spring seeping out is small and the level of hot spring water is greatly reduced by continuing pumping, the pumping amount can be inverter-controlled.
For example, by setting the water level inside the gas separator 20 to 1200 mm, at the start of operation, since the hot spring water level is about -280 m from the ground, the operation is performed at about 70 L / min × 35 Hz. Since the hot spring water level drops to about -470 m from the ground, there is a case where the operation is performed at about 70 L / min × 45 Hz.

  As described above, the present invention has been described in various forms with reference to preferred embodiments. However, the present invention is not limited to the above embodiments, and many modifications can be made without departing from the spirit of the invention. Of course.

REFERENCE SIGNS LIST 10 hot spring well 11 hot spring well pump 12 hot water supply pipe 13 backflow prevention convex part 14 horizontal branch part 20 gas separator 21 first pressure sensor 22 first inverter 25 communication pipe 26 water flow regulating valve 30 hot spring storage tank 30a exhaust port 30b overflow Drainage pipeline 31 Hot spring water supply pump 32 Second pressure sensor 33 Second inverter 34 Frequency detection means 35 Water supply pipe 35a Connection pipe 37 Heat exchanger 40 Bathtub 50 Cleaning pipe 51 Switching valve 52 Switching valve 53 Switching valve 60 Freezing prevention circulating water channel 61 Short circuit water channel 62 Switching valve

Claims (5)

In a hot spring water supply system equipped with a gas separator that separates and removes gas contained in hot spring water pumped by a hot spring well pump,
A hot water pump comprising a hot water pipe connected to the gas separator from the hot water pump and a cleaning pipe connected to the hot water pipe;
The height position at which the cleaning pipe is connected to the hot water pipe is set equal to or lower than the height position at which the hot water pipe is connected to the gas separator, and flows through the cleaning pipe. In order to prevent the washing water from flowing into the hot spring well, a part of the hot water well pump side of the hot water pump pipe from the position where the washing pipe is connected is connected to the gas separator. A hot spring water supply system comprising a gas separator, wherein the backflow prevention convex portion is formed so as to pass through a position higher than a height position where the pipe is connected.   The washing pipe is a pipe connected to the gas separator from a water supply pipe that supplies hot spring water to the bathtub, and is connected by a switching valve when the supply of hot spring water from the water supply pipe to the bathtub is stopped. A hot water supply system comprising the gas separator according to claim 1, wherein the hot water supply system is provided with a gas separator.   The supply of hot spring water provided with the gas separator according to claim 2, wherein a heat exchanger for heating hot spring water passing through the water supply pipe by a required heat source is provided in a middle part of the water supply pipe. system.   By providing a short-circuit water path that connects the water supply pipe and the middle part of the gas separator side of the cleaning pipe, an anti-freeze circulating water path that circulates hot spring water to prevent freezing is configured. A hot spring water supply system comprising the gas separator according to claim 2.   A plurality of the gas separators are provided, and the cleaning is performed on a horizontal branch portion corresponding to the number of the gas separators and horizontally branched on a side connected to the gas separator from the backflow prevention convex portion of the hot water supply pipe. A hot water supply system comprising the gas separator according to any one of claims 1 to 4, wherein a supply pipe is connected.