JP2507431Y2 - Water supply device - Google Patents

Description

[Detailed Description of the Invention] [Industrial field of application] The present invention relates to an improvement of a water supply device including a water supply tank and a water supply pump, and relates to a boiler, a water heater or a cooler connected to a downstream side. The target is a water supply device that enables stable water supply to external equipment.

[Conventional technology]

Generally, a water supply device for cooling and heating equipment such as a boiler, a water heater, or a cooler supplies raw water from a raw water supply side to a water supply tank by a water supply pump and temporarily stores it, Water is supplied from the water supply tank to the cooling / heating equipment (external equipment). Such a water supply device has a function of controlling the water supply pump so that the amount of stored water in the water supply tank is always within a predetermined range.

Incidentally, when the water supply device is used as a water supply device for cooling and heating equipment in particular, an appropriate water treatment device is connected between the water supply pump and the water supply tank.
The purpose of this is to prevent scale adhesion and corrosion in the cold heat equipment.

[Problems to be solved by the device]

By the way, in the conventional water supply device as described above, due to a failure of the water supply pump, a failure or deterioration of the water treatment device on the downstream side of the water supply pump, the water supply capacity into the water supply tank may be lower than usual, or the external Equipment (boiler, water heater,
When the load on the cooling / heating equipment such as a cooler etc. is high and the amount of water used increases suddenly than usual, the water level in the water tank may drop, and eventually water supply from the water tank may be interrupted. . At this time, the external device forcibly suspends its operation due to its own safety function, which adversely affects each device connected to the external device, the production line, and the like.

For example, when the water treatment device (D) uses a semi-permeable membrane such as a reverse osmosis membrane, the increase in treatment capacity is expensive, and therefore, there is usually little difference in treatment capacity with respect to the amount of water supplied. Therefore, when such a water treatment device (D) is used, if the treatment capacity is deteriorated due to deterioration of the semipermeable membrane or clogging, the above-mentioned problem occurs. Moreover, in this type of water treatment device, a decrease in the treatment capacity due to clogging can be dealt with by the cleaning work, but if the deterioration of the semipermeable membrane itself is dealt with by the replacement work, the treatment capacity can be improved. It takes time to recover, and the above-mentioned problems become serious.

The above-mentioned obstacles can be prevented by using a large-capacity water supply tank, but the water supply tank has a required capacity set from the relationship between the maximum amount of water used by an external device and the amount of water supplied to the water supply tank. Since the maximum amount of water used by the external device is temporary, the use of a large-capacity water supply tank causes an increase in cost and an increase in installation space.

[Means for solving the problem]

The present invention has been made to solve the above problems, and includes a water supply tank and a water supply pump connected to the upstream side of the water supply tank, and supplies water from the water supply pump to an external device on the downstream side to supply water. In a water supply device having a function of controlling the water level in the pump so as to maintain a predetermined set range, detection means for detecting the water supply capacity to the water supply tank, and a water supply capacity decrease signal from this detection means ,
It is a water supply device characterized by comprising a control device for activating the water supply pump so as to raise the lower limit side water level of the set range and keep the water level in the water supply tank at a high water level.

[Action]

According to the water supply device of the present invention, when the control device detects that the water supply capacity to the water supply tank is lower than the water supply capacity from the water supply tank to the external device, the controller sets the lower limit water level of the set range of the water level. Since the water supply pump is activated and controlled so that the water level in the water supply tank is raised and the water level in the water supply tank is kept higher than usual, it is possible to avoid troubles due to poor water supply to external equipment downstream of the water supply tank.

〔Example〕

FIG. 1 shows an embodiment of a water supply device according to the present invention.

In the drawing, a water supply pump (P ₁ ) is connected to the upstream side of the water supply tank (T), and an external device (U) such as a cooling / heating device is connected to the downstream side. An appropriate water treatment device (D) as described above is connected between the water supply pump (P ₁ ) and the water supply tank (T), and the water supply tank (T) and the external device (U) are connected to each other. A water supply pump (P ₂ ) from the water supply tank (T) to the external device (U) is connected between the _two . Water is supplied between the water supply pump (P ₁ ) and the water supply tank (T) (in this embodiment, between the water treatment device (D) and the water supply tank (T)) and the water supply tank (T). A capability detecting means (S) is provided.

The water supply capacity detecting means (S) and the water supply pumps (P ₁ ) and (P ₂ ) are connected to the control device (C).

The water treatment device (D) in this example is a filtration device using the reverse osmosis membrane as described above.

In this embodiment, as the water supply capacity detection device (S), a flow meter (S ₁ ) for detecting the water supply flow rate from the water supply pump (P ₁ ) to the water supply tank (T) and the inside of the water supply tank (T) are used. And a liquid level sensor (S ₂ ) for detecting the stored water level of

This liquid level sensor (S ₂ ) is, for example, a plurality of electrode rods (1
0) to (13), and is configured to detect at least four states of the lowest level (LL), the low level (L), the high level (H), and the overflow level (HH). .

The control device (C) includes the two sensors (S ₁ ) described above.
This is for controlling the operation of the water supply pump (P ₁ ) in response to a signal from (S ₂ ), and the operation of the water supply device will be described below to replace the functional description of the control device.

First, the case where the water supply capacity into the water supply tank (T) is at a normal level will be described.

When the water level in the water supply tank (T) drops below the lower end of the electrode rod (12) for detecting the low level (L), the control device (C) detects the water level drop and the water supply pump (P). ₁ )
Instruct the start of water supply to the water supply tank (T). And the electrode rod (11) for detecting the high level (H) of the water level
When it reaches the lower end of the above, the control device (C) detects that the amount of water in the water supply tank (T) has been replenished, and stops the water supply pump (P ₁ ). If the electrode rod (11) cannot detect that it has reached the specified water amount due to poor insulation, etc., and the water level rises to the lower end of the electrode rod (10) that detects the overflow level (HH), The control device (C) detects that the water level in the water supply tank (T) has reached the overflow level, and causes the water supply pump (P ₁ ) to stop operating urgently.

Next, a method for detecting a decrease in capacity will be described when the water supply capacity to the water supply tank (T) is lower than the water supply capacity from the water supply tank (T) to the external device (U).

First, if the water supply capacity to the water supply tank (T) is lower than normal due to performance deterioration of the water supply pump (P ₁ ), deterioration of the water treatment device (D), clogging, etc. The drop is detected by the flow meter (S ₁ ). On the other hand, when the amount of water required from the external device (U) increases and the water supply capacity to the water supply tank (T) relatively decreases (insufficient),
This relative decrease in water supply capacity is detected when the water level in the water supply tank (T) falls below the lower end of the electrode rod (13) that detects the lowest level (LL).

Then, when the water supply capacity is lowered as described above, the water level in the water supply tank (T) is adjusted by the control device (C) by one of the following two methods.

When the water level in the water supply tank (T) becomes lower than the lower end of the electrode rod (11) that detects the high level (H), the water supply pump (P ₁ ) is activated to detect the overflow level (HH). 10) When reaching the lower end, feed pump (P ₁ )
Stop and set the water level in the water tank (T) to the electrode rod (1
Between the lower ends of 1) and (10), that is, the overflow level (H
Maintain between H) and high level (H).

If the water level in the water supply tank (T) is below the lower end of the electrode rod (11) for detecting the high level (H) and is below the lower end of this electrode rod (11) even after a certain period of time, the water supply pump Start (P ₁ ). Then, when the water level reaches the lower end of the electrode rod (11), the water supply pump (P ₁ ) is stopped, and the water level in the water supply tank (T) is lowered below the lower end of the electrode rod (11) by a predetermined amount. Position (of course above the low level (L)). In this case, the electrode rod (11)
A new electrode rod (not shown) for detecting an intermediate level is provided between the electrode and the electrode rod (12), and as described above, the time after the water level cuts the lower end of the electrode rod (11). It may be replaced by controlling by.

By performing the following control, when the water supply capacity to the water supply tank (T) is lower than the water supply capacity from the water supply tank (T) to the external device (U), the water level in the water supply tank (T) By shifting the control width of the water tank to a higher water level side than usual, the water supply capacity from the water tank (T) to the external equipment (U) should have a margin for increasing the water level in the water tank (T). Therefore, it is possible to prevent the emergency stop of the external device (U) due to the inability to supply water to the external device (U).

In the above-mentioned embodiment, the sensor (S ₂ ) for detecting the water level in the water supply tank (T) uses a plurality of electrode rods, but this invention detects various other liquid levels. A sensor, such as a float sensor, can be used.

[Effect of device]

As described above, according to the water supply device of the present invention, when it is detected that the water supply capacity to the water supply tank is lower than the water supply capacity from the water supply tank to the external device, the water level in the water supply tank is changed. Since the water supply pump is driven and controlled to shift to a higher level than the normal control range, water can be stably supplied to external equipment downstream of the water supply tank, and troubles such as operation stop due to inability to supply water to the external equipment can occur. This can be avoided, and unnecessary increase in size of the water supply tank can be prevented.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram showing an embodiment of a water supply device according to the present invention. (P ₁ ) …… Water supply pump (C) …… Control device (D) …… Water treatment device (S ₁ ) …… Detecting means (S ₂ ) …… Detecting means (T) …… Water supply tank (U)… …External device

Claims (1)

(57) [Scope of utility model registration request] 1. A water supply tank (T) and a water supply pump (P) connected to the upstream side of the water supply tank (T),
In the water supply device having a function of supplying water from the water supply tank (T) to an external device (U) on the downstream side and controlling the water level in the water supply tank (T) so as to maintain a predetermined set range, The detection means (S) for detecting the water supply capacity to the water supply tank (T) and the water supply capacity lowering signal from this detection means (S) raises the lower limit side water level of the set range, and the water supply tank (T). ) A control device (C) for activating the water supply pump (P) in order to keep the water level in
A water supply device comprising: