KR101334201B1 - Water purifier for water container - Google Patents

Abstract

The present invention is configured to control the operation of the driving pump in accordance with the application of the pressure of the water to be passed through the filter is higher than the predetermined high pressure or less than the pre-set, so that the structure is simple and does not require a lot of manufacturing cost, like the conventional water purifier The object is to provide a water purifier for a water supply container that can perform all of the water purification process.
In particular, the present invention by using the LED, such as the pressure of the water being passed through the filter is determined to be abnormal beyond the predetermined pressure (high or low pressure) state by letting you know that, the manager is not enough water to be pumped easily It is an object of the present invention to provide a water purifier for a water supply container that can easily determine whether the pressure of the reservoir is too strong and respond to maintenance and repair quickly and easily.
In addition, the present invention uses a low pressure cutoff switch (LPS) in the case of low pressure and a high pressure cutoff switch (HPS) in the case of high pressure, so that the structure is simple and accurate on / off operation is achieved. The object is to provide a water purifier for the container.

Description

Water Purifier for Water Supply Containers {WATER PURIFIER FOR WATER CONTAINER}

The present invention relates to a water purifier for water supply containers, and more particularly, to a water purifier for water supply containers that can be used while minimizing the structure of the water purifier, making it easy to manufacture and easily checking the state of full water level and replenishment of water.

In general, a water purifier can be roughly divided into a water purifier using a water dispenser containing water in a container of a certain amount and a direct type water purifier used in connection with a faucet.

A water purifier connected to such a water container (for example, an underground water container) is used to provide a user with a pump pump for pumping water stored in the water container, a filter unit for filtering the pumped water, and filtered water. It is configured to include a low container for. In addition, the water purifier is usually further provided with a controller for controlling the operation of the pressure feed pump and controlling them so that the pressure can be made only when necessary.

The controller is a type of circuit board and controls the corresponding components in response to a user's operation signal or a detection signal of components such as a sensor. For example, the pressure feed pump is controlled to supply water to the reservoir at a predetermined pressure, and to stop the operation when the water drops below a certain level in the feedwater container.

In addition, the filter part also causes clogging of the filter due to debris, etc., as time passes, and this causes a factor of impeding the pressure of water to be pushed, so the controller may also consider such clogging (for example, an increase in pressure) in the control item. do.

However, these conventional water purifiers for water have the following problems.

1) Since the components such as solenoid valves are used in the operation of the pressure pump and the hydraulic pressure control, it is not only complicated to manufacture, but also difficult to control these solenoid valves. In particular, each of the solenoid valves must be checked in the event of a failure. There was a difficulty in maintenance.

2) In particular, in order to control these multiple valves, a controller is required. The more these components, the more complicated the control circuit of the controller is, and the greater the difficulty in constructing an easy and accurate control circuit.

3) In order to control the feeding pressure and operation, components such as sensors are needed. In case of breakdown and malfunction of each component, the water purifier needs to be inspected as a whole.

The present invention has been devised in view of the above, and is configured so that the operation of the driving pump can be controlled according to the application of the pressure of the water being passed through the filter to the pressure set above the high pressure and the low pressure. The purpose of the present invention is to provide a water purifier for a water supply container that can perform all of the water purification process without using a lot of water.

In particular, the present invention by using the LED, such as the pressure of the water being passed through the filter is determined to be abnormal beyond the predetermined pressure (high or low pressure) state by letting you know that, the manager is not enough water to be pumped easily It is an object of the present invention to provide a water purifier for a water supply container that can easily determine whether the pressure of the reservoir is too strong and respond to maintenance and repair quickly and easily.

In addition, the present invention uses a low pressure cutoff switch (LPS) in the case of low pressure and a high pressure cutoff switch (HPS) in the case of high pressure, so that the structure is simple and accurate on / off operation is achieved. The object is to provide a water purifier for the container.

Water purifier water purifier for achieving this object, the drive pump for pumping water from the water supply vessel; A filter for filtering the water pumped by the drive pump; A first cut-off switch installed at an outlet side of the filter and stopping the driving of the purified water by stopping the operation of the driving pump when the pressure at the outlet side drops below a predetermined minimum pressure; A second cut-off switch mounted at an outlet side of the first cut-off switch and configured to control a driving pump to prevent a back flow due to a preset maximum pressure when the water level of the reservoir is full; And a storage tank connected to the second blocking switch to store a predetermined amount of purified water.

In particular, the filter is characterized in that the sedimentation filter, the sun carbon filter, the hollow fiber membrane filter and the fu carbon filter is configured by sequentially connected.

In addition, between the first cutoff switch and the second cutoff switch, a third cutoff switch for stopping the driving of the driving pump when the feeding pressure is less than a predetermined minimum pressure, and a pressure signal detected by the third cutoff switch. When it is determined that the pressure is lowered by the LED is characterized in that it is further provided to visually check.

The first cutoff switch and the third cutoff switch may be a low pressure cut out switch (LPS). In addition, the second cut-off switch is characterized in that the high pressure cut-out switch (HPS).

Finally, the first switch is characterized in that the push switch is further connected in parallel to enable a forced drive when the drive pump is stopped.

According to the water purifier for water supply container of the present invention has the following effects.

1) Since the water purifier can be controlled without providing a controller or a control circuit for controlling the water purifier, the overall structure of the water purifier can be easily configured.

2) Because of its simple structure, it is possible to provide a water purifier that can cope with the pressure of water that is accurately and quickly pumped while lowering the manufacturing cost.

3) In particular, the low pressure shut-off switch and the high-pressure cut-off switch directly control the operation of the driving pump along with the pressure cutoff, thereby further improving the reaction speed according to the control.

4) When the water tank is at full water level, even if the switch is operated to operate the driving pump after replacing the water supply container, the driving pump is not operated so that it can be used easily and safely.

1 is a schematic view for showing the configuration of the water purifier according to the present invention.
Figure 2 is a schematic diagram for showing the electrical connection configuration of the water purifier according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

(Configuration)

1 is a schematic diagram for showing the configuration of the water purifier according to the present invention, Figure 2 is a schematic diagram for showing the electrical connection configuration of the water purifier according to the present invention. Here, reference numeral "V" denotes a water supply container that is packaged and sold with ground water and the like.

The water purifier for a water supply container according to the present invention includes a driving pump 10 for pumping water from the water supply container V, a filter 11 for filtering the pumped water, and a reservoir for storing a predetermined amount of filtered water ( 15).

In particular, between the filter 11 and the reservoir 15, the first shut-off switch 12 and the reservoir 15 to stop the operation of the drive pump 10 when the pressure of the water drops below a predetermined pressure And a second cutoff switch 14 for stopping the operation of the driving pump 10 when the pressure is higher than the full water level so as not to cause a back flow or the like.

The water purifier for water supply container according to the present invention made as described above can control the driving pump 10 easily and quickly without a complicated control structure such as an electronic circuit such as a controller.

Hereinafter, this configuration will be described in more detail as follows.

The driving pump 10 is to use the capacity of the capacity to pump water stored in the water supply container (V), it is preferable to use the pump technology that is already used in the water purifier field belonging to the technology of the present invention.

The filter 11 is a component for purifying the water pumped from the drive pump 10. The filter 11 may be configured in various forms according to the configuration of the internal filter.

In the preferred embodiment of the present invention, the filter 11 is, for example, that the sedimentation filter (11a)-sun carbon filter (11b)-hollow fiber membrane filter (11c)-fucarbon filter (11d) is sequentially connected It is good to use.

It first filters the suspended solids contained in the water by using the sedimentation filter (11a), the sterilization process is performed through the sun carbon filter (11b) and the fucarbon filter (11d), and finally the hollow fiber membrane filter (11c) minimizes the filtering of minerals.

Therefore, the filter 11 is to be able to further increase the content of sterilization and minerals with the removal of foreign substances.

The first shut-off switch 12 is mounted on the outlet side of the filter 11, and stops the operation of the driving pump 10 when the pressure of the pressure pumped from the outlet side is lower than a predetermined minimum pressure.

For example, when the driving pump 10 is driven, almost all of the water is pumped from the water supply container V, so that even if the driving pump 10 is driven, the feeding pressure drops. In particular, if the driving pump 10 continues to drive in such a state is to prevent it because there is a risk of damage.

And, the minimum pressure at this time is preferably set when the pressure that can be pumped from the drive pump 10 is the minimum because there is no water in the water supply container (V).

In a preferred embodiment of the present invention, it is preferable to connect the push switch 12a to the first blocking switch 12 in parallel. The push switch 12a is for driving the driving pump 10, and the driving pump 10 stops as the pressure drops due to the exhaustion of water in the water supply container V, which is replaced with a new water supply container. Even if the driving pump 10 is not driven. Accordingly, by pushing the push switch 12a, the driving pump 10 may be driven to pump water.

On the other hand, as described above, it is preferable that the first cutoff switch 12 uses a low pressure cutout switch (LPS) so that the first cutoff switch 12 can operate in a state of the lowest low pressure. Such LPS uses those made of conventional techniques that are commonly used for capacity control and shutdown.

The second shut-off switch 14 is a component for controlling the driving pump 10 and operates when the pressure is greater than or equal to a preset maximum pressure, as opposed to the first shut-off switch 12 described above. The second blocking switch 14 is mounted on the outlet side of the first blocking switch 12.

That is, the second shut-off switch 14 is blocked so that no more water flows into the reservoir 15 when the reservoir 15 to be described later is full water level. At this time, if the driving pump 10 continues to drive, the pressure feeding pressure continues to rise, which may cause damage to the driving pump 10 or the pressure feeding line.

Accordingly, the second shut-off switch 14 can stop the driving pump 10 when detecting the maximum pumping pressure that may be damaged, so that the reservoir 15 can safely operate the water purifier while maintaining the full water level. It is to be.

In a preferred embodiment of the present invention, it is preferable to use a High Pressure Cut Out Switch (HPS) as the second blocking switch 14. This HPS uses a conventional technology, which is widely used for capacity control and stop, similar to the LPS described above.

In addition, in the preferred embodiment of the present invention, the second blocking switch 14 may further include an LED 14a. The LED 14a is configured to blink by the second shut-off switch 14, and is a kind of warning means for warning the administrator so that the maximum pressure or more is reached. The LED 14a may be configured to be always on when the second cutoff switch 14 is closed when the second cutoff switch 14 is not closed as shown in the drawing, or vice versa. It can also be configured to turn on when is open.

The reservoir 15 is a kind of storage tank that maintains the filtered water by a certain level. Such a reservoir 15 is typically provided with a water level sensor (for example, a ball top limit), and water is no longer pumped when the water level is predetermined.

As such, since the reservoir 15 stores a predetermined amount of purified water, when the driving pump 10 continuously operates as described above, the pumping pressure is increased to operate the second shut-off switch 14.

On the other hand, in the preferred embodiment of the present invention, the case may be configured so that the administrator knows even when the pressure is below the minimum pressure, as in the case of the above maximum pressure.

To this end, a third blocking switch 13 is provided between the first blocking switch 12 and the second blocking switch 14. Like the first cut-off switch 12, the third cut-off switch 13 uses a low voltage cut-off switch LPS, and the LED 13a is connected to be controlled to blink.

In a preferred embodiment of the present invention, it is described that a separate third blocking switch 13 is used to flash the LED 13a, but by connecting the LED 13a to the first blocking switch 12 The structure of this 3rd cut-off switch 13 can also be deleted and used.

Therefore, the water purifier for water supply container according to the present invention is simple in structure without the configuration of a controller, such as a complicated electronic circuit, it is possible to react more quickly and accurately according to the operation and stop timing of the driving pump.

10: drive pump
11: filter
11a: sedimentation filter
11b: sun carbon filter
11c: hollow fiber membrane filter
11d: Carbon filter
12: first blocking switch
12a: push switch
13: 3rd switch
14: second cut off switch
14a: LED
15: reservoir

Claims (7)

A driving pump 10 for pumping water from the water supply container V;
A filter (11) for filtering the water pumped by the drive pump (10);
The first blocking switch 12 is installed at the outlet side of the filter 11 and stops the operation of the driving pump 10 when the pressure at the outlet side drops below a predetermined minimum pressure to block the pumping of the purified water. ;
The second cut-off switch 14 is mounted on the outlet side of the first cut-off switch 12 and controls the driving pump 10 so as to prevent a back flow due to a preset maximum pressure when the water tank 15 is full. ); And
A water purifier for water supply container, comprising: a reservoir 15 connected to the second cutoff switch 14 to store a predetermined amount of purified water.
The method of claim 1,
The filter 11,
A water purifier for a water supply container, comprising a sedimentation filter (11a), a sun carbon filter (11b), a hollow fiber membrane filter (11c) and a fucarbon filter (11d) are sequentially connected.
The method of claim 1,
Between the first shut-off switch 12 and the second cut-off switch 14, the third cut-off switch 13 for stopping the driving of the drive pump 10 when the pressure feed pressure is less than the predetermined minimum pressure, and this The water purifier for water supply container, characterized in that the LED (13b) is further provided so as to visually check if it is determined that the pressure is lowered by the pressure signal detected by the third cut-off switch (13).
The method of claim 3, wherein
The first cut-off switch 12 and the third cut-off switch 13 is a low pressure cut out switch (LPS) characterized in that the water supply container for water supply.
The method according to claim 1 or 3,
The second cutoff switch 14 is a high pressure cutout switch (HPS), characterized in that the water supply container for water.
5. The method according to any one of claims 1 to 4,
Water purifier for water supply container, characterized in that the push switch (12a) is further connected in parallel to the first shut-off switch (12) to enable a forced drive when the drive pump (10) is stopped. The method of claim 5, wherein
Water purifier for water supply container, characterized in that the push switch (12a) is further connected in parallel to the first shut-off switch (12) to enable a forced drive when the drive pump (10) is stopped.

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