CN104961167A - Water bag subassembly of water purification unit, and water purification unit provided with water bag subassembly - Google Patents

Abstract

The invention discloses a water bag subassembly of a water purification unit, and the water purification unit provided with the water bag subassembly. The water bag subassembly comprises a housing, a flexible water bag, a pedestal, detection subassemblies, and a controller; the flexible water bag is arranged in the housing; the pedestal is arranged below the flexible water bag; when the flexible water bag is filled with water to swell downward, the flexible water bag is contacted with the pedestal; the detection subassemblies are arranged on at least one of the pedestal and the flexible water bag so as to detect that whether the flexible water bag is full of water; and the controller is connected with the detection subassemblies. According to the water bag subassembly of the water purification unit, the detection subassemblies are used to detect that whether the flexible water bag is full of water; when it is detected that the flexible water bag is full of water, signals are transferred to the controller, and water filling is controlled to be stopped by the controller, so that accurate control of full water level of the flexible water bag of the water bag subassembly can be realized, and working efficiency of the water purification unit can be increased effectively.

Description

The water bag assembly of water purifying plant and there is its water purifying plant

Technical field

The present invention relates to technical field of water purification, particularly a kind of water purifying plant water bag assembly and there is the water purifying plant of this water bag assembly.

Background technology

Water purifying plant in correlation technique, adopts Novel water storage device to substitute pressure-pot, to reduce machine volume, reduces costs.In use, by pressure pump to water receiver water filling, when water receiver fills water, pressure pump quits work this water purifying plant, completes water processed.But when water receiver fills water, how realizing full water water level detecting, is that water purifying plant is more vital.

Summary of the invention

The present invention is intended at least to solve one of technical problem existed in prior art.For this reason, the present invention proposes a kind of water bag assembly of water purifying plant, and described water bag assembly accurately can be examined it and survey full water water level.

The invention allows for a kind of water purifying plant with above-mentioned water bag assembly.

According to the water bag assembly of the water purifying plant of the embodiment of the present invention, comprising: housing; Flexible water bag, described flexible water bag is located in described housing; Base, described base is located at below described flexible water bag, and wherein said flexible water bag is swollen to contacting described base downwards during water-filling; Detection components, described detection components is located at least one in described base and described flexible water bag so that in described flexible water bag, whether water completely detects; And controller, described controller is connected with described detection components.

According to the water bag assembly of water purifying plant of the present invention, by detection components, in flexible water bag, whether water completely detects, when detecting that the water in flexible water bag transfers signals on controller time full, controller and then control stop water-filling, thus the full water water level of the flexible water bag in water bag assembly can be controlled accurately, effectively improve water purifying plant working efficiency.

Particularly, the top of described housing has water outlet, and described water outlet is corresponding to the water inlet at described flexible water bag top to water-filling in described flexible water bag.

Particularly, described base is located at the bottom in described housing.

Particularly, described base is located at the bottom of described housing, and the bottom-open of described housing.

Alternatively, detection components comprises: magnet, and described magnet is located in described flexible water bag; Dry-reed tube, described dry-reed tube is located on described base, and when described flexible water bag is swollen full to water by water-filling, described magnet contacts with described dry-reed tube and sends signal to described controller.

Alternatively, described detection components comprises infrared transmitting tube and infrared receiving tube, described infrared transmitting tube sends optical signal and is reflected back described infrared receiving tube by described water bag, and by the optical signal feedback that receives to described controller, described controller calculates described flexible water bag when described optical signal arrives maximum value and is swollen by water-filling full to water.

Alternatively, described detection components comprises pressure transmitter, the contact surface that described pressure transmitter is located at described inner walls and described flexible water bag feeds back to described controller with the pressure signal detected between described flexible water bag and described housing, and described controller calculates described flexible water bag when described pressure signal arrives maximum value and is swollen by water-filling full to water.

Particularly, described pressure transmitter is located between the top of described flexible water bag and described housing.

Alternatively, described detection components comprises capacity transducer, described capacity transducer is located to detect the capacitance signal between described flexible water bag and described base on described base, and described controller calculates described flexible water bag when described capacitance signal arrives maximum value and swollen by water-filling full to water.

Alternatively, described detection components comprises vernier switch, and described vernier switch is located on described base, touches described vernier switch and feedback signal extremely described controller when described flexible water bag is swollen full to water by water-filling.

Alternatively, described detection components comprises ultrasonic emitting element and ultrasonic wave receiving element, described ultrasonic emitting element sends ultrasonic wave and is reflected back described ultrasonic wave receiving element by described water bag, and feeding back to described controller, described controller calculates described flexible water bag when distance between described flexible water bag and described base arrives minimum value and is swollen by water-filling full to water.

Alternatively, described detection components comprises LOAD CELLS, and when described flexible water bag is swollen full to water by water-filling, described LOAD CELLS detects gravitational cue and feeds back to described controller.

In addition, the invention allows for a kind of water purifying plant, comprising: shell; Element kit, described element kit is positioned at described shell; The water bag assembly of water purifying plant according to the above embodiment of the present invention, described water bag assembly to be located in described shell and to be disposed adjacent with described element kit.

Additional aspect of the present invention and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present invention.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present invention and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the structural representation of the water purifying plant according to the embodiment of the present invention.

Reference numeral:

Water purifying plant 100;

Housing 1;

Flexible water bag 2;

Base 3;

Shell 4;

Element kit 5.

Embodiment

Be described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the present invention, and can not limitation of the present invention being interpreted as.

In describing the invention, it will be appreciated that, term " " center ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward ", " axis ", " radial direction ", orientation or the position relationship of the instruction such as " circumference " are based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore limitation of the present invention can not be interpreted as.In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more these features.In describing the invention, except as otherwise noted, the implication of " multiple " is two or more.

In describing the invention, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, particular case above-mentioned term concrete meaning in the present invention can be understood.

Describe the water bag assembly according to the water purifying plant 100 of the embodiment of the present invention below with reference to Fig. 1, water bag assembly is located between the element kit 5 of water purifying plant 100 and depotition cock (not shown) to store the water after purification.

As shown in Figure 1, according to the water bag assembly of the water purifying plant 100 of the embodiment of the present invention, comprising: housing 1, flexible water bag 2, base 3, detection components (not shown) and controller (not shown).

Particularly, flexible water bag 2 is located in housing 1.Shown in figure 1, housing 1 is for having the structure of certain spatial accommodation, alternatively, the spatial accommodation of housing 1 can be a bit larger tham volume during flexible water bag 2 full water, like this, because the outside surface of the flexible water bag 2 during full water is just slightly kept out on the inwall of housing 1, thus effectively can play anchorage force to a certain extent to flexible water bag 2, the reactive force that flexible water bag 2 when reducing full water is subject to, in case there is phenomenons such as breaking in flexible water bag 2, alternatively, the sidewall of housing 1 can have the multiple through hole (not shown)s run through on its thickness direction, multiple through hole can make the air pressure of housing 1 inside consistent with the air pressure of housing 1 outside, thus flexible water bag 2 can be made more easily to intake.

Base 3 is located at below flexible water bag 2, wherein flexible water bag 2 is swollen to contacting base 3 downwards during water-filling, shown in figure 1, specifically, when flexible water bag 2 does not have water-filling, under the effect of gravity not having water, flexible water bag 2 and base 3 remain certain distance, flexible water bag 2 can not contact with each other with base 3, along with constantly to water-filling in flexible water bag 2, flexible water bag 2 is under the effect of the gravity of water, can move down gradually, thus the distance between flexible water bag 2 and base 3 reduces gradually, when flexible water bag 2 is swollen to a certain extent by water-filling, thus meeting and base 3 contact with each other, at this moment base 3 pairs of flexible water bag 2 have the reactive force upwards supported definitely, and then flexible water bag 2 is played to the effect of protection, effectively improve the life cycle of flexible water bag 2.

Detection components is located at so that in flexible water bag 2, whether water completely detects at least one in base 3 and flexible water bag 2, and controller is connected with detection components.Specifically, according to the structure type of detection components, detection components can only be arranged on the base 3, also can only be arranged in flexible water bag 2, can also be arranged in base 3 and flexible water bag 2 together, constantly in the process of flexible water bag 2 water-filling, distance between flexible water bag 2 and base 3 also can reduce gradually, detection components will to flexible water bag 2, whether water completely detects and detection signal is fed back to controller always, that is, when flexible water bag 2 is not the full state of water, detection components is fed back to the full signal of non-water to controller, when flexible water bag 2 reaches the full state of water, detection components is to the full signal of controller feedback water, controller can control to cut out water inlet stream after receiving the full signal of water further, stop continuing water-filling in flexible water bag 2.

Such as, in a concrete example of the embodiment of the present invention, detection components comprises: magnet (not shown) and dry-reed tube (not shown), magnet is located in flexible water bag 2, dry-reed tube is located at the top of base 3, when flexible water bag 2 is swollen full to water by water-filling, magnet contacts with dry-reed tube and sends signal to controller, specifically, when the non-water of flexible water bag 2 is full, between flexible water bag 2 and base 3, there is certain distance, that is, magnet and dry-reed tube distant, thus controller does not receive the full signal of water, along with constantly water-filling in flexible water bag 2, distance between flexible water bag 2 and base 3 reduces gradually, when flexible water bag 2 reaches the full state of water, flexible water bag 2 and base 3 contact with each other, thus magnet contacts with dry-reed tube, magnet triggers dry-reed tube work, and then controller can receive the full signal of water, control to stop to water-filling in flexible water bag 2.

Certainly, the present invention is not limited thereto, be understandable that, detection components is configured to have and detects the full state of flexible water bag 2 water and full for water signal feedback is got final product practical requirement to the structure of controller.

According to the water bag assembly of the water purifying plant 100 of the embodiment of the present invention, by detection components, in flexible water bag 2, whether water completely detects, when detecting that the water in flexible water bag 2 transfers signals on controller time full, controller and then control stop water-filling, thus the full water water level of the flexible water bag 2 in water bag assembly can be controlled accurately, effectively improve water purifying plant 100 working efficiency.

Shown in figure 1, the top of housing 1 has water outlet (not shown), water outlet is corresponding to the water inlet (not shown) at flexible water bag 2 top to water-filling in flexible water bag 2, that is, when needs are to flexible water bag 2 water-filling, the controlled mouth of a river of making of controller is opened, when flexible water bag 2 water is full, the controlled mouth of a river of making of controller is closed, thus stop continuing water-filling in flexible water bag 2, preferably, in flexible water bag 2, water inlet pipe (not shown) can be set, the upper port of water inlet pipe can be connected with water outlet, the lower port of water inlet pipe can with the bottom gentle touchdown of flexible water bag 2 or relatively, like this, in the process of water-filling, effectively can reduce the reactive force of current to flexible water bag 2 on the one hand, improve the work-ing life of flexible water bag 2, also the fluency of water inlet pipe to flexible water bag 2 water-filling can be improved on the other hand.

In some embodiments of the invention; base 3 is located at the bottom in housing 1; that is; base 3 is located at the bottom of the spatial accommodation that housing 1 limits; like this, when detection components is arranged on the base 3, housing 1 can play provide protection definitely to detection components; prevent the interference of housing 1 external conditions, effectively improve life cycle and the stability of detection components.

In other embodiments of the present invention; in concrete example in FIG; base 3 is located at the bottom of housing 1, and the bottom-open of housing 1, that is; base 3 also can be located at the outside of the spatial accommodation that housing 1 limits; the installation of base 3 can be facilitated on the one hand, improve the production efficiency of water purifying plant 100, on the other hand; housing 1 effectively can reduce materials'use while the effect playing protection flexible water bag 2, thus significantly reduces the production cost of water purifying plant 100.

According to some specific embodiments of the water bag assembly of water purifying plant 100 of the present invention, detection components comprises infrared transmitting tube (not shown) and infrared receiving tube (not shown), specifically, at the top of base 3, can infrared transmitting tube and infrared receiving tube be set simultaneously, when flexible water bag 2 non-water-filling, distant between flexible water bag 2 and base 3, by the optical signal that infrared transmitting tube sends, the light reflected by flexible water bag 2 through larger distance is little, optical signal so received by infrared receiving tube is just more weak, and then the signal feeding back to controller is also just more weak, when in flexible water bag 2 during continuous water-filling, distance between flexible water bag 2 and base 3 reduces gradually, thus will be increased gradually by the light that flexible water bag 2 reflects, like this, optical signal received by infrared receiving tube just strengthens gradually, when flexible water bag 2 and base 3 contact with each other, this Time Controller calculates optical signal and arrives maximum value, that is, flexible water bag 2 is swollen full to water by water-filling.

Further alternatively, detection components comprises pressure transmitter (not shown), the contact surface that pressure transmitter can be located at housing 1 inwall and flexible water bag 2 feeds back to controller with the pressure signal detected between flexible water bag 2 and housing 1, specifically, in the process to flexible water bag 2 water filling, water at the beginning in flexible water bag 2 is less, housing 1 inwall contacts less with the contact surface of flexible water bag 2, pressure now between flexible water bag 2 and housing 1 is less, the pressure signal that pressure transmitter feeds back to controller is more weak, along with flexible water bag 2 water filling is also constantly expanded, the contact surface of housing 1 inwall and flexible water bag 2 increases gradually, pressure now between flexible water bag 2 and housing 1 also increases gradually, the pressure signal that pressure transmitter feeds back to controller strengthens gradually, when controller calculating pressure signal arrives maximum value, now, flexible water bag 2 is swollen to the full state of water by water-filling, controller controls water purifying plant 100 immediately to be stopped continuing water filling to flexible water bag 2.

Preferably, pressure transmitter can be located between the top of flexible water bag 2 and housing 1, that is, pressure transmitter can be arranged on the water inlet of flexible water bag 2, thus pressure transmitter can more effectively detect the pressure between flexible water bag 2 and housing 1 and pressure signal be fed back to controller.

Further alternatively, detection components comprises capacity transducer (not shown), capacity transducer is established on the base 3 to detect the capacitance signal between flexible water bag 2 and base 3, specifically, in the process to flexible water bag 2 water filling, water at the beginning in flexible water bag 2 is less, base 3 is distant with flexible water bag 2, now the capacitance signal that detects of capacity transducer is more weak, along with flexible water bag 2 water filling is also constantly expanded, base 3 also reduces gradually with the distance of flexible water bag 2, the capacitance signal that now capacity transducer detects also strengthens gradually, when flexible water bag 2 contacts with each other with base 3, that is, when controller calculates feedback signal arrival maximum value, now, flexible water bag 2 is swollen to the full state of water by water-filling, controller controls water purifying plant 100 immediately to be stopped continuing water filling to flexible water bag 2.

Further alternatively, detection components comprises vernier switch (not shown), specifically, vernier switch is arranged on the top of base 3, the non-water-filling of flexible water bag 2 or water-filling less time, flexible water bag 2 does not contact with each other with base 3, thus can not vernier switch be touched, vernier switch is in switch off state, controller does not receive the full signal of water, along with constantly to water-filling in flexible water bag 2, flexible water bag 2 constantly expands, when top contact with base 3 of flexible water bag 2, flexible water bag 2 will touch vernier switch, now vernier switch is in switch closed condition, and by full for water signal feedback to controller, controller controls water purifying plant 100 immediately to be stopped continuing water filling to flexible water bag 2.

Further alternatively, detection components comprises ultrasonic emitting element (not shown) and ultrasonic wave receiving element (not shown), specifically, at the top of base 3, ultrasonic emitting element and ultrasonic wave receiving element can be set simultaneously, when flexible water bag 2 non-water-filling, distant between flexible water bag 2 and base 3, by the signal that ultrasonic emitting element sends, longer through the time that larger distance is reflected by flexible water bag 2, signal interval so received by ultrasonic wave receiving element is longer, thus controller can calculate distance between flexible water bag 2 and base 3 according to the timed interval of signal, when in flexible water bag 2 during continuous water-filling, distance between flexible water bag 2 and base 3 reduces gradually, thus will be reduced gradually by the signal interval that flexible water bag 2 reflects, like this, when flexible water bag 2 and base 3 contact with each other, distance between the flexible water bag 2 that this Time Controller calculates and base 3 is minimum, that is, flexible water bag 2 is swollen full to water by water-filling.

Further alternatively, detection components comprises LOAD CELLS (not shown), specifically, LOAD CELLS is arranged on the top of base 3, the non-water-filling of flexible water bag 2 or water-filling less time, flexible water bag 2 does not contact with each other with base 3, thus can not LOAD CELLS be touched, now LOAD CELLS can not produce gravitational cue, controller does not receive the full signal of water, along with constantly to water-filling in flexible water bag 2, flexible water bag 2 constantly expands, when top contact with base 3 of flexible water bag 2, flexible water bag 2 will touch LOAD CELLS, now LOAD CELLS can produce gravitational cue, and by full for water signal feedback to controller, controller controls water purifying plant 100 immediately to be stopped continuing water filling to flexible water bag 2.

Thus, according to the water bag assembly of the embodiment of the present invention, detect in flexible water bag 2 whether water is full by detection components, thus improve the applicability of flexible water bag 2.

In addition, the invention allows for a kind of water purifying plant 100, comprise, the water bag assembly of housing 1, element kit 5 and water purifying plant according to the above embodiment of the present invention 100.

Shown in figure 1, element kit 5 is positioned at shell 4, thus shell 4 can play provide protection definitely to element kit 5, and element kit 5 can have multiple filter core, thus effectively can improve the cleaning action to water quality.

Water bag assembly to be located in shell 4 and to be disposed adjacent with element kit 5, and like this, shell 4 can play the effect of protection to water bag assembly on the one hand, and the water filtered by element kit 5 on the other hand can be flowed in water bag assembly more swimmingly.

According to the water purifying plant 100 of the embodiment of the present invention, by arranging water bag assembly in water purifying plant 100, to in flexible water bag 2, whether water completely detects detection components in water bag assembly, when detecting that the water in flexible water bag 2 transfers signals on controller time full, controller and then control stop water-filling, thus the full water water level of the flexible water bag 2 in water bag assembly can be controlled accurately, effectively improve water purifying plant 100 working efficiency.

In the description of this specification sheets, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present invention or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and describe embodiments of the invention, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present invention and aim, scope of the present invention is by claim and equivalents thereof.

Claims (13)

1. a water bag assembly for water purifying plant, is characterized in that, comprising:

Housing;

Flexible water bag, described flexible water bag is located in described housing;

Base, described base is located at below described flexible water bag, and wherein said flexible water bag is swollen to contacting described base downwards during water-filling;

Detection components, described detection components is located at least one in described base and described flexible water bag so that in described flexible water bag, whether water completely detects; And

Controller, described controller is connected with described detection components.

2. the water bag assembly of water purifying plant according to claim 1, is characterized in that, the top of described housing has water outlet, and described water outlet is corresponding to the water inlet at described flexible water bag top to water-filling in described flexible water bag.

3. the water bag assembly of water purifying plant according to claim 1, is characterized in that, described base is located at the bottom in described housing.

4. the water bag assembly of water purifying plant according to claim 1, is characterized in that, described base is located at the bottom of described housing, and the bottom-open of described housing.

5. the water bag assembly of the water purifying plant according to any one of claim 1-4, is characterized in that, described detection components comprises:

Magnet, described magnet is located in described flexible water bag;

Dry-reed tube, described dry-reed tube is located on described base, and when described flexible water bag is swollen full to water by water-filling, described magnet contacts with described dry-reed tube and sends signal to described controller.

6. the water bag assembly of the water purifying plant according to any one of claim 1-4, it is characterized in that, described detection components comprises infrared transmitting tube and infrared receiving tube, described infrared transmitting tube sends optical signal and is reflected back described infrared receiving tube by described water bag, and by the optical signal feedback that receives to described controller, described controller calculates described flexible water bag when described optical signal arrives maximum value and is swollen by water-filling full to water.

7. the water bag assembly of the water purifying plant according to any one of claim 1-4, it is characterized in that, described detection components comprises pressure transmitter, the contact surface that described pressure transmitter is located at described inner walls and described flexible water bag feeds back to described controller with the pressure signal detected between described flexible water bag and described housing, and described controller calculates described flexible water bag when described pressure signal arrives maximum value and is swollen by water-filling full to water.

8. the water bag assembly of water purifying plant according to claim 7, is characterized in that, described pressure transmitter is located between the top of described flexible water bag and described housing.

9. the water bag assembly of the water purifying plant according to any one of claim 1-4, it is characterized in that, described detection components comprises capacity transducer, described capacity transducer is located to detect the capacitance signal between described flexible water bag and described base on described base, and described controller calculates described flexible water bag when described capacitance signal arrives maximum value and swollen by water-filling full to water.

10. the water bag assembly of the water purifying plant according to any one of claim 1-4, it is characterized in that, described detection components comprises vernier switch, described vernier switch is located on described base, touches described vernier switch and feedback signal extremely described controller when described flexible water bag is swollen full to water by water-filling.

The water bag assembly of 11. water purifying plants according to any one of claim 1-4, it is characterized in that, described detection components comprises ultrasonic emitting element and ultrasonic wave receiving element, described ultrasonic emitting element sends ultrasonic wave and is reflected back described ultrasonic wave receiving element by described water bag, and feeding back to described controller, described controller calculates described flexible water bag when distance between described flexible water bag and described base arrives minimum value and is swollen by water-filling full to water.

The water bag assembly of 12. water purifying plants according to any one of claim 1-4, it is characterized in that, described detection components comprises LOAD CELLS, and when described flexible water bag is swollen full to water by water-filling, described LOAD CELLS detects gravitational cue and feeds back to described controller.

13. 1 kinds of water purifying plants, is characterized in that, comprising:

Shell;

Element kit, described element kit is positioned at described shell;

The water bag assembly of the water purifying plant according to any one of claim 1-13, described water bag assembly to be located in described shell and to be disposed adjacent with described element kit.