CN109185538B

CN109185538B - Mechanical automatic water taking system

Info

Publication number: CN109185538B
Application number: CN201811249643.4A
Authority: CN
Inventors: 冯永刚; 林声安; 陈逢北; 朱成庄
Original assignee: Guangdong Lingshang Water Purification Technology Co Ltd
Current assignee: Guangdong Lingshang Water Purification Technology Co Ltd
Priority date: 2018-10-25
Filing date: 2018-10-25
Publication date: 2024-04-02
Anticipated expiration: 2038-10-25
Also published as: CN109185538A

Abstract

The invention discloses a mechanical automatic water taking system, which comprises a machine base, wherein the machine base comprises a water diversion part; the water taking device is characterized in that an installation cavity is arranged in the machine base, the top of the installation cavity is provided with an opening, and a tray seat for placing a water taking container is arranged on the opening; the valve body component and a plurality of elastic devices are arranged in the mounting cavity; the valve body assembly comprises a valve cover and a valve core, and a plurality of magnet blocks are arranged in the mounting cavity; the magnet block and the tray seat are lifted synchronously; a channel is arranged in the valve cover; the valve core is positioned in the channel; a valve opening section and a valve closing section are arranged in the channel; an elastic component is also arranged in the channel; the elastic component is positioned between the magnet block and the valve core; one end of the elastic component is connected with the valve core, and the other end of the elastic component is abutted with the closed end of the channel; in the installation cavity, the magnet block is at least provided with a first magnetic area; when the valve core is positioned in the first magnetic region, the valve core moves to a valve opening region. The invention has the advantages of reducing design and assembly cost, improving user experience, simplifying and facilitating user operation and installation.

Description

Mechanical automatic water taking system

Technical Field

The invention relates to the technical field of water purifiers, in particular to a mechanical automatic water taking system.

Background

On the market, automatic water intaking machine is in full view, and wherein to the water purifier that has external water receiving cup, the main following modes of controlling the play water:

1. manually controlling to open or close the valve; the technology has the defects that manual operation is needed, a user needs to wait for the water receiving process, the operation of the user is inconvenient, and the experience is poor;

2. the valve is automatically opened through infrared induction, and when the water is full, the water cup is moved, and simultaneously the valve is rapidly closed through infrared induction; the technology has the defect that an infrared sensor needs to be connected with a control system of the whole machine, the line length of the sensor is designed and fixed, and the infrared sensor can not be realized when part of the infrared sensor needs to move for a long distance according to own requirements. The design cost of the infrared rays is high, the assembly is responsible, and the labor cost is high; whether water is added to a rated value cannot be sensed, and a user is required to watch the water receiving table;

3. automatically opening the valve through infrared induction, and automatically closing the valve by the system when water is added to the designed weight of the gravity sensor; if the rated weight of water is not added, the water cup is removed, and then the water valve is automatically closed through the infrared sensor; the technology has the defects of more precise instruments, more parts and high design cost and assembly cost.

Therefore, there is a need to develop a mechanical automatic water intake system to solve the above technical drawbacks.

Disclosure of Invention

The invention aims to provide a mechanical automatic water taking system which reduces design and assembly cost, improves user experience sense, simplifies and is convenient for user operation and installation.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a mechanical automatic water taking system comprises a machine base, wherein the machine base comprises a water diversion part; the water taking device is characterized in that an installation cavity is arranged in the machine base, the top of the installation cavity is provided with an opening, and a tray seat for placing a water taking container is arranged on the opening; the mounting cavity is internally provided with a valve body assembly fixed in the machine base and a plurality of elastic devices capable of enabling the tray base to lift relative to the machine base; the valve body assembly comprises a water inlet port, a water outlet port, a valve cover and a valve core made of magnetic materials, which are communicated with each other; the water outlet port is communicated with the water diversion part; a channel is arranged in the valve cover, a valve opening section and a valve closing section are formed in the channel, and the valve core moves back and forth between the valve opening section and the valve closing section; an elastic component for adjusting the position of the valve core is further arranged in the channel, and the elastic component is positioned at one side of the valve core away from the valve base; a plurality of magnet blocks for controlling the position of the valve core are further arranged in the mounting cavity, and the magnet blocks and the tray seat are lifted synchronously; in the mounting cavity, the magnet block is at least provided with a first magnetic area; when the valve core is positioned in the first magnetic region, the valve core moves to a valve opening region, and when the valve core leaves the first magnetic region, the valve core is extruded by an elastic component to move to a valve closing region and cuts off the communication between the water inlet port and the water outlet port.

The working principle of the invention is as follows:

firstly, when the tray seat is positioned in a water-taking-free container, the valve core bears the thrust of the elastic component, and the valve core is positioned in a valve closing section; the valve is closed; the external water source can not supply water to the water diversion part through the valve body assembly; when the water taking container is placed on the tray, the tray seat moves towards the machine seat under the action of gravity, namely the tray seat descends, and the magnet blocks also descend; at this time, the valve core is positioned in the first magnetic area and positioned in the valve opening area in the channel; the valve body assembly is opened, the external water source is continuously conveyed to the water diversion part, and the water diversion part is used for adding water to the super water container; along with the water in the water intaking container increases, pressure is bigger and bigger, and the tray seat continues to move towards, and the case leaves first magnetic region, no longer bears the pulling force that first magnetic region provided, and at this moment, the case is located the valve in the valve closing section under the thrust effect of elastic component, and the valve is closed, and external water source can't want diversion portion water supply through the valve body subassembly.

Preferably, the water diversion part is vertically arranged; the water diversion part is provided with a water inlet communicated with the valve body assembly; the water diversion portion is provided with the water intake in the top of tray seat, reserves between water intake and the tray seat and is used for putting into the interval of water intaking container.

Preferably, the magnet block comprises at least a first magnet block; the first magnet block forms the first magnetic area and is opposite to the valve core.

Preferably, the magnet block is further formed with a second magnetic region below the first magnetic region and a third magnetic region above and below the first magnetic region; when the valve core is positioned in the second magnetic region, the valve core moves to a valve closing region; when the valve core is positioned in the third magnetic region, the valve core moves to a valve closing region.

Preferably, the magnet block at least further comprises a second magnet block and a third magnet block; the third magnet block and the second magnet block are sequentially arranged from top to bottom along the lifting direction of the tray seat; the second magnet block is formed in the second magnetic area and is in homopolar repulsion with the valve core; the third magnet block is formed in the third magnetic area and is in homopolar repulsion with the valve core.

Preferably, the valve body assembly further comprises a valve base; the water inlet port and the water outlet port are formed in the valve base; a cavity communicated with the water inlet port is arranged in the valve base; a first opening facing the valve cover is arranged in the cavity, and the valve cover is covered on the first opening; a sealing channel communicated with the water outlet port is further arranged in the cavity, and a second opening facing the valve cover is arranged in the sealing channel; the valve cover is provided with a sealing block which can be extruded and sealed in the second opening by the valve core, one end of the sealing block faces the second opening, and the other end of the sealing block is communicated with the channel.

Preferably, the valve cover extends towards one end of the magnet block to form a protruding block, and the channel is formed in the protruding block.

Preferably, the protruding block is in a columnar design, and the central axis of the protruding block is perpendicular to the lifting axis of the tray seat.

Preferably, the valve core is made of magnetic metal or magnetic material.

The invention has the advantages of reducing design and assembly cost, improving user experience, simplifying and facilitating user operation and installation.

Drawings

FIG. 1 is a schematic view of the structure of an automatic water intake machine in a state of no water intake container in embodiment 1 of the present invention;

FIG. 2 is a schematic diagram of the structure of the water-feeding state of the water-feeding container of the automatic water-feeding machine in embodiment 1 of the present invention;

FIG. 3 is a schematic view showing the structure of the automatic water intake machine in the water intake container in the embodiment 1 of the present invention;

FIG. 4 is a schematic view of an exploded view of a valve body assembly according to embodiment 1 of the present invention;

FIG. 5 is a schematic view showing the structure of a valve base of a valve body in embodiment 1 of the present invention;

FIG. 6 is a schematic diagram of a water intake machine in embodiment 1 of the present invention;

fig. 7 is a schematic diagram showing the water-adding state of the water-intake container of the automatic water-intake machine in embodiment 2 of the present invention.

Reference numerals illustrate: 1-a stand; 2-a water diversion part; 3-a water intake container; 4-a tray base; 5-a mounting cavity; 6-a first spring; 7-a valve body assembly; 71-valve cover; 711-protruding block; 72-valve core; 73-channel; 74-valve base; 741-a water inlet port; 742-a water outlet port; 743-cavity; 744-seal passage; 745-a first opening; 746-a second opening; 75-sealing blocks; 8-mounting bars; 9-a first magnet block; 10-a second magnet block; 11-a third magnet block; 12-a second spring.

Detailed Description

The invention will be further described with reference to the drawings and examples.

Example 1:

as shown in fig. 1-6, a mounting cavity 5 is arranged in the machine base 1, the top of the mounting cavity 5 is opened, and a tray seat 4 for placing a water taking container 3 is arranged on the opening; the mounting cavity 5 is internally provided with a valve body assembly 7 fixed in the machine base 1 and 4 elastic devices which can enable the tray seat 4 to lift relative to the machine base 1, namely a first spring 6; the valve body assembly 7 comprises a valve cover 71 and a valve core 72 made of magnetic materials, wherein a channel 73 for the valve core 72 to reciprocate is arranged in the valve cover 71; a valve opening section and a valve closing section are arranged in the channel 73; a magnet block for controlling the valve core 72 to reciprocate between a valve opening section and a valve closing section is also arranged in the mounting cavity 5; the magnet blocks and the tray seat 4 are lifted synchronously; a channel 73 facing the magnet block and having a closed end is arranged in the valve cover 71; an elastic component for adjusting the position of the valve core 72, namely a second spring 12, is also arranged in the channel 73; the second spring 12 is positioned between the magnet block and the valve core 72; one end of the second spring 12 is connected with the valve core 72, and the other end is abutted with the closed end of the channel 13; in the installation cavity 5, the magnet block is sequentially provided with a third magnetic region, a first magnetic region and a second magnetic region from top to bottom; when the valve core 72 is located in the first magnetic region, the valve core 72 moves to a valve opening region; the spool 72 is located in the second magnetic region, and the spool 72 moves to the valve-closing region; a third magnetic region over the first magnetic region; when the valve spool 72 is located in the third magnetic region, the valve spool 72 moves to the valve-closing region third magnetic region.

The magnet blocks comprise a first magnet block 9, a second magnet block 10 and a third magnet block 11, and the third magnet block 11, the first magnet block 9 and the second magnet block 10 are sequentially arranged from top to bottom along the lifting direction of the tray seat 4; the first magnet 9 forms a first magnetic area and is opposite to the valve core 72; the second magnet block 10 is formed in the second magnetic region and is in homopolar repulsion with the valve core 72; the third magnet 11 is formed in the third magnetic region and is like-pole-repellent to the valve core 72.

Wherein, the installation cavity 5 is internally provided with an installation strip 8 for installing a magnet block; the mounting bar 8 is arranged in the lifting direction of the pallet seat and moves synchronously with the pallet seat 4.

As shown in fig. 4 and 5, the valve body assembly 7 further includes a valve seat 74; the valve base 74 is provided with a water inlet 741 for connecting tap water and a water outlet 742 for communicating with the water intake 21 of the water diversion part 2; a cavity 743 is provided in the valve base 74; a first opening 745 is provided in the cavity 743 toward the valve cover 71; a sealing passage 744 is also provided in the cavity 743; a second opening 746 is provided in the sealing passage 744 toward the valve cover 71; the water inlet port 741 is communicated with the water outlet port 742; the water inlet port 741 is communicated with the cavity 743; the outlet port 742 communicates with the sealing passage 744; the valve cover 71 is covered at the first opening 745 of the valve body seat 74 by a screw; a sealing block 75 which can be pressed and sealed in the second opening 746 by the valve core is arranged between the valve cover 71 and the valve body seat 74; sealing the second opening 746 with the sealing block 75, the sealing block 75 contacting the valve core 72 toward an end face of the valve cover 71; the valve body assembly 7 further includes a valve seat 74; the end face of the valve cover 71 remote from the valve base 74 extends towards the mounting bar 8 with a protruding block 711; the protruding block 711 is in a columnar design, and the central axis of the protruding block 711 is perpendicular to the lifting axis of the tray seat; the channel 73 is formed in the boss 711.

In addition, an extension block for preventing the tray seat 4 from being separated from the stand 1 is formed at the opening of the tray seat 4 in an outward extending manner; the opening of the machine base 1 extends towards the inside of the installation cavity 5 to form an extension block; the extension block is connected with the extension block in a clamping way.

As shown in fig. 1 to 3, the second magnet block 10, the first magnet block 9 and the third magnet block 11 are sequentially arranged along the direction of the base 1 toward the tray base 4; when the water taking container 3 is not arranged on the tray seat 4, the polarity of the valve core 72 is the same as that of the second magnet block 10, the valve core 72 bears the magnetic thrust of the second magnet block 10 and the thrust of the second spring 12, the valve core 72 pushes the sealing block to seal the second opening 746 of the valve seat, and tap water cannot be supplied to the water diversion part 2 through the valve body assembly 7; when the water taking container 3 is placed on the tray seat 4, under the action of gravity of the tray seat 4, the tray seat 4 moves towards the machine seat 1, the polarity of the valve core 72 is opposite to that of the first magnet block 9, the valve core 72 is attracted by the first magnet block 9, the valve core 72 moves towards the first magnet block 9, the valve core 72 is separated from the sealing block 75, the sealing block 75 is separated from the second opening 746 under the action of water pressure, namely the valve body assembly 7 is opened, and tap water is supplied to the water diversion part 2 through the valve body assembly 7; the tray seat 4 continues to move towards the machine base 1 under the action of gravity until the valve core 72 approaches the third magnet block 11, at this time, the polarity of the valve core 72 is the same as that of the first magnet 9, the valve core 72 bears the magnetic thrust of the third magnet block 11 and the thrust of the second spring 12, the valve core 72 pushes the sealing block 75 to move towards the second opening 746 of the valve base 74, the water quantity of tap water passing through the valve body assembly 7 is gradually reduced until the water taking container 3 is in a full water state, the second opening 746 of the valve base 74 is sealed by the sealing block 75, tap water cannot enter the sealing channel 744 and then enter the water outlet port 742, and thus tap water cannot supply water to the water diversion portion 2 through the valve body assembly 7.

Example 2:

in embodiment 2, as shown in fig. 7, the difference between embodiment 2 and embodiment 1 is that the valve core 72 is located in the first magnetic region formed by the first magnet block 9, and the polarity of the first magnet block 9 and the polarity of the valve core 72 are opposite in attraction.

As shown in fig. 7, when the water intake container 3 is not provided on the tray base 4, the valve core 72 is pressed against the sealing block 76 by the thrust force generated by the second spring 12, so that the second opening 746 of the valve base 74 is pressed, that is, the valve core 72 seals the second opening 746 of the valve base 74, and tap water cannot be supplied to the water intake portion 2 through the valve body assembly 7; when the water taking container 3 is placed on the tray seat 4, under the action of gravity of the tray seat 4, the tray seat 4 moves towards the machine seat 1, at the moment, the polarity of the valve core 72 is opposite to that of the first magnet block 9, the valve core 72 is attracted by the first magnet block 9, namely, the valve core 72 moves towards the direction of the first magnet block 9, the sealing block 76 is separated from the second opening 746 of the valve seat 74, namely, the valve body assembly 7 is opened, and tap water is injected into the water diversion part 2 through the valve body assembly 7; the tray seat 4 continues to move towards the machine seat 1 under the action of gravity until the valve core 72 is separated from the magnetic area of the first magnet block 9, and the water taking container 3 is in a full water state at the moment; at the same time, the valve body 72 receives the urging force from the second spring 12, the second opening 746 of the valve seat 74 is sealed, and tap water cannot be supplied to the water introduction portion 2 through the valve body assembly 7.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or application to the teachings of the invention without departing from its scope. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. A mechanical automatic water taking system comprises a machine base, wherein the machine base comprises a water diversion part; the water taking device is characterized in that an installation cavity is arranged in the machine base, the top of the installation cavity is provided with an opening, and a tray seat for placing a water taking container is arranged on the opening; the mounting cavity is internally provided with a valve body assembly fixed in the machine base and a plurality of elastic devices capable of enabling the tray base to lift relative to the machine base; the valve body assembly comprises a water inlet port, a water outlet port, a valve cover and a valve core made of magnetic materials, which are communicated with each other; the water outlet port is communicated with the water diversion part; a channel is arranged in the valve cover, a valve opening section and a valve closing section are formed in the channel, and the valve core moves back and forth between the valve opening section and the valve closing section; the valve body assembly further comprises a valve base, an elastic assembly for adjusting the position of the valve core is further arranged in the channel, and the elastic assembly is positioned at one side of the valve core away from the valve base; a plurality of magnet blocks for controlling the position of the valve core are further arranged in the mounting cavity, and the magnet blocks and the tray seat are lifted synchronously; in the mounting cavity, the magnet block is at least provided with a first magnetic area; when the valve core is positioned in the first magnetic region, the valve core moves to a valve opening region, and when the valve core leaves the first magnetic region, the valve core is extruded by an elastic component to move to a valve closing region and cuts off the communication between the water inlet port and the water outlet port; the water diversion part is vertically arranged; the water diversion part is provided with a water inlet communicated with the valve body assembly; the water diversion part is provided with a water intake above the tray seat, and a space for placing a water intake container is reserved between the water intake and the tray seat; the magnet block is also provided with a second magnetic region positioned below the first magnetic region and a third magnetic region positioned above and below the first magnetic region; when the valve core is positioned in the second magnetic region, the valve core moves to a valve closing region; when the valve core is positioned in the third magnetic region, the valve core moves to a valve closing region.

2. A mechanical automatic water intake system according to claim 1, wherein the magnet block comprises at least a first magnet block; the first magnet block forms the first magnetic area and is opposite to the valve core.

3. The mechanical automatic water intake system of claim 1, wherein the magnet block further comprises at least a second magnet block and a third magnet block; the third magnet block and the second magnet block are sequentially arranged from top to bottom along the lifting direction of the tray seat; the second magnet block is formed in the second magnetic area and is in homopolar repulsion with the valve core; the third magnet block is formed in the third magnetic area and is in homopolar repulsion with the valve core.

4. The mechanical automatic water taking system according to claim 1, wherein a mounting bar for mounting a plurality of magnet blocks is arranged in the mounting cavity; the mounting bars are arranged along the lifting direction of the tray seat and synchronously move with the tray seat.

5. A mechanical automatic water intake system according to claim 1 wherein said water inlet and outlet ports are formed in said valve base; a cavity communicated with the water inlet port is arranged in the valve base; a first opening facing the valve cover is arranged in the cavity, and the valve cover is covered on the first opening; a sealing channel communicated with the water outlet port is further arranged in the cavity, and a second opening facing the valve cover is arranged in the sealing channel; the valve cover is provided with a sealing block which can be extruded and sealed in the second opening by the valve core, one end of the sealing block faces the second opening, and the other end of the sealing block is communicated with the channel.

6. A mechanical automatic water intake system according to claim 5 wherein said valve cover extends toward one end of said magnet block to form a boss, said channel being formed in said boss.

7. A mechanical automatic water intake system according to claim 6, wherein the protruding block is of a columnar design, and the central axis of the protruding block is perpendicular to the lifting axis of the tray base.