CN215738414U

CN215738414U - Water dispenser system

Info

Publication number: CN215738414U
Application number: CN202120528101.1U
Authority: CN
Inventors: 潘安顺; 林演曙; 张跃辉; 伍承讲; 谢明朗; 盛传敏; 莫祥煌; 张亮前; 彭英东; 贺礼; 王祥兴
Original assignee: Zhongshan Lemon Environmental Technology Co ltd
Current assignee: Zhongshan Lemon Environmental Technology Co ltd
Priority date: 2021-03-08
Filing date: 2021-03-11
Publication date: 2022-02-08
Anticipated expiration: 2031-03-11
Also published as: CN112806851A

Abstract

The utility model discloses a water dispenser system which comprises a machine body and a control module, wherein the machine body is provided with a steel mesh filter, a water inlet control valve, a filter element filtering module, a water pump, a first one-way valve and a rapid heating water outlet module which are sequentially connected through a water path, the water path between the filter element filtering module and the water pump is respectively connected with a water storage container and a water level float switch through bypasses, the water inlet control valve, the water pump, the rapid heating water outlet module and the water level float switch are respectively and electrically connected with the control module, one side of the machine body is provided with a water storage container positioning groove for positioning and placing the water storage container on, and the water storage container is connected on the water path between the filter element filtering module and the water pump through a detachable connection mechanism.

Description

Water dispenser system

Technical Field

The utility model relates to a water dispenser system.

Background

At present, in the existing water dispenser with a water storage container, a water level sensor is directly arranged in the water storage container and then is connected with a controller of the water dispenser through a wire, and the water storage container is not convenient to be independently detached for use in the connection mode, and on the other hand, the water level sensor is not easy to replace when damaged, and the whole water storage container possibly needs to be replaced.

Therefore, how to overcome the above-mentioned drawbacks has become an important issue to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes the defects of the technology and provides a water dispenser system.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a water dispenser system comprises a machine body 1 and a control module, wherein the machine body 1 is provided with a steel mesh filter 2, a water inlet control valve 3, a filter element filtering module 4, a water pump 5, a first one-way valve 6 and a rapid heating water outlet module 7 which are connected in sequence through a water path, a water storage container 8 and a water level float switch 9 are respectively connected to the water path between the filter element filtering module 4 and the water pump 5 through bypasses, the water inlet control valve 3, the water pump 5, the rapid heating water outlet module 7 and the water level float switch 9 are respectively and electrically connected with the control module, a water storage container positioning groove 10 for positioning and placing the water storage container 8 is arranged on one side of the machine body 1, and the water storage container 8 is connected to the water path between the filter element filtering module 4 and the water pump 5 through a detachable connection mechanism.

Preferably, the water storage container positioning groove 10 is provided with two height gradually-changing groove edges 103 with gradually-decreasing heights from the direction of the middle part of the machine body 1 to the direction of the edge of the machine body 1, and a transverse groove edge 104 is connected between the lower ends of the two height gradually-changing groove edges 103.

Preferably, an openable upper cover 81 is covered on the upper end of the water storage container 8, a side wall water outlet 82 is arranged on the side wall of the water storage container 8, and the side wall water outlet 82 is connected with a first water tap 83 outwards.

Preferably, the height of the side wall water outlet 82 is not higher than half of the maximum water storage height of the water storage container 8.

Preferably, the rapid heating water outlet module 7 comprises a rapid heater 71, a water-gas separation box 72 and a second water tap 73 which are sequentially communicated.

Preferably, a positioning boss 101 is arranged in the middle of the water storage container positioning groove 10, a second vertical channel body 102 extending downward is arranged on the positioning boss 101, a second one-way valve 12 is tightly connected in the second vertical channel body 102, the lower end of the second one-way valve 12 is connected with a water channel of the machine body 1, the second one-way valve 12 is provided with a second valve core 121 for closing the second one-way valve 12 when moving upward under stress and opening the second one-way valve 12 when moving downward under stress, the bottom end of the water storage container 8 is provided with a positioning groove 801 recessed upward for matching with the positioning boss 101, a third vertical channel body 811 extending downward is arranged in the middle of the positioning groove 801, the third vertical channel body 811 does not extend out of the positioning groove 801, a third one-way valve 13 is tightly connected in the third vertical channel body 811, and the third one-way valve 13 is provided with a valve 13 for closing the third one-way valve 13 when moving downward under stress, When the water storage container 8 is placed in place, the second valve element 121 and the third valve element 131 are pressed against each other, so that the second one-way valve 12 and the third one-way valve 13 are both opened and the water path is communicated.

Preferably, the second check valve 12 includes a second valve chamber 122 in which the second valve element 121 is installed and can move up and down, and a second spring 123 for elastically pressing the second valve element 121 from bottom to top to move up so as to close the second valve chamber 122 in a resetting manner is further disposed in the second valve chamber 122; the third check valve 13 includes a third valve chamber 132 in which the third valve element 131 is installed and can move up and down, and a third spring 133 for elastically pressing the third valve element 131 from top to bottom to move up so as to close the third valve chamber 132 in a resetting manner is further disposed in the third valve chamber 132.

Preferably, a one-way air inlet valve 14 for facilitating air inlet when the third one-way valve 13 is separated from the second one-way valve 12 is further connected to the side wall of the second valve chamber 122.

Compared with the prior art, the utility model has the beneficial effects that:

1. the structure of the water level floater switch is simple and easy to realize, the water level floater switch is not arranged in the water storage container, but is connected with the water storage container on a water path behind the filter element filtering module respectively, so that the water level floater switch is convenient to replace independently during maintenance, is convenient to take out the water storage container independently for use during subsequent specific implementation, and is not provided with a connecting wire; in addition, the steel mesh filter is durable for a long time and is convenient for front-end interception of larger particles in water; in addition, the filter element filtering module can supply water to the rapid heating water outlet module through a water path, and the water storage container can also supply water to the rapid heating water outlet module through the water path, so that the filter element filtering module is good in practicability, when the water level float switch is triggered, the water storage container stores a large amount of water, and the control module can temporarily close the water inlet control valve, so that the energy-saving control is facilitated.

2. The water storage container positioning groove is provided with two height gradually-changing groove edges, the height of the two height gradually-changing groove edges gradually decreases from the direction of the middle of the machine body to the direction of the edge of the machine body, and a horizontal groove edge is connected between the other ends of the two height gradually-changing groove edges.

3. The lateral wall of the second valve cavity is further connected with a one-way air inlet valve which is convenient for air inlet when the third one-way valve is separated from the second one-way valve, so that negative pressure acting force in the second valve cavity during separation can be reduced through air inlet, and separation is easier.

Drawings

Fig. 1 is a perspective view of the water dispenser.

Fig. 2 is a water path connection diagram of the water dispenser.

Fig. 3 is a diagram of the water dispenser with the water storage container hidden.

Fig. 4 is a view of the water dispenser body of fig. 3 with a housing removed.

Fig. 5 is a cross-sectional view of a second one-way valve of the present disclosure.

Fig. 6 is a perspective view of the water storage container of the present invention.

Fig. 7 is a sectional view taken at a-a in fig. 6.

Fig. 8 is an enlarged view of the third check valve of fig. 7.

Detailed Description

The features of the present invention and other related features are further described in detail below by way of examples to facilitate understanding by those skilled in the art:

as shown in fig. 1 to 8, a water dispenser system comprises a machine body 1 and a control module, wherein the machine body 1 is provided with a steel mesh filter 2, a water inlet control valve 3, a filter element filtering module 4, a water pump 5, a first one-way valve 6 and a rapid heating water outlet module 7 which are connected in sequence through a water path, the water path between the filter element filtering module 4 and the water pump 5 is further respectively connected with a water storage container 8 and a water level float switch 9 through a bypass, the water inlet control valve 3, the water pump 5, the rapid heating water outlet module 7 and the water level float switch 9 are respectively electrically connected with the control module, one side of the machine body 1 is provided with a water storage container positioning groove 10 for positioning and placing the water storage container 8 thereon, and the water storage container 8 is connected to the water path between the filter element filtering module 4 and the water pump 5 through a detachable connection mechanism.

As mentioned above, the structure of the scheme is simple and easy to realize, the water level float switch 9 is not arranged in the water storage container 8, but is connected with the water storage container 8 on the water path behind the filter element filtering module 4, so that the water storage container 8 can be replaced independently during maintenance, the water storage container 8 can be taken out independently for use during subsequent specific implementation, and no connecting wire is arranged on the water storage container; in addition, the steel mesh filter 2 is durable for a long time and is convenient for front-end interception of larger particles in water; in addition, the filter element filtering module 4 can supply water to the rapid heating water outlet module 7 through a water path, and the water storage container 8 can also supply water to the rapid heating water outlet module 7 through a water path, so that the practicability is good, when the water level float switch 9 is triggered, the water storage container 8 stores a large amount of water, and at the moment, the control module can temporarily close the water inlet control valve 3, and the energy-saving control is facilitated.

As shown in fig. 3, in specific implementation, the water container positioning slot 10 is provided with two height gradually-changing slot edges 103, the height of which gradually decreases from the middle of the machine body 1 to the edge of the machine body 1, and a transverse slot edge 104 is connected between the lower ends of the two height gradually-changing slot edges 103, so that when a user wants to take out the water container 8 from the water container positioning slot 10, the user can take out the water container 8 from the lower side of the water container positioning slot 10 after holding the water container 8 in a large area, and the operation is convenient.

As shown in fig. 1, in a specific implementation, an openable upper cover 81 is closed on an upper end cover of the water storage container 8, a side wall water outlet 82 is arranged on a side wall of the water storage container 8, and the side wall water outlet 82 is connected with a first water tap 83 outwards, so that, regardless of whether the water storage container 8 is taken out from the water dispenser, when the water stored in the water storage container 8 highly overflows the side wall water outlet 82 and reaches the first water outlet control valve 12, a user can open the first water outlet control valve 12 to discharge water according to needs, and the use is convenient, for example, when the water storage container 8 needs to be taken out for large amount of water, after the upper cover 81 is opened, a large amount of water can be discharged from the upper end of the water storage container 8, and the applicability is good.

As shown in fig. 6 and 7, in specific implementation, the height of the side wall water outlet 82 is not higher than half of the maximum water storage height of the water storage container 8, so that the problem of small water output due to too high arrangement of the side wall water outlet 82 is avoided.

As shown in fig. 1 and 4, in a specific implementation, the rapid heating water outlet module 7 includes a rapid heater 71, a water-gas separation box 72, and a second water tap 73, which are sequentially connected.

As described above, in specific implementation, the middle of the water storage container positioning groove 10 is provided with the positioning boss 101, the positioning boss 101 is provided with the second vertical passage 102 extending downward, the second vertical passage 102 is tightly connected with the second check valve 12, the lower end of the second check valve 12 is connected with the water passage of the machine body 1, the second check valve 12 is provided with the second valve core 121 for closing the second check valve 12 when the second check valve 12 moves upward under stress and opening the second check valve 12 when the second check valve moves downward under stress, the bottom end of the water storage container 8 is provided with the positioning groove 801 recessed upward for matching with the positioning boss 101, the middle of the positioning groove 801 is provided with the third vertical passage 811 extending downward, the third vertical passage 811 does not extend out of the positioning groove 801, the third vertical passage 811 is tightly connected with the third check valve 13, and the third check valve 13 is provided with the positioning groove 811 for closing the third check valve 13 when the third check valve 13 moves downward under stress, When the water container 8 is placed in place, the second valve element 121 and the third valve element 131 are pressed against each other to open the second one-way valve 12 and the third one-way valve 13 and communicate the water path, so that the water container 8 is detachably connected to the machine body 1, and when the water container is separated, due to the existence of the second one-way valve 12 and the third one-way valve 13, the separated parts are closed respectively and water leakage does not occur.

As shown in fig. 5 and 8, in specific implementation, the second check valve 12 includes a second valve chamber 122 in which the second valve element 121 is installed and can move up and down, and a second spring 123 for elastically pressing the second valve element 121 from bottom to top to move up so as to close the second valve chamber 122 in a reset manner is further disposed in the second valve chamber 122; the third check valve 13 includes a third valve chamber 132 in which the third valve core 131 is installed and can move up and down, and a third spring 133 for elastically pressing the third valve core 131 from top to bottom to move up so as to close the third valve chamber 132 in a resetting manner is further disposed in the third valve chamber 132.

As shown in fig. 5, in practical implementation, a one-way intake valve 14 is further connected to a side wall of the second valve chamber 122 for facilitating air intake when the third check valve 13 is separated from the second check valve 12, so that negative pressure acting force in the second valve chamber 122 during separation can be reduced by air intake, and separation is easier.

As described above, the present disclosure is directed to a water dispenser system, and all technical solutions having the same or similar structure as the present disclosure should be regarded as falling within the protection scope of the present disclosure.

Claims

1. The water dispenser system is characterized by comprising a machine body (1) and a control module, wherein the machine body (1) is provided with a steel mesh filter (2), a water inlet control valve (3), a filter element filtering module (4), a water pump (5), a first one-way valve (6) and a rapid heating water outlet module (7) which are connected in sequence through a water path, the water path between the filter element filtering module (4) and the water pump (5) is respectively connected with a water storage container (8) and a water level float switch (9) in a bypass mode, the water inlet control valve (3), the water pump (5), the rapid heating water outlet module (7) and the water level float switch (9) are respectively and electrically connected with the control module, one side of the machine body (1) is provided with a water storage container positioning groove (10) for the water storage container (8) to be positioned and placed on, the water storage container (8) is connected with the water path between the filter element filtering module (4) and the water pump (5) through a detachable connection mechanism .

2. The water dispenser system according to claim 1, wherein the water container positioning groove (10) is provided with two height gradually-changing groove edges (103) which gradually decrease in height from the middle direction of the machine body (1) to the edge direction of the machine body (1), and a transverse groove edge (104) is connected between the lower ends of the two height gradually-changing groove edges (103).

3. The water dispenser system as claimed in claim 1, wherein the upper end of the water storage container (8) is covered with an openable upper cover (81), a side wall water outlet (82) is arranged on the side wall of the water storage container (8), and the side wall water outlet (82) is connected with a first water tap (83) outwards.

4. The water dispenser system of claim 3 wherein the side wall water outlet (82) is disposed at a height no greater than half of the maximum storage height of the storage container (8).

5. The water dispenser system as claimed in claim 1, wherein the rapid heating water outlet module (7) comprises a rapid heater (71), a water-gas separation box (72) and a second water tap (73) which are communicated in sequence.

6. The water dispenser system as claimed in any one of claims 1-5, wherein a positioning boss (101) is provided in the middle of the positioning groove (10) of the water storage container, a second vertical passage body (102) extending downward is provided on the positioning boss (101), a second one-way valve (12) is tightly connected in the second vertical passage body (102), the lower end of the second one-way valve (12) is connected with the water passage of the machine body (1), the second one-way valve (12) is provided with a second valve core (121) for closing the second one-way valve (12) when being forced to move upward and opening the second one-way valve (12) when being forced to move downward, a positioning groove (801) recessed upward for matching with the positioning boss (101) is provided at the bottom end of the water storage container (8), a third vertical passage body (811) extending downward is provided in the middle of the positioning groove (801), the third vertical channel body (811) does not extend out of the positioning groove (801), a third one-way valve (13) is tightly connected in the third vertical channel body (811), the third one-way valve (13) is provided with a third valve core (131) which is used for closing the third one-way valve (13) when the third one-way valve is forced to move downwards and opening the third one-way valve (13) when the third one-way valve is forced to move upwards, the inner wall of the upper end of the second one-way valve (12) or the inner wall of the upper end of the second vertical channel body (102) is provided with an annular step (120) for tightly abutting against the lower end of the third vertical channel body (811), and when the water storage container (8) is placed in place, the second valve core (121) and the third valve core (131) are pressed against each other to enable the second one-way valve (12) and the third one-way valve (13) to be opened and communicated with a water path.

7. The water dispenser system as claimed in claim 6, wherein the second check valve (12) comprises a second valve chamber (122) in which the second valve core (121) is installed and which can move up and down, and a second spring (123) for elastically pressing the second valve core (121) from bottom to top to move up so as to reset and close the second valve chamber (122) is further arranged in the second valve chamber (122); the third check valve (13) comprises a third valve cavity (132) in which the third valve core (131) is arranged and can move up and down, and a third spring (133) used for elastically pressing the third valve core (131) from top to bottom to move up so as to reset and close the third valve cavity (132) is further arranged in the third valve cavity (132).

8. The water dispenser system of claim 7 wherein the side wall of the second valve chamber (122) is further connected with a one-way air inlet valve (14) for facilitating air inlet when the third one-way valve (13) is separated from the second one-way valve (12).