CN213979122U - Water supply equipment for realizing equipment control intellectualization by adopting internet - Google Patents

Abstract

The utility model discloses an adopt internet to realize intelligent water supply equipment of equipment control, include: the water tank containing box is fixed with a bottom plate at the bottom, the constant pressure water tank is fixed in the water tank containing box, and the high pressure water tank is communicated with the constant pressure water tank and is positioned right above the constant pressure water tank, and one side of the constant pressure water tank is provided with an ultrahigh pressure water tank in parallel; the constant pressure water tank is connected with the constant pressure water pump, the high pressure water tank is connected with the high pressure water pump, the ultrahigh pressure water tank is connected with the ultra-high pressure water pump, the constant pressure water pump is connected with the user's water pipe, and the rigid coupling has variable frequency controller respectively on constant pressure water pump, high pressure water pump and the ultra-high pressure water pump. According to the utility model discloses, realize intelligent control through internet technology, practice thrift the cost to can realize energy-conserving high-efficient water supply.

Description

Water supply equipment for realizing equipment control intellectualization by adopting internet

Technical Field

The utility model relates to a water supply equipment's technical field, in particular to adopt internet to realize intelligent water supply equipment of equipment control.

Background

A water supply device: the water supply device which can automatically start and stop and output a certain flow and lift in unit time. According to the application: fire control, life, production, sewage treatment four types, water supply equipment is because the pressure is not enough, can't reach the height or the stream of user's water, and the special professional equipment of novel environmental protection and energy saving of special research and development design.

The traditional water supply mode can not be separated from a reservoir, and water in the reservoir is generally supplied by a tap water pipe network, so that the original pressurized water enters a water pool and becomes zero, and then pressurization is started from zero, so that a large amount of electric energy is wasted. The water supply system generally comprises a water pump unit, a variable frequency control cabinet, a diaphragm pressure tank, a pressure sensor and some accessories. However, due to the different types, special devices are also used, such as: the non-negative pressure variable frequency water supply equipment can use a non-negative pressure steady flow tank; the towerless variable frequency water supply equipment can use a liquid level sensor. And current municipal water supply often can appear supplying water pressure and be not enough to make the water yield less, after using some corresponding measures, also can make the water supply energy-conserving high-efficient inadequately, and this water supply equipment needs manual monitoring to control, and control inefficiency.

SUMMERY OF THE UTILITY MODEL

To the weak point that exists among the prior art, the utility model aims at providing an adopt the internet to realize the intelligent water supply equipment of equipment control, realize intelligent control through internet technology, practice thrift the cost to can realize energy-conserving high-efficient water supply. In order to realize the basis the utility model discloses an above-mentioned purpose and other advantages provide an adopt internet to realize intelligent water supply equipment of equipment control, include:

the water tank containing box is fixed with a bottom plate at the bottom, the constant pressure water tank is fixed in the water tank containing box, and the high pressure water tank is communicated with the constant pressure water tank and is positioned right above the constant pressure water tank, and one side of the constant pressure water tank is provided with an ultrahigh pressure water tank in parallel;

the system comprises a constant pressure water tank, a high pressure water pump, an ultrahigh pressure water pump, a user water pipe, a bypass connecting pipe, an ultrahigh pressure connecting pipe and a user water pipe, wherein the constant pressure water tank is connected with the constant pressure water pump, the high pressure water tank is connected with the high pressure water pump, the ultrahigh pressure water tank is connected with the ultrahigh pressure water pump, the constant pressure water pump is connected with the user water pipe, the user water pipe is sequentially communicated with the constant pressure connecting pipe, the high pressure connecting pipe, the bypass connecting pipe and the ultrahigh pressure connecting pipe along the length direction, and the constant pressure connecting pipe, the high pressure connecting pipe and the ultrahigh pressure connecting pipe are respectively communicated with the constant pressure water pump, the high pressure water pump and the ultrahigh pressure water pump;

the constant pressure water pump, the high pressure water pump and the ultrahigh water pump are respectively and fixedly connected with a variable frequency controller.

Preferably, constant pressure water tank one side end intercommunication has municipal interface pipe fitting, and constant pressure water tank bottom intercommunication has first connecting water pipe, first connecting water pipe rigid coupling has the second to connect the water pipe, the second is connected the water pipe and is connected with the constant pressure water pump through first control valve.

Preferably, the constant pressure water pump is including being fixed in the intercommunication base on the bottom plate, running through the third connecting pipe of intercommunication base, and with the water pump that the third connecting pipe is connected, third connecting pipe one end intercommunication second connecting pipe, the other end intercommunication has the constant pressure connecting pipe.

Preferably, the constant pressure water pump, the high pressure water pump and the ultra-high water pump have the same structure, and a bypass pipeline assembly is arranged between the high pressure water pump and the ultra-high water pump.

Preferably, at least two connecting pipe fittings are communicated between the constant pressure water pump and the high pressure water pump, a second control valve is connected to the connecting pipe fittings, at least two pressure detectors are fixedly connected to a user water pipe, and the pressure detectors are used for detecting the water supply pressure of a user.

Preferably, the bypass pipeline assembly comprises a fourth connecting water pipe communicated with the constant-pressure water tank, a fifth connecting water pipe communicated with the fourth connecting water pipe through a first control element, and a bypass pipeline communicated with the fifth connecting water pipe through a third control valve, and the bypass pipeline is communicated with the water pipe of the user.

Compared with the prior art, the utility model, its beneficial effect is: the equipment directly takes water from a municipal pipe network through the constant-pressure water tank to realize pressure-superposed water supply, so that the power of a water pump is reduced, and energy conservation is realized; the high-pressure water tank and the ultrahigh-pressure water tank supply water to the user pipe network at night in a small-flow water supply mode, the unit is standby and is more energy-saving, a pump is provided with a variable-frequency controller, the pump is independently controlled, one set of equipment is provided with a plurality of sets of control centers, the safety coefficient is higher, and finally, the equipment control is intelligentized through the internet technology, and the system is more energy-saving and efficient.

Drawings

Fig. 1 is a front view of a water supply device for realizing intelligent device control by using the internet according to the utility model;

fig. 2 is a left side view of the water supply equipment for realizing intelligent equipment control by adopting the internet according to the utility model;

fig. 3 is a top view of the pressurizing part of the water supply equipment for realizing intelligent equipment control by adopting the internet.

In the figure: 10. a water tank accommodating tank; 20. a high pressure water tank; 30. an ultra-high pressure water tank; 40. a constant pressure water pump; 50. a high pressure water pump; 60. an ultra-high water pump; 70. a user water pipe; 80. a constant pressure water tank; 90. municipal interface pipe fittings; 100. municipal interface pipe fittings; 110. a pressure detector; 120. a base plate; 130. a bypass conduit assembly.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 3, a water supply apparatus for realizing intelligent control of an apparatus using the internet, comprising: the water tank that the bottom is fixed with bottom plate 120 holds case 10, is fixed in constant voltage water tank 80 in the water tank holds case 10 and with the high-pressure water tank 20 of constant voltage water tank 80 intercommunication, high-pressure water tank 20 is located constant voltage water tank 80 directly over, just constant voltage water tank 80 one side is provided with superhigh pressure water tank 30 side by side, all can carry out the energy storage at ordinary times in high-pressure water tank 20 and superhigh pressure water tank 30, and the pressure of coping with municipal pipe network at any time is unstable, the problem of not enough water supply, constant voltage water tank 80 is connected with constant voltage water pump 40, high-pressure water tank 20 is connected with high-pressure water pump 50, superhigh pressure water tank 30 is connected with superhigh pressure water pump 60, constant voltage water pump 40 is connected with user's water pipe 70, user's water pipe 70 upwards communicates in proper order along length direction has constant voltage connecting pipe, high-pressure connecting pipe, bypass connecting pipe and superhigh pressure connecting pipe, constant voltage connecting pipe and superhigh pressure connecting pipe respectively with constant voltage water pump 40, The high-pressure water pump 50 is communicated with the ultrahigh-pressure water pump 60, when the municipal pressure is sufficient, the pump group takes water from a municipal pipe network through the constant-pressure water tank 80 to realize overlying water supply, when the water supply pressure of the constant-pressure water tank 80 is insufficient, the high-pressure water tank 20 supplies water to the user water pipe 70, and after the high-pressure water tank 20 stores energy, the ultrahigh-pressure water pump 60 works to supply water to the ultrahigh-pressure water tank 30 to store energy; when the pressure of the high-pressure water tank 20 is insufficient, the ultrahigh-pressure water tank 30 replenishes water to the user water pipe 70; constant pressure water pump 40, high pressure water pump 50 and super high water pump 60 go up the rigid coupling respectively and have variable frequency controller to make a pump dispose a variable frequency controller, mutual independent control adopts internet technology control this equipment moreover, makes this equipment can intelligent water supply, guarantees that user's water is normal.

Further, a side end of the constant pressure water tank 80 is communicated with a municipal interface pipe fitting 100, the bottom of the constant pressure water tank 80 is communicated with a first connecting water pipe, the first connecting water pipe is fixedly connected with a second connecting water pipe, and the second connecting water pipe is connected with the constant pressure water pump 40 through a first control valve.

Further, the constant pressure water pump 40 includes a communication base fixed on the bottom plate 120, a third connection pipe penetrating through the communication base, and a water pump connected with the third connection pipe, one end of the third connection pipe is communicated with the second connection water pipe, and the other end is communicated with the constant pressure connection pipe.

Further, the constant pressure water pump 40, the high pressure water pump 50 and the ultra high pressure water pump 60 have the same structure, and a bypass pipe assembly 130 is disposed between the high pressure water pump 50 and the ultra high pressure water pump 60, so that when the high pressure water tank 20 supplies water, the constant pressure water tank 80 is enlarged by the bypass pipe assembly 130 to supply water to the user water pipe 70, thereby ensuring normal water supply.

Further, at least two connecting pipe fittings 90 are communicated between the constant pressure water pump 40 and the high pressure water pump 50, a second control valve is connected to the connecting pipe fittings 90, at least two pressure detectors 110 are fixedly connected to the user water pipe 70, and the pressure detectors 110 are used for detecting the water supply pressure of the user.

Further, the bypass pipe assembly 130 includes a fourth connection water pipe communicated with the constant pressure water tank 80, a fifth connection water pipe communicated with the fourth connection water pipe through a first control member, and a fifth connection water pipe communicated with the fifth connection water pipe.

The number of devices and the scale of the processes described herein are intended to simplify the description of the present invention, and applications, modifications and variations of the present invention will be apparent to those skilled in the art.

While the embodiments of the invention have been disclosed above, it is not limited to the applications listed in the description and the embodiments, which are fully applicable in all kinds of fields of application suitable for this invention, and further modifications may be readily made by those skilled in the art, and the invention is therefore not limited to the specific details and illustrations shown and described herein, without departing from the general concept defined by the claims and their equivalents.

Claims (6)

1. The utility model provides an adopt internet to realize intelligent water supply equipment of equipment control which characterized in that includes:

the water tank containing box comprises a water tank containing box (10) with a bottom plate (120) fixed at the bottom, a constant pressure water tank (80) fixed in the water tank containing box (10) and a high pressure water tank (20) communicated with the constant pressure water tank (80), wherein the high pressure water tank (20) is positioned right above the constant pressure water tank (80), and an ultrahigh pressure water tank (30) is arranged on one side of the constant pressure water tank (80) in parallel;

the constant-pressure water tank (80) is connected with a constant-pressure water pump (40), the high-pressure water tank (20) is connected with a high-pressure water pump (50), the ultrahigh-pressure water tank (30) is connected with an ultrahigh-pressure water pump (60), the constant-pressure water pump (40) is connected with a user water pipe (70), the user water pipe (70) is sequentially communicated with a constant-pressure connecting pipe, a high-pressure connecting pipe, a bypass connecting pipe and an ultrahigh-pressure connecting pipe along the length direction, and the constant-pressure connecting pipe, the high-pressure connecting pipe and the ultrahigh-pressure connecting pipe are respectively communicated with the constant-pressure water pump (40), the high-pressure water pump (50) and the ultrahigh-pressure water pump (60);

the constant pressure water pump (40), the high pressure water pump (50) and the ultrahigh water pump (60) are respectively and fixedly connected with a variable frequency controller.

2. The water supply equipment for realizing intelligent equipment control by adopting the internet as claimed in claim 1, wherein one side end of the constant pressure water tank (80) is communicated with a municipal interface pipe fitting (100), and the bottom of the constant pressure water tank (80) is communicated with a first connecting water pipe which is fixedly connected with a second connecting water pipe, and the second connecting water pipe is connected with the constant pressure water pump (40) through a first control valve.

3. The water supply equipment using the internet for realizing the intelligent control of the equipment as claimed in claim 1, wherein the constant pressure water pump (40) comprises a communication base fixed on the bottom plate (120), a third connection pipe penetrating through the communication base, and a water pump connected with the third connection pipe, one end of the third connection pipe is communicated with the second connection water pipe, and the other end is communicated with the constant pressure connection pipe.

4. The water supply equipment for realizing the intelligent control of the equipment by adopting the internet as claimed in claim 1, wherein the constant pressure water pump (40), the high pressure water pump (50) and the ultra high pressure water pump (60) have the same structure, and a bypass pipe assembly (130) is arranged between the high pressure water pump (50) and the ultra high pressure water pump (60).

5. The water supply equipment adopting the internet to realize the intelligent control of the equipment according to claim 1, wherein at least two connecting pipe fittings (90) are communicated between the constant pressure water pump (40) and the high pressure water pump (50), a second control valve is connected on the connecting pipe fitting (90), at least two pressure detectors (110) are fixedly connected on the user water pipe (70), and the pressure detectors (110) are used for detecting the water supply pressure of the user.

6. The water supply equipment using internet for intelligent control of equipment as claimed in claim 4, wherein the bypass pipe assembly (130) comprises a fourth connection water pipe communicated with the constant pressure water tank (80), a fifth connection water pipe communicated with the fourth connection water pipe through a first control member, and a bypass pipe communicated with the fifth connection water pipe through a third control valve, the bypass pipe being communicated with the user water pipe (70).

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