CN219261186U

CN219261186U - Integrated device with pressurization water purification function

Info

Publication number: CN219261186U
Application number: CN202320687299.7U
Authority: CN
Inventors: 周克海
Original assignee: Shaanxi Huifeng Environmental Protection Equipment Co ltd
Current assignee: Shaanxi Huifeng Environmental Protection Equipment Co ltd
Priority date: 2023-03-31
Filing date: 2023-03-31
Publication date: 2023-06-27
Anticipated expiration: 2033-03-31

Abstract

The utility model discloses an integrated device with a pressurized water purifying function, which comprises a pressurized water purifying device body, wherein the pressurized water purifying device body is integrated equipment formed by combining and assembling a control box body and a storage device, the storage device is formed by combining a living water tank and a direct drinking water tank, the living water tank and the direct drinking water tank are formed by combining and assembling stainless steel plates, a control cabinet and the pressurized water purifying device are arranged in the control box body, the control cabinet comprises a controller, a protection circuit, a relay and components related to the control cabinet, and the control cabinet is electrically connected with all components of the pressurized water purifying device. The pressurized water purifying equipment body is integrated equipment formed by combining and assembling the control box body and the storage equipment, and when the pressurized water purifying equipment is installed, the pressurized water purifying equipment body can be quickly put into use by simply debugging an internal system only by installing the whole pump station, and has the advantages of convenience in use and maintenance and capability of greatly reducing the workload of staff.

Description

Integrated device with pressurization water purification function

Technical Field

The utility model relates to the technical field of pressurized water purifying equipment, in particular to an integrated device with a pressurized water purifying function.

Background

The constant pressure water supply is a water supply mode in which the outlet pressure is kept unchanged when the water consumption in the water supply pipe network is changed, and the existing constant pressure water supply mode is realized by adopting facilities such as a water tower, a high-level water tank, an air pressure tank and the like. In the using process of the traditional water supply equipment, a water pool or a water tank needs to be built, tap water is put into the water pool or the water tank, and then pressurization is carried out;

however, the adoption of the mode has the defects of high investment, large occupied area, complex installation, high maintenance cost and the like. Therefore, the integrated device with the pressurizing water purifying function is developed, all subsystems in the device are designed by adopting a modular design, and are assembled into integrated equipment, so that the construction period and the installation cost are greatly reduced, and the project construction period and the investment budget are greatly reduced.

In China, the publication number is: the utility model discloses a box integration intelligence water supply pump station in CN208650160U, above-mentioned technical scheme includes storage tank and storage tank, the fixed welding in storage tank right side has the storage tank, the bottom plate of storage tank and the right side board of storage tank all are through self tapping screw fixedly connected with spring hinge, the bottom plate of storage tank and the right side board of storage tank pass through spring hinge connection, the fixed welding in the right side of the upper plate of storage tank has the bull stick, the bull stick has the turning plate to turn round outward, the fixed welding in the right side of right side board has four damping device of group, the equal fixed welding in left side of bottom plate upper end and right side board has two sets of parallel arrangement's slide rail, and the orientation of the slide rail of bottom plate and the perpendicular crossing of orientation of the slide rail of right side board, fixed plate on the slide rail passes through fixed plate lower extreme fixed welding's slider and slide rail sliding connection. This box integration intelligence water supply pump station not only is convenient for transport and remove, uses moreover and easy maintenance, significantly reduced staff's work burden.

Disclosure of Invention

The utility model aims to provide an integrated device with a pressurizing water purifying function, which is convenient to use and maintain and solves the defects of high investment, large occupied area, complex installation, high maintenance cost and the like existing at present.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an integrated device with pressurization water purification function, includes pressurization water purification unit body, pressurization water purification unit body is by control box and the integrated equipment that storage facilities combination assembly formed, and storage facilities is formed by living water tank and straight drinking water tank combination, and living water tank and straight drinking water tank all adopt corrosion resistant plate combination to assemble and form, and control box inside is provided with switch board and pressurization water purification unit, the switch board includes controller, protection circuit, relay and components and parts correlated with them, and the switch board is connected with pressurization water purification unit each subassembly electricity, and pressurization water purification unit is formed by stationary ladle filter, precision filter, active carbon filter and reverse osmosis unit combination, first frequency pump is connected with the water source through the water inlet of storage facilities, and the delivery port of first frequency pump is connected with the stationary ladle water inlet through the intercommunication water pipe, the stationary ladle top terminal surface is fixed and is provided with negative pressure eliminator and manometer, and the delivery port of second frequency pump is connected through the water inlet of pipe connection second frequency pump, and the life water pump is connected with the filter assembly through the stationary ladle filter, and the water storage facilities is linked together respectively.

By adopting the technical scheme, the pressurized water purifying equipment body is integrated equipment formed by combining and assembling the control box body and the storage equipment, and when the pressurized water purifying equipment is installed, only the pump station (the filtering component and the variable frequency pump) is required to be integrally installed, and the internal system can be simply debugged, so that the pressurized water purifying equipment can be quickly put into use, and has the advantages of convenience in use and maintenance, and greatly reduced workload of staff.

The utility model is further provided with:

the water inlet is formed in the top of the storage device and is communicated with the first variable frequency pump through the water inlet pipe, the water outlet of the first variable frequency pump is connected with the communicating water pipe, and the other end of the communicating water pipe is communicated with the water inlet of the steady flow tank.

By adopting the technical scheme, the water source is introduced into the steady flow tank through the first variable frequency pump.

The utility model is further provided with:

the steady flow tank is internally provided with a liquid level detector, the liquid level detector is matched with the control cabinet for use, and the liquid level detector adopts a CL-10GH type liquid level detector.

By adopting the technical scheme, the liquid level detector is utilized to detect the water level in the steady flow tank.

The utility model is further provided with:

the negative pressure eliminator adopts R51 series negative pressure eliminating equipment, and is used for realizing non-negative pressure water supply in the steady flow tank by matching with the negative pressure eliminator and the pressure gauge.

The utility model is further provided with:

the water outlet of the steady flow tank is connected with a steady flow tank water pipe, the other end of the steady flow tank water pipe is communicated with the water inlet of the second variable frequency pump, the water outlet of the second variable frequency pump is connected with a branch pipe, the other end of the branch pipe is connected with a life water pipe, and the life water pipe is respectively connected with a life water tank and a connecting pipe of the storage device through a three-way communication valve.

By adopting the technical scheme, the water in the steady flow tank is conveyed into the connecting pipe and the living water tank of the storage equipment by starting the second variable frequency pump.

The utility model is further provided with:

the control valve is arranged on the connecting pipe and the domestic water pipe, the other end of the connecting pipe is connected with the water inlet of the third variable frequency pump, the water outlet of the third variable frequency pump is connected with the basket filter, and the basket filter is sequentially communicated with the precision filter, the activated carbon filter and the reverse osmosis equipment through pipelines.

By adopting the technical scheme, the water is sequentially conveyed to the basket filter through the connecting pipe, and is sequentially communicated with the precision filter, the activated carbon filter and the reverse osmosis equipment through the pipeline to be filtered, so that raw water is purified, and purified water is obtained.

The utility model is further provided with:

the water outlet of the reverse osmosis device is connected with a direct drinking water pipe, a water valve is arranged on the direct drinking water pipe, and the other end of the direct drinking water pipe is communicated with a direct drinking water tank of the storage device.

By adopting the technical scheme, water with different water qualities is obtained through pipeline design and control, the water purifying function is increased, and the aim of supplying tap water and direct drinking water simultaneously is fulfilled.

The utility model is further provided with:

the basket filter is communicated with the precision filter, the activated carbon filter and the reverse osmosis equipment in sequence through pipelines, connecting rings are arranged on the basket filter, the precision filter, the activated carbon filter and the reverse osmosis equipment, the connecting rings are upper and lower two groups of mounting rings and are welded into a whole through connecting rods, mounting plates are welded on the outer walls of the two ends of the connecting rings, clamping grooves and clamping blocks are respectively arranged on the mounting plates at the two ends of the connecting rings, the clamping grooves and the clamping blocks are matched for use and are connected in a clamping mode, threaded holes are formed in the clamping blocks and the mounting plates, and fastening bolts are connected in threaded holes in threads.

By adopting the technical scheme, when two adjacent groups of filters are installed, for example, when the basket filter and the precise filter are installed, a clamping block on the basket filter is only required to be inserted into a clamping groove of the adjacent precise filter to be clamped and connected, then a fastening bolt sequentially penetrates through the mounting plate and the clamping block from top to bottom to be in threaded connection, connection between the adjacent basket filter and the precise filter can be realized, and similarly, the connection among the basket filter, the pipeline sequentially communicated precise filter, the activated carbon filter and the reverse osmosis equipment is completed by repeating the processes.

The utility model is further provided with:

the first mounting groove and the second mounting groove have all been seted up at the both ends of collar, the inside fixed card post that is provided with of first mounting groove to fix through fastening screw, the card post adopts the multiunit to set up, the inside fixed connection spring of second mounting groove, the fixed pothook that is provided with of the other end of spring, the pothook hooks to the card post on to carry out fixed connection through fastening screw.

By adopting the technical scheme, when the filter is used, a plurality of groups of filters are sequentially connected into a whole through the connecting ring, so that the filter is convenient to install and transport when in use, and the specific installation steps are as follows: the clamping rings are sleeved on the filters in sequence, the clamping hooks are hooked on the clamping columns, the fastening screws are screwed, when the filters with different diameters are installed, the clamping columns with the clamping hooks at different positions are adjusted, the springs are elastic, so that the filters with different diameters can be installed, practicability is improved, two adjacent groups of filters are connected, for example, when the basket filters and the precise filters are installed, clamping blocks on the basket filters are inserted into clamping grooves of the adjacent precise filters to be clamped and connected, then the fastening bolts sequentially penetrate through the mounting plates and the clamping blocks from top to bottom to be screwed, connection between the adjacent basket filters and the precise filters can be achieved, and the processes are repeated to complete connection among the basket filters, the precise filters, the activated carbon filters and the reverse osmosis equipment.

The utility model is further provided with:

the pressurizing water purifying device comprises a pressurizing water purifying device body, and is characterized in that a crawling ladder is fixedly arranged on the pressurizing water purifying device body, a manhole cover is arranged on the top end face of the pressurizing water purifying device body, a drain pipe and an overflow pipe are arranged on the pressurizing water purifying device body, and the first variable frequency pump, the second variable frequency pump and the third variable frequency pump are all variable frequency pumps with the model of MHIKE-205A.

In summary, the beneficial technical effects of the utility model are as follows:

1. the pressurized water purifying equipment body is integrated equipment formed by combining and assembling the control box body and the storage equipment, and when the pressurized water purifying equipment is installed, a pump station (a filtering component and a variable frequency pump) is installed integrally, an internal system can be used quickly by simple debugging, and the pressurized water purifying equipment has the advantages of convenience in use and maintenance and capability of greatly reducing the workload of workers.

2. The utility model obtains water with different water qualities through pipeline design and control, increases the water purifying function, and achieves the purpose of supplying tap water and direct drinking water simultaneously.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present utility model;

FIG. 2 is a two-dimensional view of an embodiment of the present utility model;

FIG. 3 is a schematic diagram of the internal structure of an embodiment of the present utility model;

FIG. 4 is an enlarged view of the embodiment A of the present utility model;

fig. 5 is a schematic view of a part of the structure of an embodiment of the present utility model.

In the figure: 1. a control box body; 2. a control cabinet door; 3. a pressurized water purification apparatus body; 4. a vent pipe; 5. a water inlet; 6. an overflow pipe; 7. a ladder stand; 8. a drain pipe; 9. a support; 10. a manhole cover; 11. a storage device; 12. a control cabinet; 13. a first variable frequency pump; 14. a water inlet pipe; 15. a communicating water pipe; 16. a steady flow tank; 17. a pressure gauge; 18. a negative pressure eliminator; 19. a liquid level detector; 20. a steady flow tank water outlet; 21. a steady flow tank water pipe; 22. a second variable frequency pump; 23. a branch pipe; 24. a domestic water pipe; 25. a control valve; 26. a connecting pipe; 27. a third variable frequency pump; 28. basket filter; 29. a precision filter; 30. an activated carbon filter; 31. a reverse osmosis device; 32. a direct drinking water pipe; 33. a water valve; 34. a connecting ring; 341. a fastening screw; 342. a clamping column; 343. a mounting groove; 344. a clamping hook; 345. a spring; 346. a fastener; 347. a second mounting groove; 35. a clamping block; 36. a fastening bolt; 37. a clamping groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the integrated device with the pressurized water purifying function comprises a pressurized water purifying equipment body 3, wherein the pressurized water purifying equipment body 3 is integrated equipment formed by combining and assembling a control box body 1 and a storage equipment 11, the storage equipment 11 is formed by combining and assembling a living water tank and a direct drinking water tank by adopting stainless steel plates, a control cabinet 12 and the pressurized water purifying equipment are arranged in the control box body 1, the control cabinet 12 comprises a controller, a protection circuit, a relay and components related to the control cabinet and the control cabinet, the control cabinet is electrically connected with all components of the pressurized water purifying equipment, the pressurized water purifying equipment is formed by combining a steady flow tank 16, a first variable frequency pump 13, a second variable frequency pump 22, a third variable frequency pump 27 and a filter assembly, the filter assembly is formed by combining a basket filter 28, a precise filter 29, an active carbon filter 30 and a reverse osmosis equipment 31, the first variable frequency pump 13 is connected with a water source through a water inlet 5 of the storage equipment 11, a water outlet of the first variable frequency pump 3 is connected with a water inlet of a tank 16 through a communication water pipe 15, a top end face of the tank 16 is fixedly provided with a negative pressure eliminator 18 and a direct water pump 16 through a steady flow pump 24, and the steady flow pump is connected with a steady flow water inlet of the second variable frequency pump 22 through a direct water tank 24 through a direct water filter assembly, and a steady flow pump 24 is communicated with the second variable frequency pump 24 through the direct water tank 11; the top of the storage device 11 is provided with a water inlet 5, the water inlet 5 is communicated with a first variable frequency pump 13 through a water inlet pipe 14, a water outlet of the first variable frequency pump 13 is connected with a communicating water pipe 15, the other end of the communicating water pipe 15 is communicated with a water inlet of a steady flow tank 16, and a water source is introduced into the steady flow tank 16 through the first variable frequency pump 13; the water outlet 20 of the steady flow tank 16 is connected with a steady flow tank water pipe 21, the other end of the steady flow tank water pipe 21 is communicated with the water inlet of a second variable frequency pump 22, the water outlet of the second variable frequency pump 22 is connected with a branch pipe 23, the other end of the branch pipe 23 is connected with a life water pipe 24, the life water pipe 24 is respectively connected with a life water tank of the storage device 11 and a connecting pipe 26 through a three-way communication valve, and the water in the steady flow tank is conveyed into the connecting pipe 26 and the life water tank of the storage device 11 by starting the second variable frequency pump 22;

the control valve 25 is arranged on the connecting pipe 26 and the domestic water pipe 24, the other end of the connecting pipe 26 is connected with the water inlet of the third variable frequency pump 27, the water outlet of the third variable frequency pump 27 is connected with the basket filter 28, the basket filter 28 is sequentially communicated with the precise filter 29, the activated carbon filter 30 and the reverse osmosis equipment 31 through pipelines, water is sequentially conveyed to the basket filter 28, the precise filter 29, the activated carbon filter 30 and the reverse osmosis equipment 31 through the connecting pipes to be filtered, raw water is purified, purified water is obtained, the water outlet of the reverse osmosis equipment 31 is connected with the direct drinking water pipe 32, the water valve 33 is arranged on the direct drinking water pipe 32, the other end of the direct drinking water pipe 32 is communicated with the direct drinking water tank of the storage equipment 11, and water with different water qualities is obtained through pipeline design and control, so that the water purifying function is increased, and the aim of simultaneously supplying tap water and direct drinking water is achieved;

referring to fig. 1-5, further, the basket filter 28, the precision filter 29, the activated carbon filter 30 and the reverse osmosis device 31 are provided with connection rings 34, the connection rings 34 are formed by welding an upper group of installation rings and a lower group of installation rings through connection rods, the outer walls of two ends of the connection rings 34 are respectively welded with installation plates, clamping grooves 37 and clamping blocks 35 are respectively arranged on the installation plates at two ends, the clamping grooves 37 and the clamping blocks 35 are matched for use and are connected in a clamping manner, threaded holes are respectively arranged on the clamping blocks and the installation plates, fastening bolts 36 are screwed in the threaded holes, when two adjacent groups of filters are installed, for example, when installing the basket filter and the precision filter, only the clamping blocks on the basket filter are required to be inserted into the clamping grooves of the adjacent precision filter for clamping connection, then the fastening bolts 36 sequentially penetrate through the installation plates and the clamping blocks from top to bottom for threaded connection, and connection between the adjacent basket filter and the precision filter can be achieved, and connection among the basket filter 29, the activated carbon filter 30 and the reverse osmosis device 31 can be accomplished by repeating the processes in the same way;

the two ends of the mounting ring are provided with a first mounting groove 343 and a second mounting groove 347, the inside of the first mounting groove 343 is fixedly provided with a clamping column 342 and is fixed by fastening screws, the clamping columns 342 are arranged in a plurality of groups, the inside of the second mounting groove 347 is fixedly connected with a spring 345, the other end of the spring 345 is fixedly provided with a clamping hook 344, the clamping hook 344 is hooked on the clamping column 342 and is fixedly connected by fastening screws,

in the embodiment, when the filter is used, a plurality of groups of filters are sequentially connected into a whole through the connecting ring, so that the filter is convenient to install and transport when in use, and the specific installation steps are as follows: the clamping hooks 344 are hooked onto the clamping columns 342, the fastening screws are screwed down, when the filters with different diameters are installed, the clamping columns with different positions are only required to be adjusted, the springs are elastic, the filters with different diameters can be installed, practicability is improved, two adjacent groups of filters are connected, for example, when the basket filter and the precision filter are installed, clamping blocks on the basket filter are only required to be inserted into clamping grooves of the adjacent precision filter to be clamped and connected, then the fastening bolts 36 sequentially penetrate through the mounting plates and the clamping blocks from top to bottom to be screwed, connection between the adjacent basket filter and the precision filter can be achieved, and similarly, connection among the basket filter, the pipeline sequentially communicated with the precision filter 29, the activated carbon filter 30 and the reverse osmosis equipment 31 is completed by repeating the processes.

Referring to fig. 1-5, further, a liquid level detector 19 is disposed inside the steady flow tank 16, the liquid level detector 19 is used in cooperation with the control cabinet 12, the liquid level detector 19 is a CL-10GH type liquid level detector, and the liquid level inside the steady flow tank 16 is detected by the liquid level detector.

Referring to fig. 1-5, further, the negative pressure eliminator 18 adopts R51 series negative pressure eliminating equipment, and is used to cooperate with the steady flow tank 16 to realize non-negative pressure water supply.

Referring to fig. 1-5, further, a ladder stand 7 is fixedly disposed on the pressurized water purifying apparatus body 3, a manhole cover 10 is disposed on the top end surface of the pressurized water purifying apparatus body 3, a drain pipe 8 and an overflow pipe 6 are disposed on the pressurized water purifying apparatus body 3, and the first variable frequency pump, the second variable frequency pump and the third variable frequency pump are all variable frequency pumps with the model of MHIKE-205A.

The application flow and the working principle of the utility model are as follows:

when the filter is used, the required filter components are only required to be assembled in advance, and a plurality of groups of filters are sequentially connected into a whole through the connecting ring, so that the filter is convenient to install and transport when in use, and the specific installation steps are as follows: the clamping hooks 344 are hooked on the clamping columns 342, the fastening screws are screwed, when the filters with different diameters are installed, the clamping columns with the hooks at different positions are adjusted, the springs are elastic, so that the filters with different diameters can be installed, practicability is improved, two adjacent groups of filters are connected, for example, when the basket filter and the precise filter are installed, clamping blocks on the basket filter are inserted into clamping grooves of the adjacent precise filters to be clamped and connected, then the fastening bolts 36 sequentially penetrate through the mounting plates and the clamping blocks from top to bottom to be screwed, connection between the adjacent basket filter and the precise filter can be achieved, and similarly, connection among the basket filter, the precise filter 29, the activated carbon filter 30 and the reverse osmosis equipment 31 can be completed by repeating the processes;

then, connecting all groups of pipelines with the variable frequency pump according to actual needs, thus completing the assembly and fixation of the pressurized water purifying equipment body, firstly starting the first variable frequency pump 13, enabling the second variable frequency pump and the third variable frequency pump to be in a closed state, enabling tap water to enter the steady flow tank 16 through the water inlet, discharging air in the steady flow tank 16 through the negative pressure eliminator, and automatically closing the negative pressure eliminator at the moment after the internal tank of the steady flow tank 16 is full of water, so that the steady flow tank is in a fully-closed positive pressure state;

when a user starts to use water, the user can select according to actual needs, if domestic water is needed, the second variable frequency pump 22 is started, at this time, the first variable frequency pump and the third variable frequency pump are in a closed state, water in the steady flow tank is conveyed to the inside of the domestic water pipe 24 through the second variable frequency pump, the water is conveyed to the inside of a domestic water tank of the storage device 11 through the domestic water pipe, if direct drinking water is needed, the third variable frequency pump and a control valve positioned on the connecting pipe 26 are started, the control valve on the domestic water pipe 24 is closed, at this time, water cannot be conveyed to the inside of the domestic water tank of the storage device, the water is conveyed to the inside of the third variable frequency pump 27 through the connecting pipe 26, and is sequentially filtered by the third variable frequency pump through the basket filter 28, the precise filter 29, the activated carbon filter 30 and the reverse osmosis device 31, so that direct drinking water is obtained, and the direct drinking water is conveyed to the direct drinking water tank of the storage device through the direct drinking water pipe 32;

in the using process, when the liquid level detector 19 in the steady flow tank detects that the water level in the steady flow tank is lower than the set minimum water level, the second variable frequency pump and the third variable frequency pump are closed, the first variable frequency pump is started at the same time, and when the water level in the steady flow tank rises to the preset maximum water level, the negative pressure eliminator and the first variable frequency pump are closed at the moment.

The pressurized water purifying equipment body 3 is integrated equipment formed by combining and assembling the control box body 1 and the storage equipment 11, and when the pressurized water purifying equipment is installed, the installation site only needs to meet the requirement of basic pipeline connection, and then only needs to integrally install a pump station (a filtering component and a variable frequency pump), and the internal system can be simply debugged, so that the pressurized water purifying equipment can be quickly put into use, the construction period and the cost for building a pump room are greatly reduced, and the construction period and the investment budget of the pump room are greatly reduced; and all that is not described in detail in this specification is within the skill of the art.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an integrated device with pressurization water purification function, includes pressurization water purification unit body, the integration equipment that pressurization water purification unit body was assembled by control box and storage equipment combination, its characterized in that: the control box body is internally provided with a control cabinet and a pressurized water purifying device, the pressurized water purifying device is formed by combining a steady flow tank, a first variable frequency pump, a second variable frequency pump, a third variable frequency pump and a filtering component, the filtering component is formed by combining a basket filter, a precision filter, an active carbon filter and reverse osmosis equipment, the first variable frequency pump is connected with a water source through a water inlet of a storage device, a water outlet of the first variable frequency pump is connected with the water inlet of the steady flow tank through a communicating water pipe, a negative pressure eliminator and a pressure gauge are fixedly arranged on the end face of the top of the steady flow tank, a water outlet of the steady flow tank is connected with a water inlet of the second variable frequency pump through a pipeline, a water outlet of the second variable frequency pump is connected with a life water pipe, the life water pipe is respectively communicated with a life water tank of the storage device and the filtering component through a three-way communicating valve, and a water outlet of the filtering component is communicated with a direct drinking water tank of the storage device through a direct drinking water pipe.

2. An integrated device with pressurized water purification as set forth in claim 1, wherein: the storage equipment top has seted up the water inlet, and the water inlet is linked together with first variable frequency pump through the inlet tube, the intercommunication water pipe is connected to the delivery port of first variable frequency pump, the other end of intercommunication water pipe is linked together with the water inlet of stationary flow jar, the inside liquid level detector that is provided with of stationary flow jar.

3. An integrated device with pressurized water purification function according to claim 2, wherein: the utility model discloses a storage device, including stationary flow jar, the stationary flow jar water pipe is seted up to the delivery port, the stationary flow jar water pipe other end is linked together with the water inlet of second variable frequency pump, the branch pipe is connected to the delivery port of second variable frequency pump, the life water pipe is connected to the other end of branch pipe, life water pipe passes through three-way communication valve and connects storage device's life water tank and connecting pipe respectively.

4. An integrated device with pressurized water purification as set forth in claim 3 wherein: the control valve is arranged on the connecting pipe and the domestic water pipe, the other end of the connecting pipe is connected with the water inlet of the third variable frequency pump, the water outlet of the third variable frequency pump is connected with the basket filter, and the basket filter is sequentially communicated with the precision filter, the activated carbon filter and the reverse osmosis equipment through pipelines.

5. An integrated device with pressurized water purification as set forth in claim 1, wherein: the water outlet of the reverse osmosis device is connected with a direct drinking water pipe, a water valve is arranged on the direct drinking water pipe, and the other end of the direct drinking water pipe is communicated with a direct drinking water tank of the storage device.

6. An integrated device with pressurized water purification as set forth in claim 4, wherein: the utility model discloses a reverse osmosis filter, including basket filter, precision filter, active carbon filter and reverse osmosis equipment, the go-between adopts two sets of collar from top to bottom to weld into a whole through the connecting rod, the equal welding in both ends outer wall of go-between is provided with the mounting panel, is provided with draw-in groove and fixture block on the mounting panel of both ends respectively, and draw-in groove and fixture block cooperation are used, carry out the block and connect, all offer the screw hole on fixture block and the mounting panel, threaded hole threaded connection fastening bolt.

7. An integrated device with pressurized water purification as set forth in claim 6, wherein: the first mounting groove and the second mounting groove have all been seted up at the both ends of collar, the inside fixed card post that is provided with of first mounting groove to fix through fastening screw, the card post adopts the multiunit to set up, the inside fixed connection spring of second mounting groove, the fixed pothook that is provided with of the other end of spring, the pothook hooks to the card post on to carry out fixed connection through fastening screw.