CN115554852A

CN115554852A - Ceramic fine filtration system

Info

Publication number: CN115554852A
Application number: CN202211232891.4A
Authority: CN
Inventors: 张宇恒
Original assignee: Jiangsu Xinyu Tiancheng Environmental Protection Co ltd
Current assignee: Jiangsu Xinyu Tiancheng Environmental Protection Co ltd
Priority date: 2022-10-10
Filing date: 2022-10-10
Publication date: 2023-01-03

Abstract

The invention relates to the technical field of sewage treatment equipment, in particular to a ceramic fine filtration system; the ceramic fine filtering unit is composed of a plurality of ceramic fine filtering devices, the ceramic fine filtering devices are connected through a regulating pipeline, each ceramic fine filtering device comprises a tank body, a membrane component, a liquid level sensing module, a medicament adding module and a cleaning module, the liquid level sensing module is used for monitoring the liquid level in the tank body in real time and transmitting liquid level information to the control platform, and therefore the water inlet and outlet amount of each ceramic fine filtering device is controlled through the regulating pipeline of the control platform.

Description

Ceramic fine filtration system

Technical Field

The invention relates to the technical field of sewage treatment equipment, in particular to a ceramic fine filtration system.

Background

The existing ceramic membrane treatment device is generally characterized in that a flat ceramic membrane is arranged in a barrel, a water inlet, a water production port and a sewage discharge port are independently arranged on the barrel, sewage enters from the water inlet and is filtered by the ceramic membrane, purified water flows out from the water production port, and filtered dirt and impurities are discharged from the sewage discharge port.

However, when the conventional ceramic membrane treatment device is maintained, each ceramic membrane treatment device needs to be cleaned independently, which consumes long maintenance time, contains a large amount of maintenance liquid and has high maintenance cost.

Disclosure of Invention

The invention aims to provide a ceramic fine filtration system, which solves the problems that each ceramic membrane treatment device in the prior art needs to be cleaned independently when being maintained, the maintenance time is long, the maintenance liquid is more, and the maintenance cost is high.

In order to achieve the above purpose, the present invention provides a ceramic fine filtration system, which comprises a control platform, an adjusting pipeline and a ceramic fine filtration unit, wherein the ceramic fine filtration unit is composed of a plurality of ceramic fine filtration devices, the ceramic fine filtration devices are connected through the adjusting pipeline, the adjusting pipeline is electrically connected with the control platform, each ceramic fine filtration device comprises a tank body, a membrane assembly, a liquid level sensing module, a medicament adding module and a cleaning module, the plurality of membrane assemblies are arranged inside the tank body, the liquid level sensing module is further arranged inside the tank body, the liquid level sensing module is used for detecting the liquid level inside the tank body in real time, the medicament adding module and the cleaning module are further arranged on the tank body, the medicament adding module is used for adding a cleaning medicament into the liquid level inside the tank body, the cleaning unit is used for performing back flushing on the inside the tank body, and each sensing module, each medicament adding module and each cleaning module are electrically connected with the control platform.

Wherein, control platform includes the control cabinet body, mounting substrate, electronic component, display screen, water-cooling mechanism and temperature sensor, the inside of the control cabinet body is provided with mounting substrate, the last electronic component that is provided with of mounting substrate, still be provided with on the control cabinet body the display screen, the display screen with electronic component electric connection, every liquid level sensing module, every the medicament adds module, every the cleaning module all with electronic component electric connection, still be provided with on the mounting substrate temperature sensor, temperature sensor is used for real-time supervision mounting substrate's temperature, still be provided with on the control cabinet body water-cooling mechanism, water-cooling mechanism is used for right the department that generates heat of mounting substrate dispels the heat.

The water-cooling heat dissipation mechanism comprises a plurality of heat conduction columns, a heat absorption plate, heat dissipation fins, a water tank, a water pump, a plurality of semiconductor refrigeration sheets and a heat exchange pipeline, wherein the heat absorption plate is detachably connected with the control cabinet body and is positioned on the outer side of the control cabinet body, one side of the heat absorption plate is provided with the heat dissipation fins, the other side of the heat absorption plate is provided with a plurality of heat conduction columns, each heat conduction column penetrates through the outer portion of the control cabinet body, one end, far away from the heat absorption plate, of each heat conduction column is bonded with the heating position of the mounting substrate, the outer portion of the control cabinet body is further provided with the water tank and the water pump, the input end of the water pump is connected with a water outlet pipeline of the water tank, the output end of the water pump is provided with the heat exchange pipeline, the heat exchange pipeline is embedded between gaps of the heat dissipation fins, the water tank is further provided with the plurality of semiconductor refrigeration sheets, and the cold ends of the semiconductor refrigeration sheets are positioned inside the water tank.

Wherein, the heat transfer pipeline includes first connecting pipe, serpentine coil and second connecting pipe, serpentine coil's one end is provided with first connecting pipe, serpentine coil's the other end is provided with the second connecting pipe, first connecting pipe is kept away from serpentine coil's one end with the output of water pump is corresponding, the second connecting pipe is kept away from serpentine coil's one end with the water inlet of water tank is corresponding.

The heat absorption plate comprises a plate body, two connecting plates and two mounting plates, the connecting plates are arranged at two ends of the plate body, the mounting plates are arranged at one ends, far away from the plate body, of the connecting plates, and the mounting plates are detachably connected with the control cabinet body.

Each heat conduction column comprises a column body and silicone grease, the column body is arranged in a hollow structure, and the silicone grease is coated on the inner wall of the column body.

The outside of water tank still is provided with a plurality of thermal-insulated frames, every the outside at the hot junction of semiconductor refrigeration piece all covers to be equipped with thermal-insulated frame, every thermal-insulated frame is kept away from the one end of water tank all is provided with the air exhauster.

Each heat insulation frame is far away from one end of the water tank is also provided with a protection frame, and the protection frame covers the outer portion of the corresponding exhaust fan.

The invention relates to a ceramic fine filtration system which comprises a control platform, an adjusting pipeline and a ceramic fine filtration unit, wherein the ceramic fine filtration unit consists of a plurality of ceramic fine filtration devices, the ceramic fine filtration devices are connected through the adjusting pipeline, the adjusting pipeline is electrically connected with the control platform, each ceramic fine filtration device comprises a tank body, a membrane component, a liquid level sensing module, a medicament adding module and a cleaning module, the liquid level sensing module is used for monitoring the liquid level in the tank body in real time and uploading liquid level information to the control platform, so that the water inlet and outlet amount of each ceramic fine filtration device is controlled through the adjusting pipeline by the control platform, and because the medicament adding module and the cleaning module are arranged on each ceramic fine filtration device, a cleaning medicament is added into the tank body by the medicament adding module, and the interior of the tank body is backwashed by the cleaning unit, the automatic cleaning of the ceramic fine filtration devices is realized, and the cost is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a ceramic fine filtration system provided by the invention.

Fig. 2 is a schematic view of the internal structure of the control cabinet provided by the invention.

FIG. 3 is a schematic view of the structure of the back of the control cabinet provided by the present invention without an insulation frame.

Fig. 4 is a partial structure enlarged view of fig. 3 a according to the present invention.

Fig. 5 is a partial structure enlarged view at B of fig. 3 according to the present invention.

Fig. 6 is a schematic partial structural view of a water-cooling heat dissipation mechanism provided by the present invention.

Fig. 7 is a schematic structural view of a heat conduction column provided by the present invention.

101-a control platform, 102-an adjusting pipeline, 103-a ceramic fine filtering device, 104-a tank body, 105-a membrane assembly, 106-a liquid level sensing module, 107-a medicament adding module, 108-a cleaning module, 109-a control cabinet body, 110-a mounting substrate, 111-an electronic component, 112-a display screen, 113-a temperature sensor, 114-a heat conducting column, 115-a heat absorbing plate, 116-a heat radiating fin, 117-a water tank, 118-a water pump, 119-a semiconductor refrigerating sheet, 120-a heat exchange pipeline, 121-a first connecting pipe, 122-a serpentine coil, 123-a second connecting pipe, 124-a plate body, 125-a connecting plate, 126-a mounting plate, 127-a cylinder, 128-silicone grease, 129-a heat insulation frame, 130-an exhaust fan, 131-a protection frame, 132-a mounting frame, 133-a stirring assembly, 134-a driving motor, 135-a driving shaft and 136-a stirring fan blade.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and intended to explain the present invention and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 7, the present invention provides a ceramic fine filtration system, which includes a control platform 101, an adjusting pipeline 102 and a ceramic fine filtration unit, wherein the ceramic fine filtration unit is composed of a plurality of ceramic fine filtration devices 103, the ceramic fine filtration devices 103 are connected through the adjusting pipeline 102, the adjusting pipeline 102 is electrically connected to the control platform 101, each ceramic fine filtration device 103 includes a tank 104, a membrane assembly 105, a liquid level sensing module 106, a chemical adding module 107 and a cleaning module 108, the tank 104 is internally provided with the membrane assemblies 105, the tank 104 is internally provided with the liquid level sensing module 106, the liquid level sensing module 106 is used for detecting a liquid level in the tank 104 in real time, the tank 104 is further provided with the chemical adding module 107 and the cleaning module 108, the chemical adding module 107 is used for adding a cleaning chemical into the tank 104, the cleaning unit is used for performing cleaning on the tank 104, and each liquid level sensing module 106, each chemical adding module 107 and each cleaning module 108 are electrically connected to the control platform 101.

In this embodiment, the liquid level sensing module 106 is used to monitor the liquid level in the tank 104 in real time, and the liquid level information is uploaded to the control platform 101, so that the water inlet and outlet amount of each ceramic fine filtering device 103 is controlled by the control platform 101 through the adjusting pipeline 102, and since the chemical adding module 107 and the cleaning module 108 are arranged on each ceramic fine filtering device 103, the chemical adding module 107 is used to add a cleaning chemical into the tank 104, and the cleaning unit is used to back-flush the inside of the tank 104, so that the ceramic fine filtering devices 103 are automatically cleaned, thereby reducing the maintenance cost.

Further, control platform 101 includes the control cabinet body 109, mounting substrate 110, electronic component 111, display screen 112, water-cooling heat dissipation mechanism and temperature sensor 113, the inside of the control cabinet body 109 is provided with mounting substrate 110, be provided with on mounting substrate 110 electronic component 111, still be provided with on the control cabinet body 109 display screen 112, display screen 112 with electronic component 111 electric connection, every liquid level sensing module 106, every the medicament adds module 107, every cleaning module 108 all with electronic component 111 electric connection, still be provided with on mounting substrate 110 temperature sensor 113, temperature sensor 113 is used for real-time supervision mounting substrate 110's temperature, still be provided with on the control cabinet body 109 water-cooling heat dissipation mechanism, water-cooling heat dissipation mechanism is used for right the department that generates heat of mounting substrate 110 dispels the heat.

In this embodiment, because every liquid level sensing module 106, every module 107, every are added to the medicament wash module 108 all with electronic component 111 electric connection, electronic component 111 can produce great heat at the during operation, utilizes temperature sensor 113 real-time supervision mounting substrate 110's temperature, works as temperature sensor 113 monitors mounting substrate 110's temperature is too high, starts water-cooling heat dissipation mechanism, and is right mounting substrate 110's the department that generates heat dispels the heat, thereby avoids when electronic component 111 works, overheated damage.

Further, the water-cooling heat dissipation mechanism includes a plurality of heat conduction columns 114, a heat absorption plate 115, heat dissipation fins 116, a water tank 117, a water pump 118, a plurality of semiconductor cooling fins 119 and a heat exchange pipeline 120, the heat absorption plate 115 is detachably connected to the control cabinet 109 and is located outside the control cabinet 109, the heat dissipation fins 116 are arranged on one side of the heat absorption plate 115, the plurality of heat conduction columns 114 are arranged on the other side of the heat absorption plate 115, each heat conduction column 114 penetrates through the outside of the control cabinet 109, one end of the heat conduction column 114, which is far away from the heat absorption plate 115, is bonded to the heating position of the mounting substrate 110, the water tank 117 and the water pump 118 are further arranged outside the control cabinet 109, the input end of the water pump 118 is connected to a water outlet pipeline of the water tank 117, the heat exchange pipeline 120 is arranged at the output end of the water pump 118, the heat exchange pipeline 120 is embedded between gaps of the heat dissipation fins 116, the water tank 117 is further provided with the plurality of semiconductor cooling fins 119, and the cold end of each semiconductor cooling fin 119 is located inside the water tank 117.

In this embodiment, a plurality of heat conduction columns 114 are used to transfer heat generated by the electronic component 111 on the mounting substrate 110 during operation to the heat dissipation fins 116 of the heat absorption plate 115, the semiconductor cooling fins 119 are started, the water pump 118 is started after cooling water in the water tank 117, cold water in the water tank 117 is transferred to the heat exchange pipe 120, and the heat exchange pipe 120 is embedded between gaps of the heat dissipation fins 116, so that the cold water in the heat exchange pipe 120 and the heat dissipation fins 116 exchange heat sufficiently, and the heat dissipation fins 116 maintain good heat dissipation performance.

Further, the heat exchange pipeline 120 includes a first connection pipe 121, a serpentine coil 122 and a second connection pipe 123, the first connection pipe 121 is disposed at one end of the serpentine coil 122, the second connection pipe 123 is disposed at the other end of the serpentine coil 122, one end of the first connection pipe 121, which is far away from the serpentine coil 122, corresponds to the output end of the water pump 118, and one end of the second connection pipe 123, which is far away from the serpentine coil 122, corresponds to the water inlet of the water tank 117.

In this embodiment, the cold water in the water tank 117 is delivered to the inside of the serpentine coil 122 through the first connection pipe 121, and after sufficient heat exchange is performed between the serpentine coil 122 and the heat dissipation fins 116, the heat-exchanged water is delivered to the inside of the water tank 117 through the second connection pipe 123, thereby completing the circulation refrigeration.

Further, the heat absorbing plate 115 includes a plate body 124, two connecting plates 125 and two mounting plates 126, the connecting plates 125 are disposed at two ends of the plate body 124, the mounting plate 126 is disposed at one end of each connecting plate 125 far away from the plate body 124, and the mounting plate 126 is detachably connected to the control cabinet 109.

In this embodiment, the mounting plate 126 is fixed to the control cabinet 109 by screws, thereby completing the mounting of the heat absorbing plate 115.

Further, each of the heat conducting columns 114 includes a column 127 and silicone grease 128, the column 127 is disposed in a hollow structure, and the silicone grease 128 is coated on an inner wall of the column 127.

In this embodiment, the heat on the mounting substrate 110 is transferred to the heat absorbing plate 115 through the pillars 127 and the silicone grease 128.

Further, a plurality of heat insulation frames 129 are arranged outside the water tank 117, the heat insulation frame 129 is covered outside the hot end of each semiconductor refrigeration sheet 119, and an exhaust fan 130 is arranged at one end, far away from the water tank 117, of each heat insulation frame 129.

In this embodiment, the heat insulation frame 129 is disposed outside the hot end of the semiconductor refrigeration sheet 119, and the exhaust fan 130 is used to take away heat in the heat insulation frame 129, so as to reduce the temperature of the hot end of the semiconductor refrigeration sheet 119, and further reduce the temperature of the cold end of the semiconductor refrigeration sheet 119 correspondingly, so that the water in the water tank 117 can reach a lower temperature.

Further, one end of each heat insulation frame 129, which is far away from the water tank 117, is also provided with a protection frame 131, and the protection frame 131 covers the outside of the corresponding exhaust fan 130.

In the present embodiment, the exhaust fan 130 is shielded by the protection frame 131, so that a user is prevented from being injured by touching the exhaust fan 130 by mistake.

Further, the top of water tank 117 still is provided with mounting bracket 132, be provided with stirring subassembly 133 on mounting bracket 132, stirring subassembly 133's output is located the inside of water tank 117, stirring subassembly 133's output is used for right the water in the water tank 117 stirs.

In the present embodiment, the water in the water tank 117 is stirred by the stirring assembly 133, so that the cold water in the water tank 117 is mixed more sufficiently, and the temperature of the cold water delivered to the heat exchange pipeline 120 by the water pump 118 is more uniform.

Further, stirring subassembly 133 includes driving motor 134, drive shaft 135 and stirring fan blade 136, driving motor 134 with mounting bracket 132 is dismantled and is connected, driving motor 134's output is provided with drive shaft 135, drive shaft 135 runs through the top of water tank 117, drive shaft 135 keeps away from driving motor 134's one end is provided with stirring fan blade 136, stirring fan blade 136 is located the inside of water tank 117.

In this embodiment, the driving motor 134 is started, the driving shaft 135 drives the stirring blades 136 to rotate, and the stirring blades 136 are located inside the water tank 117, so that the water in the water tank 117 is stirred by the stirring blades 136.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A ceramic fine filtration system is characterized in that,

the ceramic fine filtering unit is composed of a plurality of ceramic fine filtering devices, the ceramic fine filtering devices are connected through the adjusting pipeline, the adjusting pipeline is electrically connected with the control platform, each ceramic fine filtering device comprises a tank body, a membrane assembly, a liquid level sensing module, a medicament adding module and a cleaning module, the membrane assemblies are arranged in the tank body, the liquid level sensing module is arranged in the tank body and used for detecting the liquid level in the tank body in real time, the medicament adding module and the cleaning module are further arranged on the tank body, the medicament adding module is used for adding cleaning medicaments into the tank body, the cleaning unit is used for backwashing the interior of the tank body, and each liquid level sensing module, each medicament adding module and each cleaning module are electrically connected with the control platform.

2. The ceramic fine filtration system of claim 1,

control platform includes the control cabinet body, mounting substrate, electronic component, display screen, water-cooling mechanism and temperature sensor, the inside of the control cabinet body is provided with mounting substrate, the last electronic component that is provided with of mounting substrate, still be provided with on the control cabinet body the display screen, the display screen with electronic component electric connection, every liquid level sensing module, every the medicament adds module, every the cleaning module all with electronic component electric connection, still be provided with on the mounting substrate temperature sensor, temperature sensor is used for real-time supervision mounting substrate's temperature, still be provided with on the control cabinet body water-cooling mechanism, water-cooling mechanism is used for right the department that generates heat of mounting substrate dispels the heat.

3. The ceramic fine filtration system of claim 2,

the liquid cooling mechanism includes many heat conduction posts, absorber plate, heat radiation fins, water tank, water pump, a plurality of semiconductor refrigeration pieces and heat transfer pipeline, the absorber plate with the control cabinet body is dismantled to be connected, and is located the outside of the control cabinet body, one side of absorber plate is provided with heat radiation fins, the opposite side of absorber plate is provided with many the heat conduction post, every the heat conduction post all runs through the outside of the control cabinet body, the heat conduction post is kept away from the one end of absorber plate with the department of generating heat of mounting substrate bonds mutually, the outside of the control cabinet body still is provided with the water tank with the water pump, the input of water pump with the delivery port pipe of water tank connects, the output of water pump is provided with the heat transfer pipeline, the heat transfer pipeline inlays to be established between heat radiation fins's the clearance, still be provided with on the water tank a plurality of semiconductor refrigeration pieces, every the cold junction of semiconductor refrigeration pieces all is located the inside of water tank.

4. The ceramic fine filtration system of claim 3,

the heat exchange pipeline comprises a first connecting pipe, a serpentine coil and a second connecting pipe, one end of the serpentine coil is provided with the first connecting pipe, the other end of the serpentine coil is provided with the second connecting pipe, the first connecting pipe is kept away from one end of the serpentine coil is corresponding to the output end of the water pump, and the second connecting pipe is kept away from one end of the serpentine coil is corresponding to the water inlet of the water tank.

5. The ceramic fine filtration system of claim 3,

6. The ceramic fine filtration system of claim 3,

each heat conduction post all includes cylinder and silicone grease, the cylinder is hollow structure setting, scribble on the inner wall of cylinder and be equipped with the silicone grease.

7. The ceramic fine filtration system of claim 3,

the outside of water tank still is provided with a plurality of thermal-insulated frames, every the outside of the hot junction of semiconductor refrigeration piece all covers and is equipped with thermal-insulated frame, every thermal-insulated frame keeps away from the one end of water tank all is provided with the air exhauster.

8. The ceramic fine filtration system of claim 7,

every the heat insulating frame is kept away from the one end of water tank all still is provided with the bearer bar, the bearer bar cover is established correspondingly the outside of air exhauster.