CN212504363U - Industrial pure water intelligent equipment - Google Patents
Industrial pure water intelligent equipment Download PDFInfo
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- CN212504363U CN212504363U CN202021431349.8U CN202021431349U CN212504363U CN 212504363 U CN212504363 U CN 212504363U CN 202021431349 U CN202021431349 U CN 202021431349U CN 212504363 U CN212504363 U CN 212504363U
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Images
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- Separation Using Semi-Permeable Membranes (AREA)
- Treatment Of Water By Ion Exchange (AREA)
Abstract
The invention discloses industrial pure water intelligent equipment which comprises a rack, a first pressure pump, a first filtering device, a softening device, a second filtering device and a reverse osmosis device, wherein the first pressure pump is used for pumping raw water, a water inlet of the first filtering device is communicated with the first pressure pump through a pipeline, a water inlet of the softening device is communicated with a water outlet of the first filtering device through a pipeline, the softening device is used for replacing calcium and magnesium contained in the raw water, a water inlet of the second filtering device is communicated with a water outlet of the softening device through a pipeline, a water inlet of the reverse osmosis device is communicated with a water outlet of the second filtering device through a pipeline, and the reverse osmosis device is used for purifying the raw water by taking pressure difference as a driving force. This industry pure water smart machine carries out purification treatment to the raw water through a lot of, realizes filtering layer upon layer, ensures the high quality pure water of output, and raw water makes mould water route scale deposit, jam when preventing to the inside wall thickness part water cooling of mould.
Description
Technical Field
The invention relates to the technical field of industrial water, in particular to an industrial pure water intelligent device.
Background
Die casting is a metal casting process and is characterized in that high pressure is applied to molten metal by utilizing an inner cavity of a die, and the process is somewhat similar to injection molding. The molds are typically machined from higher strength alloys, the casting equipment and molds are expensive, and the die casting process is typically used to mass produce a large number of products.
At present, in the process of producing products by a die casting machine, in order to improve the product percent of pass and accelerate the production efficiency, the inner wall thickness part of a die is subjected to water cooling so as to achieve the balance of the temperature of the thick part and the temperature of the thin part of the die in the same time, the raw water of the traditional die casting workshop contains a large amount of organic matters, heavy metals, bacteria, viruses, fine particles, water-insoluble cations, other macromolecular residues and the like, the raw water of the die casting workshop is introduced into a die water channel and flows back into a workshop water storage tank without any filter system for recycling, the quality of the raw water is seriously influenced, the water channel of the die casting equipment die is easy to scale and block, the cooling of the die is unbalanced, the product percent of pass is not favorable, the bacteria, the heavy metals and the water-insoluble cations contained in the workshop raw water channel are subjected, the service life of the die is not prolonged favorably, the maintenance and replacement cost of the die is increased, the blockage in the water channel of the die cannot be detected, the water in the water channel of the die is not uniform, the heat balance effect of the die is influenced, the product percent of pass is reduced, and the quality of die-casting products is seriously influenced.
Disclosure of Invention
The invention aims to provide industrial pure water intelligent equipment to solve the problems that in the prior art, a water channel of a die is scaled and blocked by raw water, so that the cooling of the die is unbalanced, and the quality of a die-casting product is seriously influenced.
In order to achieve the above object, a technical solution of the present invention provides an industrial pure water intelligent device, including:
a frame;
the first pressure pump is arranged on the rack and used for pumping raw water;
the water inlet of the first filtering device is communicated with the first pressure pump through a pipeline, and the first filtering device is used for filtering raw water;
the water inlet of the softening device is communicated with the water outlet of the first filtering device through a pipeline, and the softening device is used for replacing calcium ions and magnesium ions contained in raw water;
the water inlet of the second filtering device is communicated with the water outlet of the softening device through a pipeline, and the second filtering device is used for filtering raw water; and
the reverse osmosis device, reverse osmosis device's water inlet with second filter equipment's delivery port passes through the pipeline intercommunication, just, reverse osmosis device is used for pressure differential to carry out separation, purification treatment to the raw water as the driving force.
As a further improvement, the first filtering device comprises, from top to bottom:
the water tank comprises a first tank body, wherein a first water inlet is formed in the top of the first tank body, and a first water outlet is formed in the bottom of the first tank body;
the filter screen is arranged in the first tank body;
the activated carbon filter layer is arranged in the first tank body and is positioned below the filter screen; and
the packing layer, the packing layer set up in this internal, just, the packing layer is located the below of active carbon filter layer.
As a further improvement, the packing layer is selected from one or more of a quartz sand packing layer, a coke powder packing layer, an activated carbon packing layer, a ceramic packing layer and a stainless steel packing layer.
As a further improvement, the softening device comprises:
the softening tank is internally provided with a cation exchange resin layer which is used for absorbing calcium ions and magnesium ions; and
the salt case, salt solution has been held in the salt case, just, the salt case with soften the jar intercommunication.
As a further improvement, the second filtering device comprises:
the second tank body is provided with a second water inlet and a second water outlet;
the at least one filter element is longitudinally arranged in the second tank body, the lower end of the at least one filter element is communicated with the second water outlet, and the at least one filter element is of a hollow shaft structure which is wrapped by a honeycomb mesh-shaped outer circumferential side wall; and
a fitting for removably mounting the at least one filter element within the second canister body.
As a further improvement, the at least one filter element is selected from one or more of a stainless steel filter element, a copper filter element, a titanium filter element, an activated carbon filter element and a polymer filter element.
As a further improvement, the fitting comprises:
the assembly rod is longitudinally arranged in the second tank body, the lower end of the assembly rod is fixed on the inner wall of the bottom of the second tank body, and an external thread is arranged on the outer circumferential surface of the upper end of the assembly rod;
the pressing plate is provided with an assembly hole matched with the at least one filter element, the upper end of the at least one filter element is sleeved with the assembly hole, and the pressing plate is arranged on the at least one filter element in a lapping mode;
the elastic piece is sleeved at the upper end of the at least one filter element, a shaft shoulder is arranged at the upper end of the at least one filter element, the lower end of the elastic piece is positioned through the shaft shoulder, and the upper end of the elastic piece is positioned through the pressing plate; and
a fastener having internal threads provided thereon, the fastener applying a compressive force to the hold-down plate by tightening on the mounting bar.
As a further improvement, the reverse osmosis apparatus comprises:
the water inlet of the at least one reverse osmosis tank body is communicated with the water outlet of the second filtering device through a pipeline; and
and the second pressure pump is communicated with the water outlet of the at least one reverse osmosis tank body through a pipeline.
As a further improvement, the industrial pure water intelligent device further comprises:
the electric control box is arranged on the rack;
the PLC is arranged in the electric cabinet;
the pressure sensor is used for detecting the pressure before the raw water is filtered, the pressure after the raw water is filtered, the pressure before the reverse osmosis device is used for treating and the pressure after the reverse osmosis device is used for treating, and sending a pressure signal to the PLC; and
the touch screen is arranged on the rack, and the PLC processes the pressure signal and displays the pressure signal in the touch screen.
As a further improvement, the industrial pure water intelligent device further comprises:
the plurality of electromagnetic valves are correspondingly arranged on the pipeline one by one, and the PLC controls the electromagnetic valves to work so as to control the on-off state of the water flow in the pipeline;
the flow sensor is used for detecting the flow of raw water and sending a flow signal to the PLC; and
and the conductivity instrument is used for detecting the conductivity of the raw water and sending a conductivity signal to the PLC.
In summary, the technical scheme of the industrial pure water intelligent equipment of the invention at least has the following beneficial effects: this industry pure water smart machine adsorbs the heterochrosis in the former aquatic through the built-in active carbon filter layer of first filter equipment, peculiar smell, non ferrous metal etc, positive ions such as calcium and magnesium in the former aquatic of cation exchange resin layer absorption through softening installation, impurity such as remaining resin and macromolecule organic matter is filtered to rethread second filter equipment, use the pressure differential to separate the raw water as the drive force through reverse osmosis unit at last, purification treatment, detach the bacterium, pollutants such as other organic matters, the high-quality raw water of output. This industry pure water smart machine carries out purification treatment to the raw water through a lot of, realizes filtering layer upon layer, ensures the high quality pure water of output, and raw water makes mould water route scale deposit, jam when preventing to the inside wall thickness part of mould water cooling, has ensured effectively that the mould water route leads to water evenly, the cooling heat is balanced, and avoids influencing die-casting product quality to promote the qualification rate of die-casting product.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
FIG. 1 is a schematic diagram of a first view of an industrial pure water intelligent device according to the present invention;
FIG. 2 is a schematic diagram of a second view of an industrial pure water intelligent device according to the present invention;
FIG. 3 is a schematic diagram of a top view of an industrial pure water intelligent device provided by the present invention;
FIG. 4 is a schematic diagram of a side view of a first perspective of an industrial pure water intelligent device according to the present invention;
FIG. 5 is a schematic diagram of a second perspective side view of an industrial pure water intelligent device according to the present invention;
FIG. 6 is a schematic view of the present invention providing a first filter device;
FIG. 7 is a schematic view of a second filter device according to the present invention;
FIG. 8 is a flow chart of the structure of an industrial pure water intelligent device provided by the invention.
Description of reference numerals: 10-industrial pure water intelligent equipment, 110-frame, 111-protective sheet metal, 120-first pressure pump, 130-first filtering device, 131-first tank body, 132-filtering net, 133-active carbon filtering layer, 134-filling layer, 135-first water inlet, 136-first water outlet, 140-softening device, 141-softening tank, 142-salt tank, 150-second filtering device, 151-second tank body, 152-filtering core, 153-assembling rod, 154-shaft shoulder, 155-elastic component, 156-pressing plate, 157-fastening piece, 158-second water inlet, 159-second water outlet, 160-reverse osmosis device, 161-reverse osmosis tank body, 162-second pressure pump and 170-electric control box, 180-touch screen, 190-pressure gauge, 200-pipeline, 210-wheel and 220-solenoid valve.
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.
In the present invention, for a clearer description, the following explanation is made: the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, are defined as orientations or positional relationships relative to one another as shown in the drawings, which are meant only to facilitate the description of the invention and to simplify the description, and are not meant to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be construed as limiting the present invention.
It is also noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," "disposed," and the like are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
Furthermore, the terms "first," "second," and the like are used for purposes of clarity and simplicity of description only and are not to be construed as indicating or implying a relative importance or quantity.
Referring to fig. 1 to 8, the present embodiment provides an intelligent industrial pure water device 10, where the intelligent industrial pure water device 10 includes a rack 110, a first pressure pump 120, a first filtering device 130, a softening device 140, a second filtering device 150, and a reverse osmosis device 160, the first pressure pump 120 is disposed on the rack 110, and the first pressure pump 120 is used for pumping raw water; a water inlet of the first filtering device 130 is communicated with the first pressure pump 120 through a pipeline, and the first filtering device 130 is used for filtering raw water for the first time; a water inlet of the softening device 140 is communicated with a water outlet of the first filtering device 130 through a pipeline, and the softening device 140 is used for replacing calcium ions and magnesium ions contained in raw water; a water inlet of the second filtering device 150 is communicated with a water outlet of the softening device 140 through a pipeline, and the second filtering device 150 is used for performing secondary filtration on raw water; the water inlet of the reverse osmosis device 160 is communicated with the water outlet of the second filtering device 150 through a pipeline, and the reverse osmosis device 160 separates and purifies raw water by taking pressure difference as driving force. The first pressure pump 120 pumps raw water from a tap water pipeline, after the raw water is pressurized to 0.4MPa, the raw water flows into the first filtering device 130 for filtering, enters the softening device 140 for softening treatment after filtering, then flows into the second filtering device 150 for precise filtering, and finally, the raw water is pressurized to 0.8 to 1MPa by the second pressure pump 162 of the reverse osmosis device 160, enters the reverse osmosis device 160 for separation and purification treatment, and pure water is produced.
It should be noted that when the dilute solution and the concentrated solution with the same volume are respectively placed on two sides of a container, the middle is blocked by a semipermeable membrane, the solvent in the dilute solution naturally passes through the semipermeable membrane and flows to the concentrated solution side, the liquid level on the concentrated solution side is higher than the liquid level of the dilute solution by a certain height to form a pressure difference, and the osmotic equilibrium state is achieved, and the pressure difference is osmotic pressure. The magnitude of the osmotic pressure is determined by the type, concentration and temperature of the concentrate, regardless of the nature of the semipermeable membrane. If a pressure greater than the osmotic pressure is applied to the concentrated solution side, the solvent in the concentrated solution will flow to the dilute solution, and the direction of the solvent flow is opposite to the original direction of osmosis, and the process is called reverse osmosis; the semipermeable membrane is a membrane selective for a substance to be permeated, and generally, a membrane permeable only to a solvent but not to a solute is considered to be an ideal semipermeable membrane. The reverse osmosis device 160 of this embodiment adopts the reverse osmosis principle to separate, purify the processing to the raw water, exerts a pressure that is greater than osmotic pressure through second force pump 162 for the hydrosolvent in the great raw water mixed liquid of concentration flows to the less pure raw water of concentration, thereby realizes separating, purifying the processing to the raw water with pressure differential as the drive force.
Wherein, this industry pure water smart machine 10 adsorbs the heterochrosis in the former aquatic, peculiar smell, non ferrous metal etc. through the built-in active carbon filter layer 133 of first filter equipment 130, positive ions such as calcium and magnesium in the former aquatic are absorbed through the cation exchange resin layer of softening installation 140, impurity such as remaining resin and macromolecule organic matter is filtered to rethread second filter equipment 150, use pressure differential to separate the raw water as the drive force through reverse osmosis unit 160 at last, purification treatment, detach the bacterium, pollutants such as other organic matters, the high-quality raw water of output. This industry pure water smart machine 10 is through carrying out purification treatment to the raw water many times, realizes filtering layer upon layer, ensures the high quality pure water of output, and raw water makes mould water route scale deposit, jam when preventing to the inside wall thickness part of mould water cooling, has ensured effectively that the mould water route leads to water evenly, the cooling heat is balanced, and avoids influencing die-casting product quality to promote the qualification rate of die-casting product.
Referring to fig. 6, in one embodiment, the first filtering device 130 includes, from top to bottom, a first tank body 131, a filter net 132, an activated carbon filtering layer 133, and a filler layer 134, a first water inlet 135 is disposed at the top of the first tank body 131, and a first water outlet 136 is disposed at the bottom of the first tank body 131; the filter screen 132 is disposed in the first tank body 131; the activated carbon filter layer 133 is arranged in the first tank body 131, and the activated carbon filter layer 133 is positioned below the filter screen 132; the filler layer 134 is disposed in the first tank body 131, and the filler layer 134 is located below the activated carbon filter layer 133. Raw water flows into the first tank body 131 from the upper part of the first filtering device 130, large-particle pollutants in the raw water are firstly filtered by the filter screen 132, then different colors, peculiar smell, nonferrous metals and the like in the raw water are adsorbed by the activated carbon filter layer 133, and then the last filtering process is carried out by the filler layer 134, so that the layer-by-layer filtering is realized, and the raw water is gradually purified.
Specifically, the packing layer 134 is one or more selected from a quartz sand packing layer, a coke powder packing layer, an activated carbon packing layer, a ceramic packing layer and a stainless steel packing layer.
In one embodiment, the softening device 140 includes a softening tank 141 and a salt tank 142, wherein a cation exchange resin layer is disposed in the softening tank 141, and the cation exchange resin layer is used for absorbing calcium ions and magnesium ions; the salt tank 142 contains salt solution therein, and the salt tank 142 is communicated with the softening tank 141 through a pipeline so that the softening tank 141 absorbs the salt solution in the salt tank 142 to wash the cation exchange resin layer.
It should be noted that, since the hardness of water is mainly formed and expressed by calcium and magnesium, and calcium and magnesium are also main components forming scale, a softening device 140 of cation exchange resin type is generally used, and the softening device 140 softens raw water by replacing calcium ions and magnesium ions in raw water, wherein the cation exchange resin layer absorbs calcium ions and magnesium ions, the efficiency of the resin in removing calcium ions and magnesium ions is gradually reduced as the content of calcium ions and magnesium ions in the resin increases, and after the resin absorbs a certain amount of calcium ions and magnesium ions, regeneration is required, wherein the regeneration process is to wash the cation exchange resin layer with saline water in a salt box 142, the sodium component in the saline water replaces the hardness ions on the resin, and the resin recovers the softening exchange function as the regeneration waste liquid is discharged out of a softening tank 141, and the components of the saline water contain sodium, the principle of the sodium ion exchange softening treatment is to pass raw water through a sodium type cation exchange resin, so that calcium ions and magnesium ions which are hardness components in the water are subjected to replacement reaction with sodium in the resin, thereby adsorbing the calcium ions and the magnesium ions in the water, and softening the raw water.
Referring to fig. 7, in one embodiment, the second filtering device 150 includes a second tank body 151, at least one filter 152, and a fitting, wherein the second tank body 151 is provided with a second water inlet 158 and a second water outlet 159; at least one filter 152 is longitudinally arranged in the second tank body 151, and the lower end of the shaft core of the at least one filter 152 is communicated with a second water outlet 159; the fitting is used to detachably mount at least one filter cartridge 152 within the second canister body 151. The second filtering device 150 adopts outside-in filtering, the filtering core 152 is a hollow shaft structure surrounded by the outer circumferential side wall of the honeycomb mesh, raw water flows into the second tank body 151 through the second water inlet 158, water flows into the filtering core 152 from the pores on the outer circumferential surface of the filtering core 152, and then flows downwards to the second water outlet 159 along the shaft core of the filtering core, thereby realizing the filtering effect.
Specifically, the at least one filter element 152 is selected from one or more of a stainless steel filter element, a copper filter element, a titanium filter element, an activated carbon filter element and a polymer filter element, the number of the filter elements 152 can be multiple, and the filter elements are uniformly distributed in the second tank body 151 in an annular array, so as to improve the filtering efficiency.
Further, in order to facilitate replacement of the filter 152, the filter 152 is detachably mounted in the second tank body 151 through an assembly, when the filter 152 needs to be replaced, the upper cover of the second tank body 151 is opened, and the filter 152 can be removed from the second tank body 151 for replacement by operating the assembly, the assembly comprises an assembly rod 153, a pressing plate 156, an elastic member 155 and a fastening member 157, the assembly rod 153 is longitudinally arranged in the second tank body 151, the lower end of the assembly rod 153 is fixed on the bottom inner wall of the second tank body 151, and the outer circumferential surface of the upper end of the assembly rod 153 is provided with an external thread; the pressing plate 156 is provided with an assembly hole matched with the at least one filter element 152, the upper end of the at least one filter element 152 is sleeved through the assembly hole, and the pressing plate 156 is overlapped on the at least one filter element 152; the elastic member 155 is sleeved on the upper end of at least one filter element 152, the upper end of at least one filter element 152 is provided with a shaft shoulder 154, the lower end of the elastic member 155 is positioned by the shaft shoulder 154, the upper end of the elastic member 155 is positioned by the pressing plate 156, that is, the upper end of the elastic member 155 abuts against the pressing plate 156, and the lower end of the elastic member 155 abuts against the shaft shoulder 154; the fastener 157 is provided with internal threads, the fastener 157 applies a pressing force to the pressing plate 156 by being screwed on the assembling rod 153, the cross-sectional shape of the fastener 157 is substantially V-shaped, but other shapes which are convenient to hold by hand are also possible, and the invention does not limit the specific shape of the fastener 157.
In one embodiment, the reverse osmosis device 160 comprises at least one reverse osmosis tank 161 and a second pressure pump 162, wherein the water inlet of the at least one reverse osmosis tank 161 is communicated with the water outlet of the second filtering device 150 through a pipeline; the second pressure pump 162 is in communication with the outlet of the at least one reverse osmosis tank 161 via a line. This reverse osmosis unit 160 adopts the reverse osmosis principle to separate, purification treatment to the raw water, exerts a pressure that is greater than osmotic pressure through second force pump 162 for the hydrosolvent in the great raw water mixed solution of concentration flows to the less pure raw water of concentration, thereby realizes using the pressure differential to separate, purification treatment to the raw water as the drive force.
Specifically, the industrial pure water intelligent device 10 further includes an electric cabinet 170, a PLC programmable controller, a pressure sensor, and a touch screen 180, where the electric cabinet 170 is disposed on the rack 110; the PLC programmable controller is arranged in the electric cabinet 170; the pressure sensor is used for detecting the pressure before the raw water is filtered, the pressure after the raw water is filtered, the pressure before the reverse osmosis device 160 is used for treating and the pressure after the reverse osmosis device 160 is used for treating, and sending a pressure signal to the PLC; the touch screen 180 is arranged on the frame 110, the PLC processes the pressure signal and displays the pressure signal in the touch screen 180, and the frame 110 is provided with a pressure gauge 190 for displaying the water pressure in real time. Wherein, the frame 110 of this embodiment is the rectangular frame that is formed by the welding of square steel pipe, and six sides suitability ground of frame 110 are equipped with protection panel beating 111, and the bottom of frame 110 is installed and is a plurality of wheels 210 that the rectangle array distributes, preferably adopts four wheels 210 that 2 x 2 rectangle array distributes to easily move industry pure water smart machine 10.
Furthermore, the industrial pure water intelligent device 10 further comprises a plurality of electromagnetic valves, flow sensors and conductivity instruments, the electromagnetic valves are installed on the pipeline in a one-to-one correspondence manner, the PLC controls the multi-way electromagnetic valves to work, further controls the on-off state of water flow in the pipeline, and intelligently and automatically controls the on-off state of water flow, so that the tank body in the control device is cleaned in working state, and the PLC detects abnormal alarms to ensure that all working systems are accurately and correctly operated; the flow sensor is used for detecting the raw water flow and sending a flow signal to the PLC; the conductivity instrument is used for detecting the water quality condition of raw water and sending a water quality signal to the PLC.
Referring to fig. 8, the specific working process of the intelligent industrial pure water device 10 of the embodiment is as follows:
(1) firstly, an operator can set parameters on the touch screen 180, then the PLC controls the first pressure pump 120 to pump raw water to the first filtering device 130, and the raw water is filtered layer by layer through a plurality of filter layers arranged in the first filtering device 130 so as to remove abnormal color and odor, nonferrous metals, large particle pollutants and the like in the raw water;
(2) then, the raw water flows into the softening device 140 to be softened, the built-in cation exchange resin layer absorbs calcium ions and magnesium ions in the raw water, salt water is contained in the salt tank, and the softening tank 141 absorbs the salt water in the salt tank 142 to wash the cation exchange resin layer, so that the salt absorption regeneration of the cation exchange resin layer is realized;
(3) then, the raw water flows into the second filtering device 150 after being softened, and the second filtering device 150 filters residual resin, other macromolecular organic matters and the like in the raw water through a built-in filter core 152;
(4) the raw water is filtered for the second time and then flows into the reverse osmosis device 160 for separation and purification treatment, the reverse osmosis device 160 applies a pressure greater than osmotic pressure through the second pressure pump 162, so that the water solvent in the raw water mixed solution with a higher concentration flows to the pure raw water with a lower concentration, and the separation and purification treatment of the raw water is realized by taking the pressure difference as a driving force, so as to remove pollutants such as bacteria, organic matters and the like, and produce a high-quality water source;
(5) and finally, water cooling is carried out on the wall thickness part in the die by using a high-quality water source, so that the scale and blockage of a die water channel caused by raw water during the water cooling of the wall thickness part in the die are prevented, the water flowing uniformity and the cooling heat balance of the die water channel are effectively ensured, the quality of die-casting products is prevented from being influenced, and the qualified rate of the die-casting products is improved.
While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.
Claims (8)
1. The utility model provides an industry pure water smart machine which characterized in that, this industry pure water smart machine includes:
a frame;
the first pressure pump is arranged on the rack and used for pumping raw water;
the water inlet of the first filtering device is communicated with the first pressure pump through a pipeline, and the first filtering device is used for filtering raw water;
the water inlet of the softening device is communicated with the water outlet of the first filtering device through a pipeline, and the softening device is used for replacing calcium ions and magnesium ions contained in raw water;
the water inlet of the second filtering device is communicated with the water outlet of the softening device through a pipeline, and the second filtering device is used for filtering raw water; and
the water inlet of the reverse osmosis device is communicated with the water outlet of the second filtering device through a pipeline, and the reverse osmosis device is used for purifying the raw water by taking pressure difference as driving force.
2. The intelligent industrial pure water equipment of claim 1, wherein the first filtering device comprises, from top to bottom:
the water tank comprises a first tank body, wherein a first water inlet is formed in the top of the first tank body, and a first water outlet is formed in the bottom of the first tank body;
the filter screen is arranged in the first tank body;
the activated carbon filter layer is arranged in the first tank body and is positioned below the filter screen; and
the packing layer, the packing layer set up in this internal, just, the packing layer is located the below of active carbon filter layer.
3. The intelligent industrial pure water equipment according to claim 2, wherein the softening device comprises:
the softening tank is internally provided with a cation exchange resin layer which is used for absorbing calcium ions and magnesium ions; and
the salt case, salt solution has been held in the salt case, just, the salt case with soften the jar intercommunication.
4. The intelligent industrial pure water apparatus of claim 3, wherein the second filtering device comprises:
the second tank body is provided with a second water inlet and a second water outlet;
the at least one filter element is longitudinally arranged in the second tank body, the lower end of the at least one filter element is communicated with the second water outlet, and the at least one filter element is of a hollow shaft structure which is wrapped by a honeycomb mesh-shaped outer circumferential side wall; and
a fitting for removably mounting the at least one filter element within the second canister body.
5. The intelligent industrial pure water device of claim 4, wherein the assembly comprises:
the assembly rod is longitudinally arranged in the second tank body, the lower end of the assembly rod is fixed on the inner wall of the bottom of the second tank body, and an external thread is arranged on the outer circumferential surface of the upper end of the assembly rod;
the pressing plate is provided with an assembly hole matched with the at least one filter element, the upper end of the at least one filter element is sleeved with the assembly hole, and the pressing plate is arranged on the at least one filter element in a lapping mode;
the elastic piece is sleeved at the upper end of the at least one filter element, a shaft shoulder is arranged at the upper end of the at least one filter element, the lower end of the elastic piece is positioned through the shaft shoulder, and the upper end of the elastic piece is positioned through the pressing plate; and
a fastener having internal threads provided thereon, the fastener applying a compressive force to the hold-down plate by tightening on the mounting bar.
6. The intelligent industrial pure water equipment of claim 5, wherein the reverse osmosis device comprises:
the water inlet of the at least one reverse osmosis tank body is communicated with the water outlet of the second filtering device through a pipeline; and
and the second pressure pump is communicated with the water outlet of the at least one reverse osmosis tank body through a pipeline.
7. The intelligent industrial pure water device according to claim 6, further comprising:
the electric control box is arranged on the rack;
the PLC is arranged in the electric cabinet;
the pressure sensor is used for detecting the pressure before the raw water is filtered, the pressure after the raw water is filtered, the pressure before the reverse osmosis device is used for treating and the pressure after the reverse osmosis device is used for treating, and sending a pressure signal to the PLC; and
the touch screen is arranged on the rack, and the PLC processes the pressure signal and displays the pressure signal in the touch screen.
8. The intelligent industrial pure water device according to claim 7, further comprising:
the plurality of electromagnetic valves are correspondingly arranged on the pipeline one by one, and the PLC controls the electromagnetic valves to work so as to control the on-off state of the water flow in the pipeline;
the flow sensor is used for detecting the flow of raw water and sending a flow signal to the PLC; and
and the conductivity instrument is used for detecting the conductivity of the raw water and sending a conductivity signal to the PLC.
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CN111689619A (en) * | 2020-07-20 | 2020-09-22 | 浙江昌本智能装备有限公司 | Industrial pure water intelligent equipment |
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CN111689619A (en) * | 2020-07-20 | 2020-09-22 | 浙江昌本智能装备有限公司 | Industrial pure water intelligent equipment |
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