CN216523358U - Heat exchanger device and system - Google Patents

Abstract

The utility model provides a heat exchanger device and system, comprising: the heat exchanger component and the water quality treatment component; the water quality treatment subassembly includes: the electric field water treatment system comprises an electric field water treatment system core module, an induction coil and a ferrite ring; core module and sense of electric field water treatment systemThe induction coil is electrically connected with the induction coil and used for providing a current signal for the induction coil so as to generate an induced magnetic field in the induction coil; the induction coil is matched and connected with the ferrite ring, so that the ferrite ring generates an induced magnetic field; the ferrite ring is externally coated on the outer side of the water supply pipe, so that the water supply pipe and the water therein generate an induction electric field; ca in water acted by induced electric field in water of water supply pipe²⁺、Mg²⁺And CO₃ ^2‑Thereby tending to form a more stable molecular structure; the induced electric field in the water supply pipe water enhances van der waals' force to form tiny aragonite crystal nuclei which are arranged in order. The heat exchanger device solves the technical problem that a heat exchanger device which can quickly and effectively resist and remove scale, reduce production cost, reduce pollution and improve safety is lacked in the prior art.

Description

Heat exchanger device and system

Technical Field

The application relates to the field of heat exchangers, in particular to a heat exchanger device and a system.

Background

The heat exchanger is a device for transferring part of heat of hot fluid to cold fluid, and is also called as a heat exchanger. The heat exchanger plays an important role in chemical industry, petroleum industry, power industry, food industry and other industrial production.

At present, the water quality treatment in the heat exchanger is managed by adopting chemical agents basically when the hardness and the alkalinity are removed, and the main purposes are corrosion inhibition and scale inhibition. However, the chemical method has the limitation that the concentration is difficult to detect on line, and the automatic control of the dosage is difficult. Therefore, managing corrosion and fouling is not easy, resulting in corrosion or fouling of the system, or even alternating the two, with losses to the system.

At present, the physical treatment means of the same kind, including electrochemical adsorption and strong magnetism, has no obvious effect on the heat exchanger device because the improvement of the whole system is limited. Ultrasonic wave class equipment is then because of safety and pressure-bearing problem hardly dispose at heat exchanger internally mounted, and prior art all can not perfectly satisfy the system demand. Therefore, the prior art lacks a heat exchanger device which can quickly and effectively inhibit and remove scale, reduce production cost, reduce pollution and improve safety.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide a heat exchanger device and system, solve and lack the technical problem that one kind can effectively hinder dirt fast and scale, reduction in production cost, can reduce pollution again, improve the heat exchanger device of security among the prior art.

The application provides a heat exchanger device, includes: the heat exchanger component and the water quality treatment component;

the heat exchanger assembly includes: the heat exchanger module, the water pump and the cooling water supply pipe;

the cooling water supply pipe is connected with a cooling water inlet of the heat exchanger module and a water outlet of the water pump;

the water quality treatment component comprises: the electric field water treatment system comprises an electric field water treatment system core module, an induction coil and a ferrite ring;

the electric field water treatment system core module is electrically connected with the induction coil and used for providing a current signal for the induction coil so as to generate an induced magnetic field in the induction coil;

the induction coil is matched and connected with the ferrite ring, so that the ferrite ring generates an induced magnetic field;

the ferrite ring is externally mounted on the outer side of the cooling water supply pipe, and the cooling water supply pipe and water inside the cooling water supply pipe are used as a secondary induction side of the ferrite ring, so that an induction electric field is generated by the water in the cooling water supply pipe;

the induction electric field in the water of the cooling water supply pipe acts on Ca in the water²⁺、Mg²⁺And CO₃ ^2-The electric field force and the lorentz force are strengthened, thereby tending to form a more stable molecular structure;

the induced electric field in the cooling water supply pipe enhances Van der Waals force, so that CaCO in water₃Regularly arranged, form regularly arranged tiny aragonite crystal nuclei, which are distinguished from calcite crystal nuclei in the scale.

Further, the ferrite ring comprises a ferrite block and a connection structure;

the connection structure is used for connecting the ferrite blocks to form an annular structure, so that the ferrite blocks can be adapted to the outer sides of the cooling water supply pipes with different pipe diameters and are fixedly connected.

Further, the electric field water treatment system core module is an EWT alternating electric field water treatment system core module, and is configured to generate a current signal, thereby forming a magnetic field through a loop, converting the magnetic field into an electric field in a cooling water supply pipe and water, and continuously changing a direction of the electric field, so that Ca in water is generated²⁺、Mg²⁺And CO₃ ^2-The forced motion is more violent, which is beneficial to forming the aragonite crystal nucleus structure more efficiently.

Furthermore, the water quality treatment assembly is arranged outside the cooling water supply pipe.

Further, the cooling water supply pipe includes a mounting pipe and a connection pipe;

the mounting pipe and the connecting pipe are connected to form the water supply pipe;

the ferrite ring is externally mounted on the outer side of the mounting pipe.

Further, the cooling water supply pipe or the installation pipe is preferably a pipe made of a non-metallic material.

Furthermore, the water inlet end and the water outlet end of the mounting pipe are both provided with flange structures, and the flange structures are used for being detachably connected with the connecting pipe.

Further, the flange is provided with a sealing ring in a matching manner.

The application also provides a heat exchanger system, which comprises the heat exchanger device and the integrated controller;

the comprehensive controller is in communication connection with a core module of an electric field water treatment system of the water quality softening treatment system and is used for controlling the running state of the core module of the electric field water treatment system.

Compared with the prior art, the embodiment of the application has the advantages that:

the application provides a heat exchanger device, includes: the heat exchanger component and the water quality treatment component;the heat exchanger assembly includes: the heat exchanger module, the water pump and the cooling water supply pipe; the cooling water supply pipe is connected with a cooling water inlet of the heat exchanger module and a water outlet of the water pump; the water quality treatment component comprises: the electric field water treatment system comprises an electric field water treatment system core module, an induction coil and a ferrite ring; the electric field water treatment system core module is electrically connected with the induction coil and used for providing a current signal for the induction coil so as to generate an induced magnetic field in the induction coil; the induction coil is matched and connected with the ferrite ring, so that the ferrite ring generates an induced magnetic field; the ferrite ring is externally mounted on the outer side of the cooling water supply pipe, and the cooling water supply pipe and water inside the cooling water supply pipe are used as secondary induction sides of the ferrite ring, so that an induction electric field is generated by the cooling water supply pipe and the water therein; the cooling water supply pipe and the induced electric field in the water act on Ca in the water²⁺、Mg²⁺And CO₃ ^2-The electric field force and the lorentz force are strengthened, thereby tending to form a more stable molecular structure; the induced electric field in the cooling water supply pipe enhances Van der Waals force, so that CaCO in water₃Regularly arranged, form regularly arranged tiny aragonite crystal nuclei, which are distinguished from calcite crystal nuclei in the scale.

The heat exchanger device comprises a heat exchanger assembly and a water quality treatment assembly, wherein the heat exchanger assembly comprises a heat exchanger module, a water pump and a cooling water supply pipe; the water quality treatment subassembly includes: the electric field water treatment system comprises an electric field water treatment system core module, an induction coil and a ferrite ring, wherein a current signal is applied to the induction coil through the electric field water treatment system core module, so that an induced magnetic field is generated inside the induction coil, the induction coil is connected with the ferrite ring in a matched manner, so that a new induced magnetic field is generated inside the ferrite ring under the action of the induction coil magnetic field, and the ferrite ring is externally installed outside a water supply pipe, so that a cooling water supply pipe and water therein serve as a secondary induction side to finally generate an induced electric field, which belongs to an electric-magnetic-electric secondary coupling technology, so that the induced electric field in the water supply pipe and the water thereinField-acting on Ca in water²⁺、Mg²⁺And CO₃ ^2-The electric field force and the Lorentz force are strengthened, so that each ion tends to form a more stable molecular structure, and the van der Waals force is strengthened by the induced electric field, so that CaCO in water₃Regular arrangement forms neatly arranged's small aragonite crystal nucleus, the calcite crystal nucleus different with natural formation, aragonite crystal nucleus granule is small and suspend in aquatic or be the loose form and sink in submarine, can not adhere in delivery pipe or heat exchanger heat-transfer surface, thereby delay and avoid even forming the incrustation scale at the heat transfer panel, the aragonite crystal nucleus that the dispersion suspension formed simultaneously, also provide the required seed crystal of scale formation for other ions, make other ions become dirty on the aragonite crystal nucleus, the accessible heat exchanger return water is got rid of, reach the effect of hindering the dirt.

Meanwhile, the scale existing in the water supply pipe or the heat exchange surface is in a reversible reaction state with the ions in the water, namely the ions in the water are combined to form the scale, the scale is decomposed into multiple ions at the same time, and the speed of forming the scale is higher than that of decomposing the scale²⁺And CO₃ ^2-Quickly combined into aragonite crystal nucleus under the action of induction electric field, thereby reducing Ca dissolved in water²⁺And CO₃ ^2-The content of the water scale further promotes the decomposition and ionization of the water scale, thereby achieving the effect of descaling.

This application can effectively realize hindering the dirt and scale removal to quality of water through the mode that adopts physics, realizes water softening, need not to increase chemical agent, has improved and has hindered and hinder dirt and scale removal efficiency, and the while pollution abatement improves the security of operation to lack one kind among the prior art and can effectively hinder the dirt fast and scale removal, reduction in production cost, can reduce the pollution again, improve the technical problem of the heat exchanger device of security.

Drawings

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

Fig. 1 is a schematic structural diagram of a heat exchanger device provided in an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a water treatment module according to an embodiment of the present disclosure;

figure 3 is an exploded view of a water treatment assembly provided in an embodiment of the present application;

fig. 4 is a partial structure diagram of a water quality treatment assembly provided in an embodiment of the present application.

Wherein the reference numerals are: the heat exchanger comprises a heat exchanger component 1, a water quality treatment component 2, a heat exchanger module 3, a cooling water supply pipe 4, a core module circuit board 5, an electric field water treatment system core module 6, an induction coil 7, a ferrite ring 8, a ferrite block 9, a connecting structure 10, a flange structure 11 and a mounting pipe 12.

Detailed Description

The technical solutions of the present application will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments of the present application, but not all 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 application.

In the description of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

For easy understanding, please refer to fig. 1 to 4, fig. 1 is a schematic structural diagram of a heat exchanger device according to an embodiment of the present application; FIG. 2 is a schematic structural diagram of a water treatment module according to an embodiment of the present disclosure; figure 3 is an exploded view of a water treatment assembly provided in an embodiment of the present application; fig. 4 is a partial structure diagram of a water quality treatment assembly provided in an embodiment of the present application.

The application provides a heat exchanger device, includes: the heat exchanger component 1 and the water quality processing component 2;

the heat exchanger assembly 1 comprises: a heat exchanger module 3, a water pump and a cooling water supply pipe 4;

the cooling water supply pipe 4 is connected with a cooling water inlet of the heat exchanger module 3 and a water outlet of the water pump;

the water quality treatment subassembly includes: the electric field water treatment system comprises an electric field water treatment system core module 6, an induction coil 7 and a ferrite ring 8;

the electric field water treatment system core module 6 is electrically connected with the induction coil 7 and is used for providing a current signal for the induction coil 7 so as to generate an induced magnetic field inside the induction coil 7;

the induction coil 7 is matched and connected with the ferrite ring 8, so that the ferrite ring 8 generates an induced magnetic field;

the ferrite ring 8 is externally mounted on the outer side of the cooling water supply pipe 4, and the cooling water supply pipe 4 and the water inside the cooling water supply pipe are used as the secondary induction side of the ferrite ring 8, so that the cooling water supply pipe 4 and the water therein generate an induction electric field;

ca in the water is acted on by the induced electric field in the water of the cooling water supply pipe 4²⁺、Mg²⁺And CO₃ ^2-The electric field force and the lorentz force are strengthened, thereby tending to form a more stable molecular structure;

the induced electric field in the water of the cooling water supply pipe 4 enhances van der Waals' force, so that CaCO in the water₃Regularly arranged, form regularly arranged tiny aragonite crystal nuclei, which are distinguished from calcite crystal nuclei in the scale.

It should be noted that the cooling water supply pipe 4 of this application is connected with the cooling water inlet of heat exchanger module 3, and the water pump is connected with cooling water supply pipe 4 for water pump accessible cooling water supply pipe 4 supplies water in to heat exchanger module 3, makes heat exchanger module 3 normal operating, realizes functions such as heat energy conversion.

This application electric field water processing system core module 6 is used for exerting current signal to induction coil 7, make induction coil 7 circular telegram, make ferrite ring 8's inside generate new induced magnetic field under induction coil 7's effect, because ferrite ring 8 cover is located outside cooling water delivery pipe 4, consequently cooling water delivery pipe 4 and water wherein are regarded as the secondary induction side, finally produce induction electric field, belong to electricity-magnetism-electricity secondary coupling technique, through making the aquatic in cooling water delivery pipe 4 produce induction electric field, and induction electric field makes the Ca in the aquatic²⁺And CO₃ ^2-Tend to be bound forcibly to form CaCO₃And the molecules and the combined crystal nuclei tend to be uniformly distributed in water, dispersed particle crystals, namely aragonite crystal nuclei, are forcibly formed in advance, and particle scales formed by dispersion suspension are suspended in water or are scattered and deposited at the water bottom while the total hardness and the total alkalinity of the water body are reduced, so that large scale blocks are prevented from being formed on the inner side wall of the heat exchanger. The scale is forcibly generated through a forced scale forming mechanism of an electric field, cannot be attached to a heat exchange surface or a pipeline, can only suspend in a heat exchanger and tend to precipitate, and is finally discharged out of the system along with water during discharging, so that the scale is prevented from being formed on a heat exchange panel. And, Ca is generated due to aragonite crystal nuclei generated in suspension in water²⁺、Mg²⁺、PO₄ ^3-、SO₄ ^2-、CO₃ ^2-While dispersing the suspended aragonite nuclei, the ions are also provided with seeds, preferably seeds, necessary for scalingGrow around the crystal nucleus earlier, make other ion become the dirt on the aragonite crystal nucleus to together discharge the heat exchanger, because of the solubility reduces, the various precipitations that successively generate all preferentially separate out the crystallization on aragonite nanometer crystal nucleus, further reduced the hardness of water, thereby this application is when reducing circulating water total hardness and total basicity, also forms the particle dirt through dispersion suspension, avoids forming firm adnexed dirt piece at heat transfer board/tube face.

Meanwhile, in the cooling water supply pipe 4 and the heat exchanger module 3 with scale, there is a reversible reaction between the scale and ions in the water, and the chemical formula is:

CaCO₃+H₂O+CO₂→Ca(HCO₃)₂；

based on the above two chemical reaction formulae, CaCO₃And Ca (HCO)₃)₂In water there are equilibrium reactions of mutual conversion when CaCO₃Reaction to form Ca (HCO)₃)₂And regeneration of CaCO₃Then, electric field to CaCO₃The molecule produces two effects: in one aspect, the electric field causes CaCO₃The scale tends to be evenly distributed in water, but is not formed on the heat exchange surface mostly, so that a large number of dispersed crystal nuclei are formed in the water, and the scale is more suspended CaCO in the water₃Further growth on the crystal nucleus; on the other hand, the electric field promotes CaCO₃The molecules tend to be orderly arranged, so that the original CaCO₃Conversion of calcite to CaCO₃Aragonite. The two components together make CaCO₃Conversion of calcite scale to CaCO₃Aragonite particles scale and grow dispersedly in water. From a macroscopic perspective, CaCO is observed on the surface of the old scale₃Gradually dissolved and softened, and the suspension in water is strong to form scale and increase. Thereby achieving the effect of descaling. In the case of calcium sulfate and calcium phosphate scale, although the scale cannot be removed by a chemical reaction, the scale is formed by combining calcium sulfate, calcium phosphate, and the like with calcium carbonate, and is effective in removing the scaleAfter the calcium carbonate is removed, the calcium sulfate and the calcium phosphate in the scale are scattered and fall off in a blocking manner due to the loss of the connection of the calcium carbonate, and the water is discharged from a water outlet of the heat exchanger, so that the scale removing effect on the calcium phosphate and the calcium sulfate scale is achieved.

The heat exchanger device that this application provided still has the technical effect of killing bacteria and algae, and under the effect of electric field, the ion in the hard water constantly separates out for aquatic ion concentration descends, and on the particle surface, including bacterium virus algae spore surface parcel upper story hydrone, formation pure water infiltration environment. Under the osmosis action, because the concentration outside the cell membrane (wall) is lower than the concentration inside the cell membrane (wall), water molecules permeate from the outside of the cell membrane (wall) to the inside with high concentration, and when the water inside the cell membrane (wall) is excessive, the membrane wall deforms to the rupture degree, the biological structure is destroyed, and the water is killed. The algae adult has a large volume and a thick outer wall, and cannot cause influence by osmosis, but in the fourteen-day life cycle of the algae, the electric field blocks the propagation path of the algae, so that algae organisms disappear after fourteen days because of being unable to propagate, and the technical effect of effectively sterilizing and killing the algae is realized.

The heat exchanger device has the advantages that the effect is obvious and easy to judge, and if the water returning of the heat exchanger is observed to have white turbid liquid, the scale inhibition function can be judged to form CaCO₃Microparticles; the old scale pieces are observed to fall off from the water return port, and the old scale falling off and discharging caused by the descaling function can be judged; the water treatment system adopts a physical mode to supply water to the heat exchanger and treat the water quality inside the heat exchanger, does not conflict with a main stream treatment mode, can supplement each other to enhance the effect, has a real-time online water quality softening function and a descaling function aiming at the water quality with various total hardness and total alkalinity, and has strong broad-spectrum adaptability; the structure is compact, and the occupied space is small; the system does not need special maintenance, has long service life and relatively low cost, belongs to the secondary coupling technology of electric field-magnetic field-electric field, does not depend on the mobility of water, but has the effect of being spread along with pipelines and water, and has wider application scenes.

The utility model aims to provide a heat exchanger device to the physics mode realizes real-time online water softening, satisfies quality of water scale removal and hinders the dirt demand. Meanwhile, no chemical agent is needed to be added, so that the device has the advantages of environmental protection, energy conservation for maintaining long-term higher thermal efficiency, reduction of under-deposit corrosion and service life extension and the advantages of unattended automatic operation of related descaling and scale inhibition functions. Therefore, the heat exchanger device solves the technical problem that a heat exchanger device which can quickly and effectively resist and remove scale, reduce the production cost, reduce the pollution and improve the safety is lacked in the prior art.

The alternating electric field that this application produced is produced at heat exchanger cooling water delivery pipe to follow right-hand principle, along with water and pipeline transmission. Because of the positive and negative quadrant of the alternating electric field changes rapidly repeatedly, the alternating electric field transmission shows that the alternating electric field is transmitted from the installation point along the water and cooling water supply pipe 4 in two directions at the same time, the range of water quality treatment is increased, the effect range is wider, the time is more durable, and one side of the alternating electric field acts on the heat exchanger. The method realizes real-time online descaling and scale inhibition, and provides better heat exchanger efficiency for the heat exchanger module 3; the structure is compact, and the occupied space is small; the system does not need special maintenance, has long service life and relatively low cost, and solves a plurality of problems for customers.

The heat exchanger modules 3 provided in the present application may comprise various types of heat exchangers, including but not limited to plate, tube, coil, etc. The heat exchanger can be popularized to various types of heat exchange systems including industry, commerce, agriculture, household and the like.

As a further improvement, the ferrite ring 8 in the embodiment of the present application includes a ferrite block 9 and a connection structure 10;

the connection structure 10 is used to connect the ferrite blocks 9 to form a ring structure so as to be fitted to the outside of the cooling water supply pipe 4 and fixedly connected.

Specifically, the ferrite blocks 9 are preferably in a strip structure, the connection structures 10 are preferably in a screw structure, mounting holes matched with screws are formed in two ends of each ferrite block 9, and the number of the ferrite blocks 9 can be flexibly set according to the size of the periphery of the cooling water supply pipe 4, so that the ferrite rings 8 can be adapted to the outer portions of the cooling water supply pipes 4 of different models and different outer diameters.

As a further improvement, the embodiments of the present applicationThe core module 6 of the electric field water treatment system of the heat exchanger device is specifically an EWT alternating electric field water treatment system core module 6 for generating an electric signal, a core module circuit board 5 is arranged in the core module circuit board, the core module circuit board 5 is electrically connected with an induction coil 7, a special control system for preassembling the core module circuit board 5 is used for controlling a main control circuit to generate an alternating electric field, the induction coil 7 is controlled to generate an alternating current signal through the core module circuit board 5, a magnetic field is formed through a loop and converted into an electric field of a cooling water supply pipe and water, the direction of the electric field is continuously changed, and Ca in the water is enabled to be continuously changed²⁺、Mg^{2 +}And CO₃ ^2-The forced motion is more violent, which is beneficial to forming the aragonite crystal nucleus structure more efficiently.

As further improvement, the quality of water treatment subassembly that this application embodiment provided sets up cooling water supply pipe 4 between water pump and heat exchanger for water is after the water pump, just carry the alternating electric field before getting into the heat exchanger, be favorable to forcing the ion with aquatic to combine to form the aragonite crystal nucleus in advance, and because the cross-sectional area of supply pipe 4 is less relatively, consequently make the granule in aquatic receive the effort of induction electric field more obvious, make things convenient for the installation of heat exchanger device simultaneously, reduce the equipment volume, and the steam generator has the characteristics of safety, high efficiency, easy dismounting etc.

As a further improvement, the cooling water supply pipe 4 of the heat exchanger device provided in the embodiment of the present application includes a mounting pipe 12 and a connection pipe; the installation pipe 12 and the connecting pipe are connected to form a cooling water supply pipe 4, the ferrite ring is externally installed on the outer side of the installation pipe 12, and the cooling water supply pipe 4 or the installation pipe 12 is preferably a pipe made of a non-metal material. The design of the non-metallic material is beneficial to avoiding short-circuit environment caused by metallic contact between the cooling water supply pipe or the installation pipe 12 and the heat exchanger module 3, avoiding leading energy into the ground by grounding the water pump or the water supply pipe, effectively improving the utilization rate of electric energy, enabling all energy of an electric field to act on water, and improving the effects of scale inhibition and scale removal.

The cooling water supply pipe 5 in the present application may be an integrally formed pipe, and the whole material of the pipe is preferably a non-metallic material; the ferrite ring can also be a pipeline formed by connecting the installation pipe 126 and a connecting pipe, and the ferrite ring is externally installed on the installation pipe 126, wherein the material of the installation pipe 12 is preferably a non-metallic material, and the material of the connecting pipe can be a non-metallic material or a metallic material. The above embodiments are all within the scope of the present application.

As a further improvement, the water inlet end and the water outlet end of the cooling water supply pipe 4 provided by the embodiment of the present application are both provided with flange structures 11, and the flange structures 11 are used for being detachably connected with the connecting pipe.

Specifically, the installation pipe 12 for installing the water treatment assembly may be one of the sections of the cooling water supply pipe 4 of the whole water treatment system, the supply pipe 4 is made of a non-metallic material, and both ends are provided with the flange structures 11 to be detachably connected with the connection pipe, thereby facilitating quick disassembly and replacement, and the connection pipe may still be made of a metallic material except the cooling water supply pipe 4, thereby improving durability of the supply pipe 4. Preferably, the flange structure 11 can be matched with a connecting sealing ring, so that the sealing performance of the connecting part is ensured, and water leakage is avoided.

As a further improvement, the heat exchanger device provided in the embodiment of the present application may be further disposed in front of a water pump of the water treatment system, so that after each ion in water is applied with an electric field force by the heat exchanger device, the turbulent flow of the water pump is utilized, and the chance that each particle in water meets each other is increased, thereby obtaining more flocculation amount and more stable floc.

The application also provides a heat exchanger system, which comprises the heat exchanger device and the integrated controller;

the integrated controller is in communication connection with the electric field water treatment system core module 6 of the heat exchanger device and is used for controlling the running state of the electric field water treatment system core module 6.

The above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (9)

1. A heat exchanger apparatus, comprising: the heat exchanger component and the water quality treatment component;

the heat exchanger assembly includes: the heat exchanger module, the water pump and the cooling water supply pipe;

the cooling water supply pipe is connected with a cooling water inlet of the heat exchanger module and a water outlet of the water pump;

the water quality treatment component comprises: the electric field water treatment system comprises an electric field water treatment system core module, an induction coil and a ferrite ring;

the electric field water treatment system core module is electrically connected with the induction coil and used for providing a current signal for the induction coil so as to generate an induced magnetic field in the induction coil;

the induction coil is matched and connected with the ferrite ring, so that the ferrite ring generates an induced magnetic field;

the ferrite ring is externally mounted on the outer side of the cooling water supply pipe, and the cooling water supply pipe and water inside the cooling water supply pipe are used as a secondary induction side of the ferrite ring, so that an induction electric field is generated by the water in the cooling water supply pipe.

2. The heat exchanger apparatus of claim 1, wherein the ferrite ring comprises a ferrite block and a connection structure;

the connection structure is used for connecting the ferrite blocks to form an annular structure, so that the ferrite blocks can be adapted to the outer sides of the cooling water supply pipes with different pipe diameters and are fixedly connected.

3. The heat exchanger apparatus as claimed in claim 1, wherein said electric field water treatment system core module is an EWT alternating electric field water treatment system core module for generating a current signal for forming a magnetic field through a loop and converting into a cooling water supply pipe and an electric field in water.

4. The heat exchanger apparatus as claimed in claim 1, wherein the water treatment assembly is provided to the cooling water supply pipe between the water pump and the heat exchanger module.

5. The heat exchanger apparatus as claimed in claim 1, wherein the cooling water supply pipe comprises a mounting pipe and a connection pipe;

the mounting pipe and the connecting pipe are connected to form the cooling water supply pipe;

the ferrite ring is externally mounted on the outer side of the mounting pipe.

6. The heat exchanger apparatus as claimed in claim 5, wherein the cooling water supply pipe or the installation pipe is a pipe made of a non-metallic material.

7. The heat exchanger apparatus of claim 6 wherein the inlet end and the outlet end of the mounting tube are each provided with a flange structure for removable connection with the connecting tube.

8. The heat exchanger apparatus of claim 7 wherein the flange is configured to receive a gasket.

9. A heat exchanger system comprising a heat exchanger device according to any one of claims 1 to 7 and an integrated controller;

the integrated controller is in communication connection with the core module of the electric field water treatment system of the water quality treatment assembly and is used for controlling the running state of the core module of the electric field water treatment system.

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