CN115448430A - Equipped with ferrite, suitable for high-frequency alternating electric field electromagnetic anti-scaling and descaling system - Google Patents

Abstract

An electromagnetic scale-inhibiting and scale-removing system with ferrite and suitable for a high-frequency alternating electric field belongs to the field of scale treatment by using the high-frequency alternating electric field. Including upper surface, main part and lower surface, the upper surface is connected with the main part through last chamfer connecting portion, and the lower surface is connected with the main part through lower chamfer connecting portion, and this kind of mode can effectually alleviate the stress influence and cause bursting of ferrite subassembly, and through the conduction ring that forms by a plurality of ferrite subassembly end to end connection back simultaneously, places and can also go out high frequency alternating electric field omnidirectional conduction behind the scale inhibition scale removal system, makes the scale inhibition scale removal effect better. In addition, a passive heat dissipation device is added outside the scale inhibition and scale removal system, so that the damage rate of the electronic instrument is greatly reduced.

Description

Equipped with ferrite, suitable for high-frequency alternating electric field electromagnetic anti-scaling and descaling system

technical field

The invention belongs to the field of scale treatment by using a high-frequency alternating electric field, and particularly relates to an electromagnetic scale-resistance and scale-removing system provided with ferrite and suitable for a high-frequency alternating electric field.

Background technique

As an important part of high-frequency alternating electric field electromagnetic scale removal, ferrite has many problems, such as: ferrite is fragile and fragile, and it is necessary to pay attention to the damage to ferrite caused by bumps during transportation; when ferrite is applied to When the pipeline is exposed to stress, it is prone to cracking. As a result, the effect of the high-frequency electromagnetic anti-scaling and descaling equipment may not be as good as expected, which seriously interferes with the normal operation of industrial production.

Contents of the invention

In view of the deficiencies in the prior art, the purpose of the present invention is to provide a high-frequency alternating electric field electromagnetic anti-scaling and descaling system equipped with ferrite.

The technical solution adopted in the invention is: a high-frequency alternating electric field electromagnetic anti-scaling and descaling system equipped with ferrite. The ferrite is composed of an upper surface, a main body and a lower surface. The connection between the upper surface and the main body is chamfered at 30° to 60° to form an upper chamfer connection, and the connection between the main body and the lower surface is formed by a 30° to The 60° chamfering treatment forms the bottom chamfer connecting portion, and the widths of the upper chamfer connecting portion and the bottom chamfer connecting portion are both 2.3 mm to 3.7 mm.

In the above solution, the connection between the upper surface and the main body is rounded at 30° to 60° to form an upper chamfer connection, and the connection between the main body and the lower surface is rounded at 30° to 60° to form a bottom chamfer. Corner joints, and the radius of the fillet is within 2.5mm to 3.5mm.

In the above solution, the ferrite components are connected to each other through pins passing through the connecting holes, and a plurality of ferrite components are connected end to end to form a conductive ring.

In the above solution, the conduction ring is arranged around the shell of the high-frequency alternating electric field electromagnetic scale prevention and descaling system.

In the above solution, the housing of the scale prevention and descaling system is also connected to a passive cooling device.

In the above scheme, the passive heat dissipation device is mainly composed of a heat-conducting aluminum plate, a heat-transfer copper pipe, heat-conducting oil and a radiator; the heat-conducting aluminum plate is placed above the circuit board shell of the high-frequency electronic equipment, and the heat-conducting aluminum plate and the circuit board shell are used for covering Based on the sealed and fixed heat-conducting silicone glue, the heat-conducting aluminum plate is connected to the radiator through the heat-transfer copper tube filled with heat-conducting oil connected to it.

In the above solution, the passive heat dissipation device is mainly composed of a heat-conducting aluminum plate, a heat transfer copper tube, and a combined radiator, and the combined radiator is connected by a first radiator and a second radiator through a cable tie fixing plate Composition; the high-frequency electronic equipment is installed between the heat-conducting aluminum plate and the cable tie fixing plate, and the heat-conducting aluminum plate is located above the circuit board shell of the high-frequency electronic equipment and covered with heat-conducting silicon for sealing and fixing between the high-frequency electronic equipment shell Glue, and the heat conduction aluminum plate is connected with the first heat sink and the second heat sink through the heat transfer copper pipe filled with heat conduction oil connected thereto.

The beneficial effects of the present invention are: the anti-scaling and descaling system suitable for high-frequency alternating electric field electromagnetic scale provided with ferrite includes an iron oxide composed of an upper surface, a main body and a lower surface arranged on the casing, wherein The upper surface of the iron oxide is connected to the main body through the upper chamfered connection part, and the lower surface is connected to the main body through the lower chamfered connection part. This method can effectively relieve the impact of stress and cause the cracking of the ferrite component. The conduction ring formed by the end-to-end connection of multiple ferrite components can conduct the high-frequency alternating electric field in all directions after being placed in the anti-scaling and descaling system, so that the effect of anti-scaling and descaling is better; A passive cooling device is added outside the scale system, which greatly reduces the damage rate of electronic instruments.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the accompanying drawings required in the embodiments. Obviously, the accompanying drawings in the following description are only some of the present invention. Embodiments, for those of ordinary skill in the art, other drawings can also be obtained based on these drawings without any creative effort.

Fig. 1 is a schematic structural view of a high-frequency alternating electric field electromagnetic anti-scaling and descaling system provided with ferrite in an embodiment of the present invention;

Fig. 2 is a schematic diagram of the structure of the conductive ring in the embodiment of the present invention;

3 is a schematic structural diagram of a passive heat dissipation device in Embodiment 1 of the present invention;

4 is a schematic structural diagram of a passive heat dissipation device in Embodiment 2 of the present invention;

Description of serial numbers in the figure: 1 upper surface, 2 main body, 3 upper chamfer connection, 4 pin shaft, 5 ferrite conductive part, 6 lower surface, 7 passive heat sink, 71 heat conducting aluminum plate, 72 heat transfer copper tube , 73 radiators, 74 second radiators, 75 tie fixing plates.

detailed description

To make the above-mentioned purpose, features and advantages of the present invention more obvious and understandable, the present invention will be further described in detail below in conjunction with the accompanying drawing 1 and specific embodiments.

Example 1:

The ferrite used in this embodiment is suitable for the high-frequency alternating electric field electromagnetic anti-scaling and descaling system. The ferrite includes an upper surface 1, a main body 2 and a lower surface 6, and the connection between the upper surface 1 and the main body 2 The upper chamfered connection part 3 is formed by 35° chamfering treatment, the lower chamfered connection part is formed by 35° chamfering treatment at the junction of the main body 2 and the lower surface 6, and the upper chamfered connection part 3 and the lower chamfered connection part The width is 2.5mm.

Both ends of the ferrite assembly 5 are respectively provided with pin holes, and the pin holes of the two ferrite assemblies 5 are placed opposite to each other so that the pin holes are connected. The oxygen body assembly 5 is connected. A plurality of ferrite components 5 are connected end to end to form a conductive ring. The conduction ring surrounds the housing of the high-frequency alternating electric field electromagnetic anti-scaling and descaling system.

In this embodiment, the ferrite components are connected to form a conduction ring, which serves as a high-efficiency coupling ring, strengthens the electromagnetic field, enhances conduction efficiency, improves the working efficiency of the scale inhibition and descaling equipment, and reduces energy consumption at the same time.

The conduction ring in this embodiment surrounds the shell of the high-frequency alternating electric field electromagnetic scale prevention and descaling system.

In this embodiment, a passive cooling device 7 is also connected to the shell of the high-frequency alternating electric field electromagnetic scale prevention and descaling system. The passive cooling device 7 is mainly composed of a heat-conducting aluminum plate 71, a heat-transfer copper tube 72, heat-conducting oil and a radiator 73; wherein the heat-conducting aluminum plate 71 is placed above the circuit board shell of the high-frequency electronic equipment, and the heat-conducting aluminum plate 71 and the circuit board shell are covered The heat-conducting silicone glue used for sealing and fixing, the heat-conducting aluminum plate 71 is connected with the radiator 73 through the heat-transfer copper pipe 72 filled with heat-conducting oil connected thereto.

After the anti-scaling and descaling system of this embodiment works, its circuit board chips will generate a large amount of heat. After the heat-conducting aluminum plate 71 absorbs the heat, it will be transferred to the passive cooling device located outside the anti-scaling and descaling system through the heat transfer copper tube 72. The heat dissipation device absorbs heat and then releases the absorbed heat energy through the built-in combing heat dissipation grid, so as to achieve heat dissipation for electronic components such as chips of the high-frequency electromagnetic anti-scaling and descaling system that are prone to heat. After testing, the device can reduce the temperature to more than 50% of that of non-cooling equipment.

Example 2:

The difference between this embodiment and Embodiment 1 is: the connection between the upper surface and the main body passes through 45° (choose one between 30-60, 35 has been selected in Embodiment 1, just choose another one) The rounding process forms the upper chamfered connection part, and the connection between the main body and the lower surface forms the lower chamfered connection part through 45° rounding treatment, and the radius of the rounded corner is 3mm.

The rounded corner chamfering adopted in this embodiment can protect the ferrite when the pipe wall is corroded and uneven due to environmental factors, and the protection effect of the rounded corner is better than that of ordinary chamfering.

The conduction ring in this embodiment surrounds the shell of the high-frequency alternating electric field electromagnetic scale prevention and descaling system.

In this embodiment, the casing of the high-frequency alternating electric field electromagnetic anti-scaling and descaling system is also connected to a passive heat dissipation device 7. The passive heat dissipation device 7 is mainly composed of a heat-conducting aluminum plate 71, a heat-transfer copper tube 72 and a combined radiator. The combined radiator is formed by connecting the radiator 73 and the second radiator 74 through a strap fixing plate 75 . The high-frequency electronic equipment is installed between the heat-conducting aluminum plate 71 and the cable tie fixing plate 75, and the heat-conducting aluminum plate 71 is located above the circuit board shell of the high-frequency electronic equipment and is covered with heat-conducting silicon glue for sealing and fixing between the high-frequency electronic equipment shell , the heat conduction aluminum plate 71 is connected with the heat sink 73 and the second heat sink 74 through the heat transfer copper pipe 72 filled with heat conduction oil connected thereto.

After the anti-scaling and descaling system of this embodiment works, its circuit board chips will generate a large amount of heat. After the heat-conducting aluminum plate 71 absorbs the heat, it will be transferred to the passive cooling device located outside the anti-scaling and descaling system through the heat transfer copper tube 72. The heat dissipation device absorbs heat and then releases the absorbed heat energy through the built-in combing heat dissipation grid, so as to achieve heat dissipation for electronic components such as chips of the high-frequency electromagnetic anti-scaling and descaling system that are prone to heat. After testing, the device can reduce the temperature to more than 50% of that of non-cooling equipment.

The above is only a specific embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Anyone skilled in the art can easily think of changes or substitutions within the technical scope disclosed in the present invention. Should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention should be determined by the protection scope of the claims.

Claims (7)

1. A high-frequency alternating electric field electromagnetic anti-scaling and descaling system provided with ferrite is characterized in that it includes an oxidizing body arranged on the outer surface of the anti-scaling and descaling system, and the ferrite consists of the upper surface, The main part and the lower surface are formed, the connection between the upper surface and the main part is processed by 30°～60° chamfering to form the upper chamfered connection part, and the connection between the main part and the lower surface is formed by 30°～60° chamfering treatment. The widths of the chamfered connecting portion, the upper chamfered connecting portion and the lower chamfered connecting portion are all 2.3 mm to 3.7 mm. 2. The anti-scaling and descaling system suitable for high-frequency alternating electric field electromagnetic scale equipped with ferrite as claimed in claim 1, characterized in that the connection between the upper surface and the main body is rounded by 30° to 60° The upper chamfered connection part is formed by processing, and the lower chamfered connection part is formed by rounding the joint between the main body and the lower surface at 30° to 60°, and the radius of the rounded corner is within 2.5mm to 3.5mm. 3. The anti-scaling and descaling system suitable for high-frequency alternating electric field electromagnetic scale provided with ferrite as claimed in claim 1 or 2, characterized in that, the ferrite assembly passes through the pin shaft passing through the connecting hole Connected to each other, multiple ferrite components are connected end to end to form a conductive ring. 4. The anti-scaling and descaling system suitable for high-frequency alternating electric field electromagnetic scale provided with ferrite as claimed in claim 3, characterized in that, the conductive ring surrounds the high-frequency alternating electric field electromagnetic anti-scaling and descaling system Shell settings. 5. The anti-scaling and descaling system suitable for high-frequency alternating electric field electromagnetic scale equipped with ferrite as claimed in claim 3, characterized in that the housing of the anti-scaling and descaling system is also connected to a passive cooling device. 6. The anti-scaling and descaling system suitable for high-frequency alternating electric field electromagnetic scale provided with ferrite as claimed in claim 5 is characterized in that the passive cooling device is mainly composed of heat-conducting aluminum plate, heat-transfer copper pipe, heat-conducting oil and It consists of a radiator; the heat-conducting aluminum plate is placed above the circuit board shell of high-frequency electronic equipment, and the heat-conducting aluminum plate and the circuit board shell are covered with heat-conducting silicon glue for sealing and fixing, and the heat-conducting aluminum plate is filled with heat-conducting oil through the inside connected to it. Heat transfer copper tubes are connected to the heat sink. 7. The anti-scaling and descaling system suitable for high-frequency alternating electric field electromagnetic scale that is provided with ferrite as claimed in claim 5, is characterized in that, described passive cooling device is mainly made of heat-conducting aluminum plate, heat-transfer copper tube and Composed of a combined radiator, the combined radiator is composed of a first radiator and a second radiator connected by a cable tie fixing plate; high-frequency electronic equipment is installed between the heat conduction aluminum plate and the cable tie fixing plate, and the The heat-conducting aluminum plate is located above the circuit board shell of the high-frequency electronic equipment and is covered with heat-conducting silicon glue for sealing and fixing between the shell of the high-frequency electronic equipment. The heat-conducting aluminum plate is connected to the first The radiator is connected to the second radiator.

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