CN108336646B - Ion air supply module and maintenance method thereof - Google Patents

Abstract

The invention provides an ion air supply module and a maintenance method thereof, wherein the ion air supply module comprises a discharge module, the discharge module comprises a needle electrode and a net electrode, the net electrode comprises a conductive net, the needle electrode comprises an installation support and a multilayer needle assembly arranged on the installation support, the needle assembly comprises a plurality of discharge needles, installation rods are arranged at the installation ends of the discharge needles, and two adjacent discharge needles are detachably connected together through the installation rods. The ion air supply module is convenient to maintain, so that the maintenance cost is reduced.

Description

Ion air supply module and maintenance method thereof

Technical Field

The invention relates to the technical field of ion air supply, in particular to an ion air supply module and a maintenance method thereof.

Background

At present, the corona discharge ion air supply technology is taken as a unique air supply system, has the advantages of simple structure, no noise, air purification effect and the like, becomes a technology with great market potential and good application prospect, and becomes a hot research direction of researchers at home and abroad. The generation of ionic wind in the prior art is derived from the corona discharge principle: due to the action of high voltage, the electric field intensity near the needle electrode is extremely high, so that a large number of air molecules in the area are ionized, and the electric field outside the area is weak, so that the ionization process is not generated. Under the action of the electric field, the charged particles move directionally and collide with uncharged neutral particles in the movement process, and part of kinetic energy is transferred to the neutral particles, so that the neutral particles move directionally together, namely, ion wind is generated. In the in-service use process, generally adopt the mode of needle net discharge, needle electrode and net electrode are fixed and are realized the ion air supply on the mount pad, owing to adopt many needle electrodes and a net electrode cooperation to produce the ion wind, long-time back of using, the needle electrode appears taking place to warp easily and influence the production of ion wind, and when the maintenance was changed, then need change whole needle electrode, the maintenance process is loaded down with trivial details and cost of maintenance is higher. The invention aims to solve the technical problem of how to design an ion air supply technology which is convenient to maintain and low in maintenance cost.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the ion air supply module and the maintenance method thereof are provided, so that the ion air supply module is convenient to maintain, and the maintenance cost is reduced.

The technical scheme provided by the invention is that the ion air supply module comprises a discharge module, wherein the discharge module comprises a needle electrode and a net electrode, the net electrode comprises a conductive net, the needle electrode comprises an installation support and a plurality of layers of needle assemblies arranged on the installation support, each needle assembly comprises a plurality of discharge needles, installation rods are arranged at the installation ends of the discharge needles, and two adjacent discharge needles are detachably connected together through the installation rods.

Furthermore, the discharge needle and the mounting rod are integrally in a T-shaped structure.

Furthermore, one end part of the mounting rod is a connecting male head, and the other end part of the mounting rod is a connecting female head; for two adjacent discharge needles, the connecting male head on one discharge needle is connected with the connecting female head on the other discharge needle.

Furthermore, the mounting bracket is of a U-shaped structure, mounting holes are formed in two sides of the mounting bracket respectively, and the end portions of the mounting rods are inserted into the corresponding mounting holes.

Furthermore, the male connecting head is a plug, and the female connecting head is a jack; or the connecting male head is a clamping jaw, and the connecting female head is a clamping groove; or the connecting male head is a male buckle, and the connecting female head is a female buckle.

Furthermore, ion air supply module includes the multistage the module discharges, ion air supply module still includes the regulation module, it includes support holder and a plurality of sliding support to adjust the module, and is a plurality of sliding support arranges side by side and slidable installs on the support holder, the needle electrode with the net electrode is installed correspondingly on the sliding support.

Furthermore, the supporting bracket is also provided with a plurality of rotatable adjusting screw rods, and the adjusting screw rods are in threaded connection with the corresponding sliding bracket and are used for driving the sliding bracket to move.

Furthermore, the support bracket is also provided with a guide rod for guiding the sliding bracket to slide.

Furthermore, a fixing support is arranged at one end of the supporting support, and the needle electrode or the mesh electrode is mounted on the fixing support.

The invention also provides a maintenance method of the ion air supply module, which comprises the following steps: and detaching the damaged needle assembly from the mounting bracket, replacing the damaged discharge needle in the detached needle assembly with a new discharge needle, and finally, reinstalling the needle assembly on the mounting bracket.

According to the ion air supply module and the maintenance method thereof, the needle assembly is formed by assembling the plurality of independent discharge needles, when replacement and maintenance are needed in the later period, only the damaged needle assembly needs to be detached from the mounting bracket, then the needle assembly is detached and a new discharge needle is replaced, so that the maintenance can be completed, the whole needle electrode does not need to be replaced, the maintenance process is greatly simplified in the detachable connection mode, the ion air supply module is convenient to maintain, and the maintenance cost is reduced.

Drawings

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

FIG. 1 is a schematic structural diagram of an ion blower module according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a discharge module in an embodiment of an ion blower module according to the present invention;

FIG. 3 is a schematic structural diagram of a needle electrode in an embodiment of an ion blower module according to the present invention;

FIG. 4 is a schematic structural diagram of a mesh electrode in an embodiment of an ion blower module according to the present invention;

FIG. 5 is a schematic structural view of a needle assembly in an embodiment of an ion blower module according to the present invention;

FIG. 6 is a schematic structural diagram of a conductive mesh assembly in an embodiment of an ion blower module according to the present invention;

FIG. 7 is a schematic view of an adjusting module according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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.

As shown in fig. 1 to 7, the ion air supply module of the present embodiment includes a discharge module 100, the discharge module includes a needle electrode 1 and a mesh electrode 2, the needle electrode 1 includes a mounting bracket 12 and a multi-layer needle assembly disposed on the mounting bracket 12, the needle assembly includes a plurality of discharge needles 11, a mounting rod 13 is disposed at a mounting end of each discharge needle 11, two adjacent discharge needles 11 are detachably connected together through the mounting rod 13, and the discharge needles 11 are disposed opposite to the mesh electrode 2.

Specifically, the needle electrode 1 in the ion air supply module of the present embodiment is composed of multiple layers of needle assemblies, each layer of needle assembly is formed by assembling multiple discharge needles 11, and two adjacent discharge needles 11 are detachably connected together through the mounting rod 13, when the discharge needles 11 need to be repaired and replaced in the later period, the needle assembly is only required to be detached from the mounting bracket 12, then the damaged discharge needles 11 in the needle assembly are detached to replace new discharge needles 11, and finally, the needle assembly is re-mounted on the mounting bracket 12, so that the repair operation can be completed. The discharge needle 11 and the mounting rod 13 are in a T-shaped structure integrally, one end of the mounting rod 13 is a connecting male head, and the other end of the mounting rod 13 is a connecting female head; for two adjacent discharge needles, the connecting male head on one discharge needle 11 is connected with the connecting female head on the other discharge needle 11. Meanwhile, the mounting bracket 12 may be a U-shaped structure, mounting holes are respectively formed in both sides of the mounting bracket 12, and the end of the mounting rod 13 is inserted into the corresponding mounting hole. The mesh electrode 2 may adopt an integral power grid, preferably, the mesh electrode 2 includes a mounting frame 21 and a plurality of layers of conductive mesh components arranged on the mounting frame 21, the conductive mesh components include a plurality of conductive meshes 22, and a connecting rod 23 is arranged between two adjacent conductive meshes 22; every electrically conductive net 23 and the correspondence the discharge needle 11 sets up relatively, and is concrete, and the net electrode 2 adopts the electrically conductive net subassembly of multilayer to constitute, and every layer of electrically conductive net subassembly is assembled by a plurality of electrically conductive nets 22 and forms, and in the corona discharge in-process, produces ion wind between corresponding discharge needle 11 and the electrically conductive net 22, and the ion wind that produces can smoothly pass through from the interval between the electrically conductive net 22 at the flow in-process to greatly reduced the windage of ion wind. In order to facilitate later maintenance, the connecting rods 23 are respectively arranged on two sides of the conductive net 22, wherein the end part of one connecting rod 23 is a male connecting head, and the end part of the other connecting rod 23 is a female connecting head; for two adjacent conductive nets 22, the connecting male end of one conductive net 22 is connected with the connecting female end of the other conductive net 22. Specifically, in the later use process, when the conductive net 22 at a certain position is damaged, the conductive net assembly is only required to be detached from the mounting frame 21, then the damaged conductive net 22 in the conductive net assembly is detached to replace a new conductive net 22, and finally, the conductive net assembly is reinstalled on the mounting frame 21, so that the maintenance operation can be completed. In order to facilitate the assembly and disassembly of the needle assembly and the conductive net assembly, the connecting male head is a plug, and the connecting female head is a jack; or the connecting male head is a clamping jaw, and the connecting female head is a clamping groove; or the connecting male head is a male buckle, and the connecting female head is a female buckle.

According to the ion air supply module provided by the invention, the needle assembly is formed by assembling the plurality of independent discharge needles, when replacement and maintenance are needed in the later period, only the damaged needle assembly needs to be detached from the mounting bracket, then the needle assembly is detached and the new discharge needle is replaced, so that the maintenance can be completed, the replacement of the whole needle electrode is not needed, the maintenance process is greatly simplified by the detachable connection mode, the ion air supply module is convenient to maintain, and the maintenance cost is reduced. Simultaneously, through adopting a plurality of electrically conductive nets that disperse to form the net electrode, at first every electrically conductive net can satisfy the requirement that corona discharge produced ionic wind with the cooperation of the discharge needle that corresponds, simultaneously, the interval that forms between the adjacent electrically conductive net can guarantee that the ionic wind that forms can be smooth and easy current, realizes reducing the windage of ion air supply module to improve air supply speed, air output and air supply efficiency.

Based on the above technical solution, optionally, the ion air supply module of this embodiment may include a multi-stage discharge module 100 to implement multi-stage ion air supply; in order to adjust the distance between the discharge modules 100 at each stage, the ion air supply module of this embodiment further includes an adjustment module 200, where the adjustment module 200 includes a support frame 3 and a plurality of sliding frames 4, the plurality of sliding frames 4 are arranged side by side and slidably mounted on the support frame 3, and the needle electrode 1 and the mesh electrode 2 are mounted on the corresponding sliding frames 4. Specifically, it is multistage the distribution is arranged in proper order to discharge module 100, forms the ion air supply mode of multilevel structure, and the ion wind that the module 100 that discharges that is located the head produced corona discharge and forms enters into next stage discharge module 100 and continues to carry out corona discharge with higher speed, and finally, from the discharge module 100 output of afterbody, the ion wind accelerates through multistage corona discharge, realizes stack in the speed, can obtain high-speed air supply speed. The sliding supports 4 in the adjusting module 200 can slide as required, so that for a single discharge module 100, the needle electrode 1 and the mesh electrode 2 are respectively installed on two adjacent sliding supports 4, and the distance between the needle electrode 1 and the mesh electrode 2 can be conveniently adjusted by adjusting the distance between the two sliding supports 4, so as to change the effect of ion air supply. In order to adjust the sliding support 4, the supporting support 3 is further provided with a plurality of rotatable adjusting screws 41, the adjusting screws 41 are in threaded connection with the corresponding sliding support 4 and used for driving the sliding support 4 to move, specifically, each adjusting screw 41 is in threaded connection with the corresponding sliding support 4, so that the corresponding sliding support 4 can be correspondingly adjusted to move by rotating the adjusting screws 41, and other sliding supports 4 cannot be affected. The support bracket 3 is further provided with a guide rod 31 for guiding the sliding of the sliding bracket 4. In addition, the needle electrode 1 or the mesh electrode 2 corresponding to one end of the support frame 3 may be directly fixed to the end of the support frame 3, and the fixing frame 32 may be located at the starting end or may be used as the ending end.

According to the ion air supply module provided by the invention, the spatial positions of the discharge needles and the conductive net are reasonably designed, and meanwhile, the position relation between the discharge needles is reasonably distributed, so that the distance between the discharge needles and the conductive net can generate larger air speed, meanwhile, the discharge needles arranged in an array can be matched with the area direction of the conductive net, the ion air with more uniform and larger air volume can be obtained by matching a reasonable number of discharge needles with the conductive net with a specific area, and the air supply speed, the air supply volume and the air supply efficiency of the ion air supply module are improved.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will 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 technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. An ion air supply module comprises a discharge module, wherein the discharge module comprises a needle electrode and a mesh electrode, and the mesh electrode comprises a conductive mesh, and the ion air supply module is characterized in that the needle electrode comprises an installation support and a multilayer needle assembly arranged on the installation support, the needle assembly comprises a plurality of discharge needles, installation rods are arranged at the installation ends of the discharge needles, and two adjacent discharge needles are detachably connected together through the installation rods; one end of the mounting rod is connected with the male head, and the other end of the mounting rod is connected with the female head; for two adjacent discharge needles, the connecting male head on one discharge needle is connected with the connecting female head on the other discharge needle.

2. The ion air supply module of claim 1, wherein the discharge needles and the mounting rods are integrally T-shaped.

3. The ionic wind module according to claim 1, wherein the male connection head is a plug and the female connection head is a socket; or the connecting male head is a clamping jaw, and the connecting female head is a clamping groove; or the connecting male head is a male buckle, and the connecting female head is a female buckle.

4. The ion air supply module of claim 1, comprising a plurality of stages of the discharge modules, and further comprising an adjustment module comprising a support bracket and a plurality of sliding brackets, the sliding brackets being arranged side-by-side and slidably mounted on the support bracket, the needle electrode and the mesh electrode being mounted on the corresponding sliding brackets.

5. The ion air supply module of claim 4, wherein the support bracket is further provided with a plurality of rotatable adjusting screws, and the adjusting screws are in threaded connection with the corresponding sliding brackets and are used for driving the sliding brackets to move.

6. The ion air supply module of claim 4, wherein the support bracket is further provided with a guide rod for guiding the sliding bracket to slide.

7. The ion air supply module of claim 4, wherein a fixing bracket is arranged at one end of the supporting bracket, and the needle electrode or the mesh electrode is mounted on the fixing bracket.

8. A method of servicing an ion blower module as claimed in any one of claims 1 to 7, comprising: and detaching the damaged needle assembly from the mounting bracket, replacing the damaged discharge needle in the detached needle assembly with a new discharge needle, and finally, reinstalling the needle assembly on the mounting bracket.

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