WO2014008834A1

WO2014008834A1 - Plasma reactor

Info

Publication number: WO2014008834A1
Application number: PCT/CN2013/078888
Authority: WO
Inventors: 罗炳灿
Original assignee: 浙江佩洁尔医疗科技有限公司
Priority date: 2012-07-13
Filing date: 2013-07-05
Publication date: 2014-01-16
Also published as: CN102743784B; CN102743784A

Abstract

A plasma reactor comprises a frame-type mounting support (1) and a plurality of basic discharging units mounted on the support. The basic discharging unit comprises at least one electrode board (2) serving as a discharging negative electrode, and at least one titanium strip (3) is placed on at least one side of the electrode board to serve as a discharging positive electrode. Prongs or tips right facing a panel of the electrode board (2) on the corresponding side are disposed on both left and right sides of the titanium strip (3). Two ends of the electrode board (2) are fixed on two side boards of the mounting support (1) through rivets (6), and two ends of the titanium strip (3) are fixed on a mounting board (7). The mounting board (7) is mounted on the two side boards of the mounting support (1) through two insulation fixing seats (8).

Description

Plasma reactor

Technical field

The utility model relates to a plasma reactor capable of generating plasma for sterilization and purification, belonging to a device integrating sterilization, sterilization and purification.

Background technique

At present, an apparatus for performing air sterilization and purification using a discharge-generating plasma is widely used in hospitals and schools, and its basic structure is mainly composed of a discharge wire or a metal rack as an anode and an electrode plate as a cathode, which are formed by being electrically connected to each other. Discharge occurs on the two poles and a plasma is generated, which is circulated in a certain space by performing continuous circulation similar to a separate or air-conditioning mechanism. However, the above-mentioned plasma reactor uses a conventional metal material to make a discharge wire or a metal rack, such as a stainless steel rack or a stainless steel wire; in actual use, we find that the wire or the metal rack is passing through. After high-voltage discharge, it is easy to produce certain melting and loss, especially the metal rack will produce Fe ₂ 0 ₃ and other particulate matter; in addition, after the high-voltage discharge of the wire, the internal structure is easy to change, resulting in lower stability, including It produces softness, which affects the subsequent discharge effect and service life.

In the prior art plasma reactor, a basic unit composed of a discharge wire or a metal rack and an electrode plate is mounted in a casing. This mounting structure is easy to cause a fixed fixing, poor insulation, and inconvenience in installation and maintenance. The safety hazard is serious, which reduces its service life and increases the cost of use, which has a negative impact on large-scale promotion and application.

Summary of the invention

The purpose of the utility model is to overcome the deficiencies of the prior art, and to provide a reasonable and compact structure, convenient and reliable to use, stable performance, good safety, long service life and good plasma reaction. Device.

The object of the present invention is achieved by the following technical solution, which comprises at least a frame mounting bracket on which a plurality of basic discharge units composed of positive and negative electrodes are mounted, and the basic discharge unit includes at least An electrode plate serves as a discharge negative electrode, and at least one titanium rack or a titanium needle strip made of a titanium strip is placed on at least one side of the electrode plate as a discharge positive electrode.

The basic discharge unit is composed of two flat electrode plates and at least two titanium racks or titanium needle bars arranged in parallel in the upper and lower directions between the two electrode plates, and the titanium rack or the titanium needle bar is left and right. Both sides are provided with a tooth tip or a needle tip, and the tooth tips or needle tips on both sides face the electrode plate surface of the corresponding side.

The two ends of the electrode plate are respectively fixed on the mounting bracket by a baffle, and the two ends of the titanium rack or the titanium pin bar are respectively fixed on a mounting plate, and the mounting plate is installed on at least two insulating fixing seats. The mounting bracket or plate.

The insulating fixing seat is composed of a polytetrafluoroethylene block or a polytetrafluoroethylene sleeve coated in the ceramic block, and the titanium rack has a thickness of (105-1.5 mm, or the diameter of the titanium needle on the titanium needle bar is 0. 1 5mm. The electrode plate is provided with at least three fixing holes. After the plurality of electrode plates are evenly arranged in the frame mounting bracket, the expansion tube is inserted into the fixing hole and then fixed by the expansion tube, and the two ends of the expansion tube are fixed. They are respectively fixed on the mounting bracket or the pole plate; the mounting bracket or the pole plate is respectively mounted with two left and right symmetrical mounting brackets or plate plates by the insulating fixing seat, and the two ends of the shank or the shank It is fixed on the mounting plate.

One end of the titanium rack or the titanium needle strip is fixed on the one side mounting plate by using the outer head large or small or the metal hole at the end punching hole - Ξ: angle or flat square hole pulling manner, the other end After punching, the metal rod is connected and then pulled straight and pulled on the other side of the mounting plate by spring pulling or pulling.

The insulating holder is composed of a polytetrafluoroethylene block or a polytetrafluoroethylene sleeve coated in the ceramic block, the titanium rack has a thickness of 0.05 1,5 mm, or the diameter of the titanium needle on the needle bar is 0. , 1 5

The spacing between the tip of the titanium rack or the titanium needle bar or the tip of the needle is 4-10 mm, and the tip or the tip of the titanium rack or the titanium needle strip are misaligned, the titanium rack or the titanium needle The arrangement of the strips is 20-35 mm; the cathode electrode plate is made of titanium plate or stainless steel plate, and the thickness thereof is 0.2-1.5 mm, the tip of the titanium strip of the positive electrode discharge or the tip of the titanium needle bar or the tip of the needle and the negative electrode plate The spacing between 6-12 m

The utility model uses a titanium plate (or a titanium needle) to prepare a plasma discharge anode, which has the generated plasma (concentration), high electron density, good stability, safety and reliability, long service life, and harmful microorganisms and organic substances in the ionized air. The material has strong purification and disinfection effect, and can be widely used in medical and health, food and pharmaceutical, air conditioning and fan, public transportation and various fields of air purification and disinfection; it has reasonable structure, compact, easy to use and reliable, in use The performance is stable, the safety is good, the two lifespans are long, and the effect of ^! is good.

DRAWINGS

Figure 1 is a schematic view of a new structure of the present ffl.

Fig. 2 is a schematic view showing the mounting structure of the titanium rack or the titanium needle bar shown in Fig. 1.

Fig. 3 is a schematic view showing another structure of the novel type 3⁄4.

Fig. 4 is a schematic view showing the fixing structure of the other side of the titanium rack or the titanium needle bar shown in Fig. 3.

Figure 5 is an exploded perspective view of the structure shown in Figure 34.

Fig. 6 is a schematic structural view of a titanium needle bar according to the present invention.

detailed description

The present invention will be described in detail with reference to the accompanying drawings: Figure 1 2 shows a plasma reactor according to the present invention, which comprises at least a frame mounting bracket 1 in which a plurality of mounting brackets are mounted. a basic discharge unit composed of positive and negative electrodes, the basic discharge unit comprising at least one electrode plate 2 as a discharge negative electrode, and at least one titanium tooth made of titanium strip is placed on at least one side of the electrode plate 2 Strip 3 or titanium needle strip is used as the discharge positive electrode. This is a new type of positive discharge titanium rack 3 or titanium needle strip which uses a silicon plate to fabricate a plasma reactor. Its remarkable advantages are: It can not be _{worn out} at a high temperature discharge state for a long time, and does not produce _Fe2 o ₃ And other particulate matter, stable plasma discharge ionization and other effects, making it longer life, greatly reducing the use and maintenance costs, eliminating safety hazards. The basic discharge unit shown in the drawing consists of two flat electrode plates 2 and at least two titanium racks 3 or titanium needle bars arranged in parallel in the upper and lower directions between the two electrode plates 2, the titanium racks The left and right sides of the 3 are provided with a tooth shape, and the tooth tips 4 on both sides of the teeth are respectively opposite to the plate surface of the electrode plate 2 on the corresponding side; or the titanium needle bar as shown in FIG. 6 is used, and the titanium strip is in the middle The plate 61 is provided with titanium needles 62 on both sides, and the needle tips of the titanium needles are respectively opposite to the plate faces of the electrode plates 2 on the corresponding sides; the titanium needles may be fixed to the strip-shaped titanium plates one by one. It can also be processed in one piece.

The two ends of the electrode plate 2 are respectively fixed on the mounting bracket 1 , and the plurality of electrode plates 2 are arranged in parallel in the mounting bracket 1 , and at least two are placed up and down in the middle of each of the two electrode plates 2 . a titanium rack 3 or a titanium needle strip, the two ends of the titanium rack 3 or the titanium needle strip are respectively fixed on a mounting plate 1 by rivets 6, and the mounting plate 7 is installed by at least two insulating fixing seats 8 On the mounting bracket or plate 1, the mounting structure of the electrode plate 2 and the titanium rack 3 or 3⁄4 needle bar is suitable for a small plasma reactor.

The insulating holder 8 is composed of a Teflon block 81 or a Teflon sleeve 82 nested inside and outside a ceramic block 81. The PTFE material is used or the polymer is nested inside and outside the ceramic material. The insulating holder 8 made of a tetrafluoroethylene material has the advantages of: no breakdown, short circuit, burning and burnt odor between the positive electrode and the negative electrode in a high-voltage discharge and a dusty and humid environment for a long time, and 5 5。 The thickness of the titanium rack 3 is 0.05 - 1.5mm, or the diameter of the titanium needle on the titanium needle is 0. 1 5TM. The main difference between the structure shown in Figs. 3, 4, and 5 and that of Fig. 1 is the mounting structure of the electrode plate 2 and the titanium rack 3 or the titanium needle bar. Therefore, the following embodiment will detail the electrode plate 2 and the titanium rack 3 Or the installation structure of the needle bar is dominant.

3, 4, and 5 are schematic views showing another embodiment of the inverted structure of the present invention. The electrode plate 2 is provided with four fixings arranged in the upper, lower, left and right directions. L, after the plurality of electrode plates are evenly arranged in the frame mounting bracket 1, the four expansion tubes 9 are inserted into the fixing holes, and then positioned and fixed on the rising tube 9 by the expansion tube method. The two ends are respectively fixed on the mounting bracket or the pole plate 1; on the corresponding left and right sides (opposing) of the mounting bracket or the pole plate 1, a mounting plate 7 is further mounted on the permanent fixing base 8 respectively, the titanium rack 3 Or both ends of the titanium needle bar are respectively fixed to the left and right mounting plates 7.

As shown in the figure, one end of the hinged rack 3 or the titanium needle strip adopts an outer head large and small through the correspondingly disposed on the mounting plate 7: a triangular or flat square hole is rotated and fixed to the one side mounting plate 7 Or, the hole is punched at the end and the corresponding mounting hole is worn on the 31 mounting plate, and then fastened to the one side mounting plate 7 by the metal rod 10; the other end of the titanium rack 3 or the titanium needle strip is used. After the hole passes through the mounting plate, the corresponding mounting hole is connected with the metal ff, and then straightened and pulled straight on the other side mounting plate 7 by spring pulling or straight pulling. The spring is generally formed by a spring piece, and other common spring products may be selected according to specific conditions.

Similarly, the mounting plate 7 is fixedly mounted on the mounting bracket or the plate 1 by an insulating bracket 8 formed of a Teflon block 81 or a Teflon sleeve 81 embedded inside and outside a ceramic block 81. L—5毫米。 The titanium bar 3 has a thickness of 0.05-1.5mm; or titanium needle diameter of the titanium needle is 0. l - 5mm.

The arrangement pitch of the tip or the tip of the titanium rack 3 or the titanium needle bar is 4 - IQmm, the titanium rack 3 or the titanium needle strip The tip or the tip of the left and right sides are respectively dislocated, and if they are arranged correspondingly, they should be arranged in a misaligned arrangement, and the arrangement pitch of the titanium rack 3 or the titanium needle bar is 20-35 mm; the cathode electrode plate 2 is adopted. The titanium plate or the stainless steel plate has a thickness of 0, 2 - 1.Smm, the tooth tip of the positive electrode discharge titanium rack 3 or the titanium needle bar or the distance between the needle tip and the negative electrode plate is 6 - 12 mm.

Claims

A plasma reactor, which at least includes a frame-type mounting bracket, on which a plurality of basic discharge units composed of positive and negative electrodes are installed, characterized in that the basic discharge unit includes at least one electrode plate as As for the discharge negative electrode, at least one titanium gear rack or titanium needle bar made of titanium strips is placed flat on at least one side of the electrode plate as the discharge positive electrode.

2. The plasma reactor according to claim 1, characterized in that the basic discharge unit consists of two flat electrode plates and at least two titanium teeth arranged in parallel up and down and located between the two electrode plates. The left and right sides of the titanium rack or titanium needle bar are provided with tooth tips or needle tips, and the tooth tips or needle tips on both sides are respectively facing the electrode plate surface on the corresponding side.

3. The plasma reactor according to claim 1 or 2, characterized in that both ends of the electrode plate are fixed on the mounting bracket with rivets, and both ends of the titanium rack or titanium needle bar are fixed respectively. On a mounting plate, and the mounting plate is installed on the mounting bracket or pole plate through at least two insulating fixing seats.

4. The plasma reactor according to claim 3, characterized in that the insulating fixing base is made of polytetrafluoroethylene

The thickness of the titanium rack is 0.0S-1.5mm, or the diameter of the titanium needles on the titanium needle bar is 0.15

5. The plasma reactor according to claim 1 or 2, characterized in that the electrode plate is provided with at least three fixing holes. After the plurality of electrode plates are evenly arranged in the frame mounting bracket, an expansion tube is used to After being inserted into the fixing hole, it is fixed by expanding the tube, and the two ends of the expanded tube are respectively fixed on the mounting bracket or the pole plate; the mounting bracket or the pole plate are respectively installed with two symmetrical left and right pieces using insulating rings. A mounting bracket or pole plate, and both ends of the titanium rack or titanium needle bar are respectively fixed on the mounting plate.

6-, The plasma reactor according to claim 5, characterized in that one end of the titanium rack or titanium needle bar adopts a large outer end and a small inner end or is punched at the end? L is passed through with a metal rod: the triangular or flat square hole hanging structure is fixed on one side of the mounting plate, the other end is drilled and connected with a metal rod, and then straightened and tightened by spring top pulling or elastic pulling. Mounting plate on the other side

7. The plasma reactor according to claim 5, characterized in that the insulating fixed seat is composed of a polytetrafluoroethylene block or a ceramic block with a polytetrafluoroethylene sleeve, and the thickness of the titanium rack is 0,05- · 1.5mm, or the titanium needle diameter on the titanium needle bar is 0. 1-5

8. The plasma reactor according to claim 4 or 7, characterized in that the arrangement spacing between the tooth tips or needle tips of the titanium rack or titanium needle bar is 4 to 10 mm, and the left and right sides of the titanium rack or titanium needle bar The tooth tips or needle tips on both sides are dislocated, and the arrangement spacing of the titanium racks or titanium needle bars is 20-35mm; the cathode electrode plate is made of ffl titanium plate or stainless steel plate, with a thickness of 0.2~~1.5mm, and the positive electrode The distance between the tooth tip or needle tip of the discharged titanium rack or titanium needle bar and the negative electrode plate is 6-12mm