CN219792502U

CN219792502U - Insulating member for ozone generator

Info

Publication number: CN219792502U
Application number: CN202321202875.0U
Authority: CN
Inventors: 王玉玺
Original assignee: Shandong Huanghai Intelligent Equipment Co ltd
Current assignee: Shandong Huanghai Intelligent Equipment Co ltd
Priority date: 2023-05-17
Filing date: 2023-05-17
Publication date: 2023-10-03
Anticipated expiration: 2033-05-17

Abstract

The utility model discloses an insulating part for an ozone generating device, which mainly relates to energy conservation of an internal combustion engine. The insulating pieces are arranged at two ends of the negative electrode connecting piece in a matching way, and the insulating pieces are used for supporting the positive electrode connecting piece of the ozone generating device; the insulating part is provided with an air inlet, a connecting hole is formed in the circle center of the insulating part, the positive electrode connecting part is sleeved in the connecting hole of the insulating part, and the positive electrode connecting part limits the two insulating parts at two ends of the negative electrode connecting part. The utility model has the beneficial effects that: be used for in the ozone generating device, keep fixed to ozone generating device's the positive, clearance between the negative pole connecting piece, this device and positive pole connecting piece can be spacing at negative pole connecting piece both ends well through simple screw-thread fit, do not change the structure of negative pole connecting piece simultaneously, guaranteed the homogeneity of the inside field intensity of negative pole connecting piece, avoid the negative pole connecting piece circular telegram back because overall shape distributes unevenly and leads to inside inhomogeneous.

Description

Insulating member for ozone generator

Technical Field

The utility model relates to the field of energy conservation of internal combustion engines, in particular to an insulating part for an ozone generating device.

Background

The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.

The ozone generating device is a combustion supporting device arranged in the air inlet pipeline of the internal combustion engine, and ionizes air in the air inlet pipeline of the internal combustion engine through high pressure to generate ozone, so that the oxygen content of the ozone is higher, and the fuel oil of the internal combustion engine is combusted more fully. In the ozone generator, a high voltage is applied to both ends of the ozone generator, and the high voltage current flows through the ozone generating sheet to generate a strong electric charge on the ozone generating sheet, thereby ionizing air flowing through the ozone generator.

The structure of the ozone generating device is shown in figures 4 and 5 of the specification, the ozone generating device comprises a positive electrode connecting piece, a negative electrode connecting piece and an ozone generating piece arranged on the positive electrode connecting piece, when the ozone generating device ionizes, a stable distance needs to be kept between the ozone generating piece and the negative electrode connecting piece, if the ozone generating piece cannot be kept stable between the ozone generating piece and the negative electrode connecting piece, the ozone generating amount of the ozone generating device can be influenced, the combustion-supporting effect and the stability in the running process of a vehicle are influenced, and an insulating piece is needed for the problem. For the insulating part, besides the stable distance between the supporting and limiting ozone generating piece and the negative electrode connecting piece, the insulating part is required to be insulated, and the phenomenon of short circuit can occur after the positive electrode connecting piece and the negative electrode connecting piece of the ozone generating device are communicated, so the insulating part is required to be insulated.

For the connection between the insulator and the negative electrode connector of the ozone generating device, the connection between the insulator and the negative electrode connector is made by threads or nuts, but for the above method, the structure of the negative electrode connector is changed, so that the internal field intensity of the ozone generating device is uneven, the ozone generating amount is reduced, and a better fixing mode is needed for connecting the insulator and the negative electrode connector.

Disclosure of Invention

The utility model aims to provide an insulating part for an ozone generating device, which is used in the ozone generating device, and is used for keeping a gap between an anode connecting part and a cathode connecting part of the ozone generating device fixed.

The utility model aims to achieve the aim, and the aim is achieved by the following technical scheme:

the insulating parts are arranged at two ends of the negative electrode connecting part in a matching way, and are used for supporting the positive electrode connecting part of the ozone generating device; the insulating part is provided with an air inlet, a connecting hole is formed in the circle center of the insulating part, the positive electrode connecting part is sleeved in the connecting hole of the insulating part, and the positive electrode connecting part limits the two insulating parts at two ends of the negative electrode connecting part.

One side of the insulating piece, which is contacted with the negative electrode connecting piece, is provided with a limiting bulge, and the limiting bulge is matched with the inner diameter of the negative electrode connecting piece.

The shape of the insulating piece is matched with the excircle of the negative electrode connecting piece.

The insulating piece is made of insulating materials.

Compared with the prior art, the utility model has the beneficial effects that:

be used for in the ozone generating device, keep fixed to the positive and negative pole connecting piece clearance of ozone generating device, this device can be spacing at negative pole connecting piece both ends well through simple screw-thread fit with positive pole connecting piece, does not change the structure of negative pole connecting piece simultaneously, has guaranteed the homogeneity of the inside field intensity of negative pole connecting piece, avoids the negative pole connecting piece circular telegram back because the overall shape distributes unevenly and leads to inside inhomogeneous for ozone generation volume reduces, thereby has ensured ozone generating device overall structure's stability.

Drawings

FIG. 1 is a schematic view of an ozone generating device according to the present utility model.

Fig. 2 is a view of an ozone generating device in the present utility model.

Fig. 3 is a view showing the connection of the insulating member to the positive electrode connecting member in the present utility model.

Fig. 4 is a cross-sectional view of an ozone generating device in the present utility model.

Fig. 5 is an internal view of the connection of the insulator to the ozone generating device in the present utility model.

Fig. 6 is a view of an insulator according to the present utility model.

The reference numbers shown in the drawings:

1. an insulating member; 2. a negative electrode connecting member; 3. a positive electrode connecting member; 4. an air inlet; 5. a connection hole; 6. a limit protrusion; 7. an ozone generating sheet; 8. a connecting column; 9. a spacer ring; 10. and a limiting piece.

Detailed Description

The utility model will be further illustrated with reference to specific examples. It is to be understood that these examples are illustrative of the present utility model and are not intended to limit the scope of the present utility model. Further, it will be understood that various changes and modifications may be made by those skilled in the art after reading the teachings of the utility model, and equivalents thereof fall within the scope of the utility model as defined by the claims.

In order to better describe the function of the insulator 1, the utility model is described in brief by first describing the ozone generator:

as shown in fig. 2 to 5 of the drawings, the ozone generating device comprises a negative electrode connecting piece 2, insulating pieces 1 arranged at two ends of the negative electrode connecting piece 2, a positive electrode connecting piece 3 arranged inside the negative electrode connecting piece 2, and a plurality of ozone generating pieces 7 arranged on the positive electrode connecting piece 3 at equal intervals;

the positive and negative poles of the power supply of the internal combustion engine are connected with a booster circuit, and the booster circuit is connected with the positive and negative pole connecting pieces 2 of the ozone generating device. The negative electrode connecting piece 2 is cylindrical, and a connecting piece (a bolt on the outer wall of the negative electrode connecting piece 2) is arranged on the negative electrode connecting piece 2 and used for connecting a terminal of a negative electrode of the booster circuit. The positive electrode connecting piece 3 comprises a connecting column 8, a plurality of isolating rings 9 which are arranged on the connecting column 8 at equal intervals, and an ozone generating sheet 7 which is arranged on one side of each isolating ring 9; the connecting column 8 is connected with the positive pole of a high-voltage driving circuit of the circuit control system, and the isolating ring 9 is used for dividing the ozone generating sheet 7. The ozone generating piece 7 is used as a core component of the ozone generating device and is mainly used for ionizing air according to a corona discharge principle, the size of a gap between the tip of the ozone generating piece 7 and the inner wall of the negative electrode connecting piece 2 determines the generation amount of ozone generated by the ozone generating device, and if the insulation piece 1 has poor supporting and limiting effects on the positive electrode connecting piece 3, the change of the size of the gap between the tip of the oxygen generating piece and the inner wall of the negative electrode connecting piece 2 is caused, so that the generation amount of ozone generated by the ozone generating device is influenced. For this, the insulator 1 is required to support and limit, and the following is the structure of the insulator 1:

as shown in fig. 5 of the specification, the insulating pieces 1 are arranged at two ends of the negative electrode connecting piece 2 in a matching way, the shape of each insulating piece 1 is matched with the excircle of the negative electrode connecting piece 2, a connecting hole 5 is formed in the circle center position of each insulating piece 1, the positive electrode connecting piece 3 is sleeved in the connecting hole 5 of each insulating piece 1, and the positive electrode connecting pieces 3 limit the two insulating pieces 1 at two ends of the negative electrode connecting piece 2. The insulating member 1 is used to separate and support the positive electrode connecting member 3 and the negative electrode connecting member 2 such that the positive electrode connecting member 3 (ozone generating sheet 7) and the negative electrode connecting member 2 maintain a fixed gap, and a short circuit phenomenon occurs after the positive electrode connecting member 3 contacts with the negative electrode connecting member 2 such that the ozone generating device cannot ionize air, so the insulating member 1 must be an insulating material.

The terminal threaded connection of the connecting column 8 of the positive electrode connecting piece 3 is provided with a limiting piece 10, the limiting piece 10 is a nut, the connecting column 8 and the limiting piece 10 limit (fasten) the insulating piece 1 on the negative electrode connecting piece 2 through a thread drawing, and only the limiting is performed through the fastening force between the limiting piece 10 and the connecting column 8, so that only the limiting piece 10 is limited along the displacement direction of the connecting column 8, or the displacement between the insulating piece 1 and the negative electrode connecting piece 2 along the radial direction of the insulating piece 1 is caused, and further improvement is needed:

as shown in fig. 3, 5 and 6 of the accompanying drawings, the insulating part 1 is provided with a limiting protrusion 6, the limiting protrusion 6 is matched with the inner diameter of the negative electrode connecting part 2, the limiting protrusion 6 is limited by the shape of the inner diameter of the negative electrode connecting part 2, the limiting protrusion 6 is limited in the negative electrode connecting part 2, the insulating part 1 is limited at two ends of the negative electrode connecting part 2 through threaded fit between the connecting column 8 and the limiting part 10, and the isolating ring 9 and the ozone generating sheet 7 on the connecting column 8 are limited on the connecting column 8, so that the insulating part 1 and the ozone generating sheet 7 cannot displace relative to the negative electrode connecting part 2. Meanwhile, after the limiting bulge 6 is added to the insulating piece 1, the limiting bulge 6 is matched with the inner diameter of the negative electrode connecting piece 2 in shape, the insulating piece 1 and the positive electrode connecting piece 3 are matched to be well limited at two ends of the negative electrode connecting piece 2, meanwhile, the structure of the negative electrode connecting piece 2 is not changed, the uniformity of the internal field intensity of the negative electrode connecting piece 2 is guaranteed, and the phenomenon that the internal is uneven due to uneven overall shape distribution after the negative electrode connecting piece 2 is electrified is avoided, so that the ozone generation amount is reduced.

As shown in fig. 1 of the accompanying drawings, a factor affecting the ozone generating amount generated by the ozone generating device is the air flow rate flowing through the ozone generating device, because the ozone generating device is arranged in the air inlet pipeline of the internal combustion engine, a large amount of oxygen is consumed when the fuel oil of the internal combustion engine burns, and the outside air enters the internal combustion machinery from the air inlet pipeline of the internal combustion engine, so that when the ozone generating device flows through the ozone generating device, the ozone is generated after the ozone generating device ionizes the air, when the air inflow is reduced after the insulator 1 blocks the outside air greatly, the ozone generating amount is reduced, and the insulator 1 is provided with an air inlet 4, so that the insulator 1 is ensured to reduce the outside air flow blocking as far as possible on the premise of keeping the structural stability of the insulator 1.

To sum up, this device is used for in the ozone generating device, to ozone generating device's positive, negative pole connecting piece 2 between the clearance keep fixed, this device and positive pole connecting piece 3 can be spacing at negative pole connecting piece 2 both ends well through simple screw-thread fit, do not change the structure of negative pole connecting piece 2 simultaneously, guaranteed the homogeneity of the inside field intensity of negative pole connecting piece 2, avoid negative pole connecting piece 2 circular telegram back because the uneven inside that leads to of overall shape distribution for ozone generation volume reduces, thereby ensured ozone generating device overall structure's stability.

Claims

1. The insulating parts (1) are arranged at two ends of the negative electrode connecting part (2) in a matching way, and the insulating parts (1) are used for supporting the positive electrode connecting part (3) of the ozone generating device;

the method is characterized in that: the insulating part (1) is provided with an air inlet (4), a connecting hole (5) is formed in the center of the insulating part (1), the positive electrode connecting part (3) is sleeved in the connecting hole (5) of the insulating part (1), and the positive electrode connecting part (3) limits the two insulating parts (1) at two ends of the negative electrode connecting part (2).

2. The insulator for an ozone generating apparatus according to claim 1, wherein: one side of the insulating piece (1) contacted with the negative electrode connecting piece (2) is provided with a limiting bulge (6), and the limiting bulge (6) is matched with the inner diameter of the negative electrode connecting piece (2).

3. The insulating member for an ozone generating device according to claim 1 or 2, wherein: the shape of the insulating piece (1) is matched with the excircle of the negative electrode connecting piece (2).

4. An insulator for an ozone generating apparatus according to claim 3, wherein: the insulating piece (1) is made of insulating materials.