CN103803497A - Double-layer wind cover ozone generating device - Google Patents

Abstract

The present invention aims to provide an ozone generating device with a double-layer air-encapsulated cover that increases the amount of ozone generation, achieves good heat dissipation effect, and reduces power consumption. The present invention comprises air-enclosing cover, anion generating sheet and cooling fin, and negative ion generating sheet is symmetrically arranged on both sides of the upper and lower sides of cooling sheet, is respectively provided with air-enclosing cover on the outside of each anion generating sheet, each air-enclosing cover and corresponding The sides of the cooling fins are fixedly connected to form a sealed space, and there is a space between the negative ion generating sheet and the corresponding air-encapsulating cover for the circulation of the air flow, and each air-enclosing cover is respectively provided with an air inlet and an air outlet. The present invention adopts the above technical scheme, which obviously improves the ozone generation efficiency, has good heat dissipation performance, and low power consumption, reaches the required value of the ozone-promoted combustion theory, and has outstanding practicability and extensive popularization value.

Description

Double-layer wind cover ozone generator

technical field

The invention relates to the technical field of internal combustion engines, in particular to an ozone generating device for a double-layer air-encapsulated cover for an internal combustion engine fuel economizer.

Background technique

As the society's non-renewable resources are decreasing day by day, reducing the energy consumption of the internal combustion engine, which is one of the main mechanical equipment that consumes petroleum resources, has become an urgent problem to be solved in the world at this stage. The problem of reducing energy consumption, and the theory of using the principle of ozone to make the fuel fully combustible is one of the good solutions. In this process, a device is needed, that is, an ozone generator. The current ozone generator produces ozone. Low, poor heat dissipation performance, high power consumption, can not meet the theoretical requirements for fully providing ozone, so a technical solution is urgently needed to solve this technical problem.

Contents of the invention

The present invention aims to provide an ozone generating device with a double-layer air-encapsulated cover that increases the amount of ozone generation, achieves good heat dissipation effect, and reduces power consumption.

In order to achieve the above object, the technical scheme adopted in the present invention is: the present invention comprises air-encapsulating cover, anion generating sheet and cooling fin, and the upper and lower sides of the cooling fin are symmetrically provided with anion generating sheet, and the outer sides of each anion generating sheet are respectively provided with There is an air cover, and each air cover is fixedly connected to the side of the corresponding heat sink to form a sealed space. There is a space between the negative ion generating sheet and the corresponding air cover for the circulation of the air flow. Each air cover is respectively There are air inlet and air outlet.

Two sealed spaces are created between the double-layer air-encapsulating cover and the heat sink, which improves the efficiency of ozone generation without increasing the use volume. In addition, the "back" shape design of the heat sink provides better heat dissipation for the entire device. Assure. The whole structure of the present invention is a cube-shaped structure, and the internal negative ion generating sheet is not in direct contact with the air-encapsulating cover, which ensures the direct contact between the negative ion generating sheet and the air, improves the efficiency of ozone generation, and the fan makes the ozone in the sealed space be discharged in time , participate in the full combustion of fuel in the internal combustion engine, and at the same time, the setting of the fan and the heat sink all play a role in cooling, which solves the problems of the reduction of ozone production rate and the increase of electric energy consumption due to high temperature.

A positioning protrusion is provided at the lower end of the air-encapsulating cover, and a positioning groove is provided around the heat sink, and the positioning protrusion is inserted into the positioning groove. The middle of the heat sink is provided with front and rear through heat dissipation holes.

Positioning holes are arranged at intervals on the negative ion generating sheet, which ensures that the present invention can be installed quickly and conveniently, and ensures production efficiency.

At least one air inlet hole and air outlet hole are respectively arranged on each air bag cover. The air inlet hole and the air outlet hole are arranged on the diagonal line of the air bag cover.

The air-encapsulating cover is rectangular, and the anion generating fins and cooling fins are both rectangular, and the rectangular design is convenient for installation with the matching fuel economizer.

The size of the negative ion generating sheet is smaller than the size of the heat sink and the air-encapsulating cover.

The bolt connection between the wind cover and the heat sink is convenient for later maintenance.

The two side surfaces of the negative ion generating sheet are respectively provided with grid protrusions in an array, and rectangular grooves are arranged around the grid protrusions.

The present invention adopts the above technical scheme, which obviously improves the ozone production efficiency, has good heat dissipation performance, and low power consumption, reaches the required value of the ozone-promoted combustion theory, and has outstanding practicability and extensive popularization value.

Description of drawings

Fig. 1 is a schematic diagram of an overall structural decomposition of the present invention;

Figure 2 is a schematic diagram of the overall structure of Embodiment 1 of the present invention;

Fig. 3 is a schematic diagram of the structure of the wind cover in Example 2 of the present invention;

Fig. 4 is a schematic diagram of the structure of the wind cover in Example 3 of the present invention;

Fig. 5 is a schematic diagram of the structure of the wind cover according to Embodiment 4 of the present invention.

In the figure: 1-wind cover; 2-negative ion generating sheet; 3-radiating sheet;

101-air intake hole; 102-air outlet hole; 103-positioning protrusion;

201-positioning hole;

301-positioning groove; 302-radiation hole.

Detailed ways

The present invention will be further described below in conjunction with the accompanying drawings.

Example 1

As shown in Fig. 1 and Fig. 2, the double-layer air-encapsulating cover ozone generating device of the present invention comprises an air-enclosing cover 1, anion generating sheets 2 and cooling fins 3, and the described air-enclosing cover 1 is a rectangle, and the heat-dissipating fins 3 Negative ion generating sheets 2 are symmetrically arranged on the upper and lower sides, and an air-enclosing cover 1 is respectively arranged on the outside of each anion generating sheet 2, and each air-enclosing cover 1 is fixedly connected with the corresponding heat sink 3 sides to form a sealed space, and the anion generating sheet 2 and the corresponding air-enclosing cover 1 leave a space for the circulation of air flow, and each air-enclosing cover 1 is respectively provided with an air inlet 101 and an air outlet 102, and the air inlet 101 and the air outlet 102 are arranged on On the diagonal of wind cover 1. A heat dissipation hole 302 is provided in the middle of the heat dissipation fin 3 .

A positioning protrusion 103 is provided at the lower end of the air-encapsulating cover 1 , and a positioning groove 301 is provided around the heat sink 3 , and the positioning protrusion 103 is inserted into the positioning groove 301 . The negative ion generating sheet 2 is provided with positioning holes 201 at intervals. The wind cover 1 and the cooling fin 3 are connected by bolts.

The present invention is installed, and placed into the inside of the fuel economizer that is matched with it, a fan is installed at the air intake hole 101, the negative ion generating sheet 2 and the air fan are powered on, the whole device enters the working state, and the high temperature generated by the negative ion generating sheet 2 works It will be discharged together with the ozone along with the blowing of the blowing fan, and the heat sink 3 will also conduct and dissipate the heat inside the entire ozone generating device.

Example 2

As shown in Figure 3, the air intake hole 101 and the air outlet hole 102 on the air cover 1 of the present invention can be provided with one air intake hole 101 and three air outlet holes 102 on the four corners of the air cover cover. The car model chooses different wind cover 1.

Others are with embodiment 1.

Example 3

As shown in Fig. 4, the air inlet hole 101 and the air outlet hole 102 on the air bag cover 1 of the present invention can be respectively provided with two air inlet holes 101 and two air outlet holes 102 on the four corners of the air bag cover, according to Different car models select different wind cover 1 .

Others are with embodiment 1.

Example 4

As shown in Figure 5, the air inlet 101 and the air outlet 102 on the air-encapsulation cover 1 of the present invention can be respectively provided with three air inlets 101 and one air outlet 102 on the four corners of the air-inclusion cover, according to Different car models select different wind cover 1 .

Others are with embodiment 1.

Claims (8)

1. A double-layer wind cover ozone generator, comprising wind cover (1), negative ion generating sheet (2) and heat sink (3), is characterized in that: the upper and lower sides of heat sink (3) are symmetrically arranged The negative ion generating sheets (2) are provided with air-enclosing covers (1) on the outside of each anion generating sheet (2), and each air-enclosing cover (1) is fixedly connected to the side of the corresponding heat sink (3) to form a sealed space , there is a space between the negative ion generating sheet (2) and the corresponding air-encapsulating cover (1) for the circulation of airflow, and each air-enclosing cover (1) is respectively provided with an air inlet (101) and an air outlet ( 102). 2. The ozone generating device with a single-layer air-enclosing cover according to claim 1, characterized in that: the lower end of the air-enclosing cover (1) is provided with a positioning protrusion (103), and the periphery of the cooling fin (3) is provided with a positioning concave slot (301), and the positioning protrusion (103) is plugged into the positioning groove (301). 3. The single-layer air-enclosing cover ozone generator according to claim 1, characterized in that: the negative ion generating sheet (2) is provided with positioning holes (201) at intervals. 4 . The single-layer air-enclosing cover ozone generator according to claim 1 , characterized in that: each air-enclosing cover ( 1 ) has at least one air inlet ( 101 ) and air outlet ( 102 ) respectively. 5. The single-layer air-encapsulating cover ozone generator according to claim 4, characterized in that: the air-enclosing cover (1) and the cooling fin (3) are connected by bolts. 6. The single-layer air-enclosing cover ozone generator according to claim 1, characterized in that: the air-enclosing cover (1) is rectangular. 7. The single-layer air-enclosing cover ozone generator according to claim 6, characterized in that: the air inlet (101) and the air outlet (102) are arranged on the diagonal of the air-enclosing cover (1). 8. The single-layer air-enclosing cover ozone generator according to claim 1, characterized in that: a cooling hole (302) passing through the front and back is provided in the middle of the cooling fin (3).

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