CN215890251U - Discharge needle type energy-saving emission-reducing combustion-supporting device - Google Patents

Abstract

The utility model discloses a discharge needle type energy-saving emission-reducing combustion-supporting device, which relates to the technical field of internal combustion engines and comprises an outer cylinder, wherein two sides of the outer cylinder are respectively connected with a first connecting cylinder and a second connecting cylinder, the outer surface of the first connecting cylinder is provided with an air inlet, the outer surface of the second connecting cylinder is provided with an air outlet, the inner side of the outer cylinder is provided with a discharge purification component, the inner side of the first connecting cylinder is provided with a variable-frequency variable-voltage controller, the device introduces positive electrode high-voltage current through three conductive alloy screws and a discharge brush, is connected with three negative electrode alloy cylinders through a first connecting cylinder and a conductive connecting sheet and inputs negative electrode high-voltage current, the conductive alloy screw and the discharge brush form point discharge to generate a large amount of negative oxygen ion gas, and the negative oxygen ion gas enters a combustion chamber along with an air inlet system of an engine to support combustion, the fuel is more thoroughly combusted, the combustion efficiency is higher, and therefore the effects of reducing tail gas emission and saving fuel are achieved.

Description

Discharge needle type energy-saving emission-reducing combustion-supporting device

Technical Field

The utility model relates to the technical field of internal combustion engines, in particular to a discharge needle type energy-saving emission-reducing combustion-supporting device.

Background

There are many automobile exhaust purifier and fuel economizing device in the market, but present exhaust purifier and fuel economizing device all are fixed in the inlet end department of car mostly, because the temperature of car inlet end is higher, the long-time frequency conversion vary voltage power supply unit who uses its device easily receives car inlet end high temperature invasion and attack, lead to the ageing trouble that breaks down of circuit, the purifier that economizes on fuel of majority simultaneously all is fixed power, can not adapt to multiple model and economize on fuel the purification vehicle, make its suitability not strong, be difficult to generally promote.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a discharge needle type energy-saving emission-reducing combustion-supporting device, which solves the problem that the power requirement of various vehicle types cannot be matched.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a discharge needle type energy-saving emission-reducing combustion-supporting device comprises an outer cylinder, wherein a first connecting cylinder and a second connecting cylinder are connected to two sides of the outer cylinder respectively, an air inlet is formed in the outer surface of the first connecting cylinder, an air outlet is formed in the outer surface of the second connecting cylinder, a discharge purification assembly is installed on the inner side of the outer cylinder, and a variable-frequency variable-voltage controller is installed on the inner side of the first connecting cylinder;

the discharging purification assembly comprises three conductive alloy screw rods, the three conductive alloy screw rods are provided with fixing supports at two ends, the three conductive alloy screw rods are provided with conductive connecting pieces at two ends, a negative alloy cylinder is arranged between the conductive connecting pieces and outside the three conductive alloy screw rods respectively, and the three conductive alloy screw rods are provided with a positive triangular connecting frame at the outer surface of one end positioned at the same side of the first connecting cylinder.

As a further technical scheme of the present invention, two controller mounting brackets are mounted on an outer surface of the variable frequency and variable voltage controller, one end of each of the two controller mounting brackets is fixed to an inner side wall of the first connecting cylinder, an input end of the variable frequency and variable voltage controller is connected to a low voltage negative input line and a low voltage positive input line, and an output end of the variable frequency and variable voltage controller is connected to a high voltage negative output line and a high voltage positive output line.

As a further technical scheme, a plurality of discharging brushes are arranged on the outer surfaces of the three conductive alloy screw rods, a positive terminal is arranged on one side face of the positive triangular connecting frame, one end of the high-voltage positive output line is connected with the positive terminal, and the variable-frequency variable-voltage controller is connected with the three conductive alloy screw rods through the high-voltage positive output line, the positive terminal and the positive triangular connecting frame.

As a further technical scheme of the present invention, a negative terminal is disposed on an inner side wall of the first connecting cylinder, one end of the high voltage negative output line is connected to the negative terminal, the variable frequency and variable voltage controller is connected to the first connecting cylinder and the outer cylinder through the high voltage negative output line and the negative terminal, and an external power supply hole is disposed on the inner side wall of the first connecting cylinder corresponding to the low voltage negative input line and the low voltage positive input line.

According to a further technical scheme, the surface of each fixing support is provided with a ventilation groove, the fixing supports are all made of polytetrafluoroethylene, the three conductive alloy screws are connected with the positive pole triangular connecting frame through the three fixing supports, and the positive pole triangular connecting frame is made of conductive alloy.

As a further technical scheme, the outer surfaces of the first connecting cylinder and the second connecting cylinder are both connected with connecting hoops, the inner sides of the connecting hoops at two ends are provided with clamping grooves corresponding to the outer surface of the positive triangular connecting frame, the negative alloy cylinder is connected with the outer cylinder and the inner side wall of the first connecting cylinder through conductive connecting sheets at two ends, and the positive triangular connecting frame is connected to one side surface of the three fixed supports through nuts.

Advantageous effects

The utility model provides a discharge needle type energy-saving emission-reducing combustion-supporting device. Compared with the prior art, the method has the following beneficial effects:

1. a discharge needle type energy-saving emission-reducing combustion-supporting device is characterized in that three conductive alloy screw rods and a plurality of discharge brushes on the surface are connected with a high-voltage positive electrode output line of a variable-frequency variable-voltage controller arranged in a first connecting cylinder through a positive electrode triangular connecting frame, so that positive electrode high-voltage current is led into the three conductive alloy screw rods and the discharge brushes, the high-voltage cathode output line of the variable-frequency variable-voltage controller is connected with the cathode binding post connected with the inner side wall of the first connecting cylinder, is connected with the three cathode alloy cylinders through the first connecting cylinder and the conductive connecting sheet and inputs cathode high-voltage current, the conductive alloy screw and the discharge brush form point discharge to generate a large amount of negative oxygen ion gas, and the negative oxygen ion gas enters a combustion chamber along with an air inlet system of an engine to support combustion, the fuel is more thoroughly combusted, the combustion efficiency is higher, and therefore the effects of reducing tail gas emission and saving fuel are achieved.

2. The utility model provides a needle type energy saving and emission reduction combustion-supporting discharges, fixes three electrically conductive alloy screw rod on the surface of electrically conductive connection piece through the fixed bolster of high temperature resistant polytetrafluoroethylene material, and discharges and purify electrically conductive alloy screw rod and a plurality of brush and the corresponding negative pole alloy section of thick bamboo of discharging in the subassembly and can suitably increase or reduce according to the purification power of vehicle for the device's application scope is wider, and life is stronger.

Drawings

FIG. 1 is a schematic structural diagram of a discharge needle type energy-saving emission-reducing combustion-supporting device;

FIG. 2 is a top view of a discharge needle type energy-saving emission-reducing combustion-supporting device;

FIG. 3 is a sectional view A-A in FIG. 3 of a discharge pin type energy-saving emission-reducing combustion-supporting device;

FIG. 4 is a cross-sectional view B-B in FIG. 3 of a discharge needle type energy-saving emission-reducing combustion-supporting device;

FIG. 5 is a schematic structural diagram of a discharge purification component of the discharge needle type energy-saving emission-reducing combustion-supporting device;

fig. 6 is a structural schematic diagram of decomposition of a discharge purification component of the discharge needle type energy-saving emission-reducing combustion-supporting device.

In the figure: 1. an outer cylinder; 2. a first connecting cylinder; 21. a power supply hole is connected externally; 22. a negative terminal; 3. a second connecting cylinder; 4. connecting a clamp; 5. an air inlet; 6. an air outlet; 7. a discharge purge component; 71. a conductive alloy screw; 72. a negative alloy can; 73. fixing a bracket; 74. a conductive connecting sheet; 75. a positive triangular connecting frame; 76. a positive terminal; 77. a discharge brush; 8. a variable frequency and variable voltage controller; 81. a controller mounting bracket; 82. a high voltage negative output line; 83. a high voltage positive output line; 84. a low voltage negative input line; 85. and a low-voltage anode input line.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1-4, the utility model provides a discharge needle type energy-saving emission-reducing combustion-supporting device, which comprises the following technical scheme: a discharge needle type energy-saving emission-reducing combustion-supporting device comprises an outer barrel 1, two sides of the outer barrel 1 are respectively connected with a first connecting barrel 2 and a second connecting barrel 3, the outer surface of the first connecting barrel 2 is provided with an air inlet 5, the outer surface of the second connecting barrel 3 is provided with an air outlet 6, the inner side of the outer barrel 1 is provided with a discharge purification component 7, the inner side of the first connecting barrel 2 is provided with a variable-frequency variable-voltage controller 8, the discharge purification component 7 comprises three conductive alloy screw rods 71, two ends of the three conductive alloy screw rods 71 are respectively provided with a fixed support 73, one side of each of the three fixed supports 73 at two ends is provided with a conductive connecting sheet 74, a negative alloy barrel 72 is respectively arranged between the conductive connecting sheets 74 at two ends and outside the three conductive alloy screw rods 71, the outer surface of one end of the three conductive alloy screw rods 71 which is positioned at the same side of the first connecting barrel 2 is provided with an anode triangular connecting frame 75, the surface mounting of frequency conversion variable voltage controller 8 has two controller mounting bracket 81, the one end of two controller mounting bracket 81 is fixed in the inside wall of first connecting cylinder 2, frequency conversion variable voltage controller 8's input is connected with low pressure negative input line 84 and the anodal input line 85 of low pressure respectively, frequency conversion variable voltage controller 8's output is connected with high-pressure negative output line 82 and the anodal output line 83 of high pressure respectively, the surface of first connecting cylinder 2 and second connecting cylinder 3 all is connected with connection clamp 4, the inboard of the connection clamp 4 at both ends all corresponds with the surface of anodal triangle link 75 and has seted up the block groove, negative pole alloy cylinder 72 is connected with urceolus 1 and the inside wall of first connecting cylinder 2 through the electrically conductive connection piece 74 at both ends, anodal triangle link 75 passes through the nut and connects in a side surface of three fixed bolster 73.

As shown in fig. 5-6, the outer surfaces of the three conductive alloy screws 71 are provided with a plurality of discharge brushes 77, one side surface of the positive triangular connecting frame 75 is provided with a positive terminal 76, one end of a high-voltage positive output line 83 is connected with the positive terminal 76, the variable frequency and voltage controller 8 is connected with the three conductive alloy screws 71 through the high-voltage positive output line 83, the positive terminal 76 and the positive triangular connecting frame 75, the surfaces of the fixing brackets 73 are provided with ventilation grooves, the fixing brackets 73 are made of polytetrafluoroethylene, the three conductive alloy screws 71 are connected with the positive triangular connecting frame 75 through the three fixing brackets 73, the positive triangular connecting frame 75 is made of conductive alloy, the positive output current of a high-voltage positive output line 83 at the output end of the variable-frequency variable-voltage controller 8 is input to the three conductive alloy screws 71 and the plurality of discharge brushes 77 on the surfaces of the three conductive alloy screws through the positive wiring terminal 76 and the positive triangular connecting frame 75;

it should be noted that, in the multi-tube ozone plasma combustion-supporting powerful fuel-saving purifier device of the present design, the number of the negative alloy tube 72 and the conductive alloy screw 71 is not limited to three, and may be one or more, and according to the requirement of the number of the negative alloy tube 72 and the conductive alloy screw 71, the positive triangular connecting frame 75 may also be of a four-corner or multi-corner type, such as: positive pole four corners link, anodal hexagonal link etc. consequently, this device can increase or reduce the quantity of a negative pole alloy section of thick bamboo 72 and conductive alloy screw 71 as required.

As shown in fig. 2-4, the inner side wall of the first connection cylinder 2 is provided with a negative terminal 22, one end of a high-voltage negative output line 82 is connected with the negative terminal 22, the variable frequency and variable voltage controller 8 is connected with the first connection cylinder 2 and the outer cylinder 1 through the high-voltage negative output line 82 and the negative terminal 22, the inner side wall of the first connection cylinder 2 is provided with an external power supply hole 21 corresponding to a low-voltage negative input line 84 and a low-voltage positive input line 85, and the negative current output by the high-voltage negative output line 82 at the output end of the variable frequency and variable voltage controller 8 is transmitted to the surfaces of the three negative alloy cylinders 72 through the negative terminal 22, the first connection cylinder 2 and the conductive connection sheet 74.

The working principle of the utility model is as follows: when in use, the air inlet 5 is connected to the air inlet end of an automobile, the air outlet 6 is connected to the air inlet of a combustion chamber of an engine of the automobile, and the low-voltage cathode input line 84 and the low-voltage anode input line 85 of the variable-frequency variable-voltage controller 8 in the first connecting cylinder 2 are connected to the output end of a built-in power supply of the automobile;

when the automobile negative oxygen ion air purifier works, external air enters an air inlet 5 through an air inlet end of an automobile and enters three negative alloy cylinders 72 through ventilation grooves of three fixing supports 73 of a conductive connecting sheet 74, a variable frequency and variable voltage controller 8 changes low-voltage current input by a low-voltage negative input line 84 and a low-voltage positive input line 85 into high-voltage current in a variable frequency and variable voltage mode, the high-voltage current is transmitted to the conductive connecting sheet 74 through a high-voltage negative output line 82, a negative binding post 22 and a first connecting cylinder 2 and then input to the inner side walls of the three negative alloy cylinders 72, a high-voltage positive output line 83 is transmitted to three conductive alloy screws 71 and a plurality of discharge brushes 77 on the surfaces of the three conductive alloy screws by a positive triangular connecting frame 75, and a large amount of negative oxygen ion air is generated by utilizing the point discharge principle of a discharge purification component 7 through positive and negative high-voltage currents and enters an engine combustion chamber along with an air outlet 6, the combustion supporting performance of the fuel is increased, the fuel oil combustion rate is improved, the exhaust emission is reduced, the fuel is saved, and the efficiency of reducing the exhaust emission is further increased by the combination of the cathode alloy cylinder 72 and the conductive alloy screw 71 in the discharge purification assembly 7 and the discharge brush 77 on the surface of the cathode alloy cylinder.

Claims (6)

1. The discharge needle type energy-saving emission-reducing combustion-supporting device comprises an outer barrel (1), and is characterized in that two sides of the outer barrel (1) are respectively connected with a first connecting barrel (2) and a second connecting barrel (3), an air inlet (5) is formed in the outer surface of the first connecting barrel (2), an air outlet (6) is formed in the outer surface of the second connecting barrel (3), a discharge purification component (7) is installed on the inner side of the outer barrel (1), and a variable-frequency variable-voltage controller (8) is installed on the inner side of the first connecting barrel (2);

discharge and purify subassembly (7) and include three conductive alloy screw rod (71), it is three fixed bolster (73) are all installed at the both ends of conductive alloy screw rod (71), and is three at both ends conductive connection piece (74) are all installed to one side of fixed bolster (73), both ends between conductive connection piece (74) and be located threely respectively a negative pole alloy section of thick bamboo (72) are all installed to the outside of conductive alloy screw rod (71), and are three conductive alloy screw rod (71) and the surface mounting who is located the one end of first connecting cylinder (2) homonymy have anodal triangle link (75).

2. The discharge needle type energy-saving emission-reducing combustion-supporting device according to claim 1, wherein two controller mounting brackets (81) are mounted on the outer surface of the variable frequency and voltage controller (8), one end of each of the two controller mounting brackets (81) is fixed to the inner side wall of the first connecting cylinder (2), the input end of the variable frequency and voltage controller (8) is connected with a low-voltage negative input line (84) and a low-voltage positive input line (85) respectively, and the output end of the variable frequency and voltage controller (8) is connected with a high-voltage negative output line (82) and a high-voltage positive output line (83) respectively.

3. The discharge needle type energy-saving emission-reducing combustion-supporting device according to claim 2, wherein the outer surfaces of the three conductive alloy screws (71) are provided with a plurality of discharge brushes (77), one side surface of the positive triangular connecting frame (75) is provided with a positive terminal (76), one end of the high-voltage positive output wire (83) is connected with the positive terminal (76), and the variable-frequency variable-voltage controller (8) is connected with the three conductive alloy screws (71) through the high-voltage positive output wire (83), the positive terminal (76) and the positive triangular connecting frame (75).

4. The discharge needle type energy-saving emission-reducing combustion-supporting device as claimed in claim 2, wherein the inner side wall of the first connecting cylinder (2) is provided with a negative terminal (22), one end of the high-voltage negative output wire (82) is connected with the negative terminal (22), the variable frequency and voltage controller (8) is connected with the first connecting cylinder (2) and the outer cylinder (1) through the high-voltage negative output wire (82) and the negative terminal (22), and the inner side wall of the first connecting cylinder (2) is correspondingly provided with an external power supply hole (21) with the low-voltage negative input wire (84) and the low-voltage positive input wire (85).

5. The discharge needle type energy-saving emission-reducing combustion-supporting device according to claim 1, wherein ventilation grooves are formed in the surfaces of the fixing supports (73), the fixing supports (73) are all made of polytetrafluoroethylene, the three conductive alloy screws (71) are connected with a positive electrode triangular connecting frame (75) through the three fixing supports (73), and the positive electrode triangular connecting frame (75) is made of conductive alloy.

6. The discharge needle type energy-saving emission-reducing combustion-supporting device as claimed in claim 1, wherein the outer surfaces of the first connecting cylinder (2) and the second connecting cylinder (3) are connected with connecting clamps (4), the inner sides of the connecting clamps (4) at the two ends are provided with clamping grooves corresponding to the outer surface of the positive triangular connecting frame (75), the negative alloy cylinder (72) is connected with the outer cylinder (1) and the inner side wall of the first connecting cylinder (2) through conductive connecting sheets (74) at the two ends, and the positive triangular connecting frame (75) is connected to one side surface of the three fixing supports (73) through nuts.

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