WO2019029201A1 - Improved structure of air intake processor of combustion apparatus - Google Patents

Abstract

An improved structure of an air intake processor of a combustion apparatus, comprising a housing (10). A blocking unit (20) is provided in the housing (10); the blocking unit (20) comprises a rod (21) and a plurality of first plates (22) and a plurality of second plates (23) radially arranged along the rod (21); and first notches (221) are provided on the outer peripheries of the plurality of first plates (22), and second notches (231) are provided on the outer peripheries of the plurality of second plates (23, so that an airflow channel (14) is formed in the housing (10). When a negative pressure is generated in the combustion apparatus, an airflow is guided to enter the airflow channel (14) of the housing (10), so that the probability of the collision between gas molecules is increased when the airflow impacts the plurality of first plates (22) and the plurality of second plates (23), and the kinetic energy of the gas molecules is increased by means of the impact, friction, extrusion and pressure of the gas molecules in the air, and a combustion-supporting effect is achieved.

Description

Improved structure of air intake processor for combustion equipment Technical field

The present invention relates to a combustion apparatus, and more particularly to an air intake processor of a combustion apparatus.

Background technique

With the development of technology and the improvement of living standards, combustion equipment has become a tool for generating power in modern technology, and the fuel for providing this combustion equipment comes from petroleum raw materials, and oil is not an inexhaustible natural resource. When there is insufficient exhaustion, and burning oil will also cause air pollution caused by exhaust gas, the concept of environmental protection is becoming more and more popular, and the energy on the earth is becoming scarce. Oil is still the main fuel for the burning equipment, and the oil is formed. Not caused by overnight, so in order to extend the life of oil and reduce the air pollution caused by the use of fuel, increasing combustion efficiency is the most direct method.

In order to increase the combustion efficiency, the inventor of the present invention has earlier and developed a "air intake processor for a combustion device" of the patent publication number CN106545878A, and the air intake processor mainly comprises a casing, the casing being axially both ends An air inlet and an air outlet are respectively disposed, and a plurality of plates are axially disposed in the casing, and an air chamber is formed between each of the plates, and the air holes of the adjacent plates are staggered. The gas chambers are connected to the pores to form a gas flow channel. When gas molecules in the air collide with the plates, the collision probability between the gas molecules is increased, and the molecules in the gas increase the gas molecules through impact and friction. Kinetic energy, in order to achieve the effect of combustion, to make the combustion more complete, in order to reduce exhaust emissions.

Although the air intake processor of the above-mentioned combustion device can increase the combustion efficiency, the structure of the plate body is complicated, and it needs to be installed by manpower, and attention should be paid to whether the air holes of the adjacent plate bodies are staggered during installation. In view of the cost increase and the installation cost, in view of the above disadvantages, the inventors of the present invention considered that the air intake processor of the common combustion apparatus is necessary for further improvement, and the present invention is produced.

Summary of the invention

SUMMARY OF THE INVENTION A primary object of the present invention is to provide an improved structure of an air intake processor for a combustion apparatus that interconnects the boards and is disposed within the housing to enhance installation and production efficiency of the air intake processor purpose.

In order to achieve the above object, an improved structure of an air intake processor of a combustion apparatus provided by the present invention includes: a housing having a chamber, and an axial intake of each of the housings is respectively provided with an intake air a port and an air outlet, and the air inlet communicates with the air outlet; the blocking unit is disposed in the chamber of the housing, and a rod body is disposed axially at the center of the chamber, the rod body A plurality of first plates and a plurality of second plates are disposed at equal intervals in the radial direction, and the first plates are staggered with the second plates, and the first plates and the second plates are The outer peripheral edge of the body is abutted against the inner wall of the chamber, and each of the first plates is provided with a first notch on the outer periphery, and each of the second plates is opposite to the first notch at one end of the outer periphery. a second notch is formed on the side, so that a tortuous air flow passage is formed in the chamber of the casing; an air inlet plug is disposed at the air inlet of the casing, and the air inlet plug is provided with the air chamber An air inlet passage through which an air flow enters the chamber; an air outlet, which is disposed in the air outlet of the housing , And the outlet is provided with a plug outlet passage communicating the chamber so that the passage of the airflow through the airflow chamber, which flows through the outlet passage outside the chamber.

Preferably, the housing is a cylindrical hollow tube body.

Preferably, each of the first plate bodies and each of the second plate bodies is a circular plate body.

Preferably, the first notch of the first plate body and the second notch end surface of the second plate body are respectively formed with a surface, and the cutting surface may be a plane, a concave curved surface or a V shape. Any aspect of the face.

Preferably, the air inlet of the casing is provided with a first screw hole, and the outer peripheral wall of the air inlet plug is provided with a first thread corresponding to the first screw hole of the air inlet port, so that the air inlet plug Locked to the air inlet of the housing.

Preferably, the air outlet of the housing is provided with a second screw hole, and the outer peripheral wall of the air outlet plug is provided with a second thread corresponding to the second screw hole of the air outlet, so that the air outlet plug is locked The air outlet of the housing.

Preferably, the intake passage of the air inlet plug can be connected to an intake manifold, and the air outlet passage of the air outlet plug can be connected to an air outlet manifold.

The improved structure of the air intake processor of the combustion apparatus of the present invention, when the air passes through the casing, the first notch passing through the first plates is staggered with the second notch of the second plates, and Arranged equidistantly in the axial direction of the casing, when gas molecules in the air pass through the chamber, colliding and friction with the first plate body and the second plate body, thereby forming gas turbulence and rectification And the gas molecules in the air increase the kinetic energy of the gas molecules through impact, friction, extrusion and expansion, thereby changing the flow rate of the gas and the other gas molecules are fined in the flow process, thereby increasing the contact area of the air with the fuel, so that the burning speed Faster, more complete, and more fuel-assisted, and further fuel-saving and exhaust-reducing effects, while improving the efficiency and quality of the combustion equipment, and the barrier unit is integrated into the assembly, faster finish installation.

DRAWINGS

1 is a perspective assembled view of a preferred embodiment of the present invention.

Figure 2 is an exploded perspective view of a preferred embodiment of the present invention.

Figure 3 is a cross-sectional view of a preferred embodiment of the present invention.

Figure 4 is another cross-sectional view of a preferred embodiment of the present invention.

Figure 5 is a schematic view showing the state of use of the preferred embodiment of the present invention.

Detailed ways

Referring to FIG. 1 to FIG. 3, there is disclosed an improved structure of an air intake processor of a combustion apparatus, the air intake processor 100 comprising:

A casing 10 is a cylindrical hollow tube, and has a chamber 11 in the casing 10, and an axial inlet 12 and an air outlet 13 are respectively disposed at two axial ends of the casing 10. The air inlet 12 and the air outlet 13 are connected to the chamber 11. The air inlet 12 is provided with a first screw hole 121, and the air outlet 13 is provided with a second screw hole 131.

a blocking unit 20 is disposed in the chamber 11 of the housing 10, and a rod body 21 is disposed on a central axis of the chamber 11. The rod body 21 is provided with a plurality of first plates 22 in a radial equidistant manner. a plurality of second plates 23, wherein the first plates 22 are interlaced with the second plates 23, and each of the first plates 22 and each of the second plates 23 has a circular shape. The first plate body 22 and the outer peripheral edge of the second plate body 23 abut against the inner wall of the chamber 11, and each of the first plate bodies 22 is provided with a first end at the outer peripheral edge. a second indentation 231 is formed on the opposite side of the first periphery of the first indentation 221, and a meandering airflow passage 14 is formed in the chamber 11 of the housing 10. The first notch 221 of the first plate body 22 and the second notch 231 of the second plate body 23 are formed with a face 222, 232, and the cut surface 222 of the first notch 221 and the cut surface 232 of the second notch 231 The cutting surface 222 of the first notch 221 and the cutting surface 232 of the second notch 231 are one of the cutting faces 232 of the first notch 221 and the V-shaped surface. Cut surface.

An air inlet 30 is disposed at the air inlet 12 of the housing 10, and the outer circumference of the air inlet 30 is provided with a first thread 31 corresponding to the first screw hole 121 of the air inlet 12, so that the air inlet 30 The air plug 30 is locked to the air inlet 12 of the casing 10, and the air inlet 30 is further provided with an air inlet passage 32. One end of the air inlet passage 32 is connected to an air intake of a combustion device (not shown). The tube 200 has the other end of the inlet passage 32 connected to the chamber 11 to allow gas to flow into the chamber 11 through the intake passage 32 through the intake manifold 200.

An air outlet 40 is disposed in the air outlet 13 of the housing 10, and the outer circumference of the air outlet 40 is provided with a second thread 41 corresponding to the second screw hole 131 of the air outlet 13 to lock the air outlet 40 In the air outlet 13 of the casing 10, the air outlet 40 is further provided with an air outlet passage 42. One end of the air outlet passage 42 is connected to the air outlet manifold 300 of the combustion device, and the other end of the air outlet passage 42 is connected to the chamber 11. After the airflow passes through the airflow passage 14 of the chamber 11, the chamber 11 flows out through the outlet passage 42 and flows into the outlet manifold 300.

Referring to FIG. 5 , and referring to FIG. 2 , the air intake processor 100 is connected to the intake manifold 200 of the intake plug 30 , and is exhausted from the air outlet 40 . A passage 42 is coupled to the air intake manifold 300 to communicate the air intake processor 100 with the combustion apparatus, whereby the housing 10 can be passed through the intake manifold 200 when the combustion apparatus is actuated The chamber 11 generates a negative pressure to guide the outside air into the chamber 11 through the inlet passage 32, and through the first plate 22 and the second plate 23 through the outlet of the outlet plug 40. The passage 42 is connected to the outlet manifold 300, and then enters the combustion device to mix with the fuel and burns. At this time, the first plate 22 and the second plate 23 are alternately disposed, and the shaft of the casing 10 is disposed. Arranged equidistantly, so that when air enters the chamber 11 from the inlet passage 32 to the outlet passage 42, the air collides with the first plate 22 and the second plate 23, thereby Gas turbulence and rectification are formed, and gas molecules in the air are increased by impact, friction, extrusion, and expansion. The kinetic energy of the gas molecules, thereby changing the flow rate of the gas, and the gas molecules are fined in the flow process, thereby increasing the contact area of the air with the fuel, so that the burning speed is faster and more complete, and the combustion effect is achieved, and the saving is further achieved. Fuel and reducing exhaust emissions, which can improve the efficiency and quality of the combustion equipment.

It is to be noted that the two ends of the blocking unit 20 are in contact with the air outlet 40 through the air inlet 30, and the first board 22 is closely attached to the outer circumference of the second board 23. The first recess 221 is disposed on the outer periphery of each of the first plates 22, and each of the second plates is disposed in the chamber 11 of the housing 10. The body 23 is provided with the second notch 231, and the first plate 22 and the second plate 23 are connected to each other through the rod 21, and the first notch 221 of the adjacent first plate 22 is The second notches 231 of the second plate body 23 are alternately arranged to form a meandering air flow passage 14 in the chamber 11, so that the air in the air can be caused by the probability and frequency of the lifting air to impact the plates. The molecules increase the kinetic energy of the gas molecules through impact, friction, extrusion and expansion, thereby achieving the effect of assisting combustion and improving fuel combustion efficiency, and the blocking unit 20 is integrally formed by the injection molding manufacturing method. Thus, when the air intake processor 100 is assembled, the advantage of faster assembly.

Industrial applicability

The improved structure of the air intake processor of the combustion apparatus of the present invention can change the flow rate of the air and the other gas molecules are finely streamed in the flow process, thereby increasing the contact area of the air and the fuel, so that the burning speed is faster and more complete. It has the effect of igniting combustion, and further achieves the effect of saving fuel and reducing exhaust gas emissions, and can improve the working efficiency and quality of the combustion equipment, and the barrier unit is integrally formed in assembly, and can be quickly installed.

Claims (7)

An improved structure of an air intake processor for a combustion apparatus, characterized in that the air intake processor comprises: a housing having a chamber, and two axial ends of the housing are respectively provided with an air inlet and an air outlet, and the air inlet and the air outlet communicate with the chamber; a blocking unit is disposed in the chamber of the housing, and is provided with a rod body in the axial direction at the center of the chamber, and the rod body is provided with a plurality of first plate bodies and a plurality of second plate bodies at equal intervals in the radial direction. And the first plate body and the second plate body are staggered, and the first plate body and the outer peripheral edge of the second plate body abut against the inner wall of the chamber, and each of the first plate A plate body is provided with a first notch on the outer periphery, and each of the second plate body is provided with a second notch on the opposite side of the outer peripheral edge corresponding to the first notch, so that a tortuous airflow is formed in the cavity of the casing. aisle; An air inlet plug is disposed at an air inlet of the casing, and the air inlet plug is provided with an air inlet passage connecting the chamber, so that an air flow enters the chamber from the air inlet hole; An air outlet plug is disposed at an air outlet of the casing, and the air outlet plug is provided with an air outlet passage that communicates with the air chamber, and the air flow passes through the air flow passage of the chamber, and then flows out of the chamber through the air outlet passage. . The improved structure of an air intake processor of a combustion apparatus according to claim 1, wherein the casing is a cylindrical hollow pipe body. The improved structure of the air intake processor of the combustion apparatus according to claim 1, wherein each of the first plate bodies and each of the second plate bodies is a circular plate body. The improved structure of the air intake processor of the combustion apparatus according to claim 1, wherein the first notch of the first plate body and the second notch end surface of the second plate body respectively form a surface And the cut surface can be any one of a plane, a concave curved surface or a V-shaped surface. The improved structure of the air intake processor of the combustion apparatus according to claim 1, wherein the inlet of the housing is provided with a first screw hole, and the outer peripheral wall of the air inlet corresponds to the air inlet The first screw hole is provided with a first thread to lock the air inlet plug to the air inlet of the housing. The improved structure of the air intake processor of the combustion apparatus according to claim 1, wherein the air outlet of the housing is provided with a second screw hole, and the outer peripheral wall of the air outlet plug corresponds to the second air outlet. The screw hole is provided with a second thread to lock the air outlet plug to the air outlet of the housing. The improved structure of the air intake processor of the combustion apparatus according to claim 1, wherein the intake passage of the air inlet plug is connectable to an intake manifold, and the air outlet passage of the air outlet plug can be connected to an air outlet. Manifold.

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