TWM525393U - Air intake processor for combustion equipment - Google Patents

Description

Air intake processor for combustion equipment

This creation is related to an air intake processor, and in particular to an air intake processor for a combustion apparatus.

With the development of technology and the improvement of living standards, combustion equipment has become a tool for generating power in modern technology. However, the fuel for providing combustion equipment is derived from petroleum raw materials. Oil is not an inexhaustible natural resource. When it is not exhausted, burning fuel at the same time will 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 scarcer. However, fuel is still the main fuel for the current combustion equipment. However, the formation of oil is by no means overnight. As a result, in order to extend the life of the oil and reduce the air pollution caused by the use of fuel, increasing the combustion efficiency is the most direct method.

A natural air intake combustion apparatus includes a combustion chamber, and the combustion chamber is connected to an intake pipe, which can guide external air into the combustion chamber and combust the fuel to generate power. Air and fuel explosions are often incompletely burned and have poor combustion efficiencies, resulting in many exhaust gases.

In view of this, the creators of this case, after observing the above-mentioned deficiencies, adhered to the spirit of excellence and concentrating on research and improvement, and finally had the creation of this creation.

The main purpose of the present invention is to provide an air intake processor for a combustion apparatus, which can introduce external air into the air intake processor by a negative pressure of a combustion device, so that the air gas becomes a small molecule gas. It is supplied to the combustion equipment for use, thereby improving the combustion efficiency and reducing the exhaust gas emissions.

In order to achieve the above object, an air intake processor for a combustion apparatus provided by the present invention comprises: a tube body having a connecting tube seat at each end thereof, and each of the connecting tube bases is respectively provided with a gas The mouthpieces are defined as an air inlet nozzle and an air outlet nozzle, wherein the connecting sockets are coaxially provided with an air outlet ring on the other side of the air inlet nozzle, and the connecting tube sockets are disposed on the air outlet nozzles An air intake ring is coaxially disposed on the other side, and the air intake ring and the air outlet ring are respectively connected to the air outlet nozzle and the air inlet nozzle; the air processing unit is a columnar body and is closely arranged in sequence. In the tube body, one end of each of the air treatment units has a recess, and each of the air treatment units is provided with a through hole at the bottom of the groove, so that the grooves communicate with the perforations, and the perforations are The diameter is much smaller than the diameter of the grooves.

The air intake processor for a combustion device provided by the present invention, the air outlet of the pipe body is connected to a negative pressure intake port of a combustion device through an intake manifold, when the combustion device is activated, A negative pressure is generated in the tube body, thereby guiding the outside air, and the air inlet nozzle enters the tube body, and then is guided by the negative pressure to force air to pass through the grooves and perforations of the air processing unit to make the air in the air borrow The space change caused by the continuous expansion and contraction formed by the grooves and the perforations can be converted into a small molecule gas, which is used when the combustion device is burned, thereby improving the combustion efficiency and reducing the exhaust gas emission.

Referring to Figures 1 and 5, an air intake processor 100 for a combustion apparatus includes:

a pipe body 10 is provided with a connecting pipe base 11 at each end thereof, and the connecting pipe bases 11 are respectively provided with a gas nozzle, and the gas nozzles are defined as an air inlet nozzle 12 and an air outlet nozzle 13, wherein An air outlet ring 14 is coaxially disposed on the other side of the air inlet nozzle 12, and the air inlet ring 15 is coaxially disposed on the other side of the air outlet nozzle 13 . The air outlet ring 14 of the 11 and the air inlet ring 15 of the connecting socket 11 are respectively a ring body, and the air inlet ring 15 and the air outlet ring 14 are respectively communicated with the air outlet 13 and the air inlet nozzle 12.

An airtight sleeve 20 is a circular tube body, and the airtight sleeve 20 is disposed in the tube body 10, and the two ends of the airtight sleeve 20 are respectively connected to the outlet of the connecting tube base 11 The ring 14 and the intake ring 15 of the connecting socket 11 and the outer diameter of the airtight sleeve 20 are substantially equal to the air outlet ring 14 of the connecting socket 11 and the air inlet ring 15 of the connecting socket 11 The inner diameter of the air inlet sleeve 15 and the air outlet ring 14 are located between the inner side of the inner tube 10 and the outer side of the airtight sleeve 20, so that the airtight sleeve 20 is connected to the tube base 11 and The air handling units 30 form a position.

The air handling unit 30 is a columnar body, and the outer diameter of the air processing unit 30 is substantially equal to the inner diameter of the airtight sleeve 20, and is closely disposed in the tube body 10 in sequence, and The air treatment unit 30 is further disposed in the airtight sleeve 20 in a stepwise manner, and one end of the air processing unit 30 has a recess 31, and each of the air processing units 30 is disposed at the bottom of the recess 31. A perforation 32 is provided to allow the grooves 31 to communicate with the perforations 32, and the diameters of the perforations 32 are much smaller than the diameter of the grooves 31.

In order to further understand the characteristics of this creation, the use of technical means and the expected results, we will describe the use of this creation, and believe that we can have a deeper and more specific understanding of this creation, as follows:

Please refer to FIGS. 3 and 4 again for a schematic view of the use of the embodiment of the present invention and a cross-sectional view of the embodiment. Before using the air intake processor 100, the air outlet 13 of the tube 10 is vented. The end system can be connected to an intake port of a combustion device through an intake manifold 200. When the combustion device is activated, the negative pressure of the combustion device itself passes through the intake manifold 200 to make the airtight casing 20 A negative pressure is generated to guide the outside air, and the air inlet 12 of the tube 10 enters the airtight sleeve 20, and the air is forced to pass through the air processing unit 30, and then the air is guided through the negative pressure of the combustion device. , transmitted to the combustion equipment for use to achieve the effect of combustion.

Please refer to FIG. 4 again, which is a cross-sectional view of an embodiment of the present invention, since the connecting sockets 11 are respectively disposed at two ends of the tube body 10, and the outlet ring 14 of the connecting tube block 11 and the The air inlet ring 15 of the connecting pipe base 11 is located in the pipe body 10, and the outer diameter of the air handling unit 30 is substantially equal to the inner diameter of the airtight casing 20, and is closely arranged in the airtightness. In the sleeve 20, the two ends of the airtight sleeve 20 are respectively connected to the air outlet ring 14 of the connecting socket 11 and the air inlet ring 15 of the connecting socket 11, and the outer diameter of the airtight sleeve 20 is The inner diameter of the air outlet ring 14 of the connecting socket 11 and the air inlet ring 15 of the connecting tube socket 11 are substantially equal to the inner diameter of the air inlet tube 15 and the air handling unit 30. Positioning within 10 is formed.

Please refer to FIG. 5 again, which is a partially enlarged cross-sectional view of the air handling unit 30 of the present invention. When the negative pressure of the combustion device guides the air outside the tube 10, the air is forced to pass through the air processing unit 30. The air is sequentially passed through the grooves 31 and the perforations 32 of each of the air treatment units 30, wherein the diameters of the perforations 32 are much smaller than the diameter of the grooves 31, when air passes through the grooves. 31 and the perforations 32, at the same time, the air continuity can be expanded and contracted, so that the air in the air changes spatially by the continuous expansion and contraction of the grooves 31 and the perforations 32, The gas molecular structure is changed and then supplied to the combustion device for use in combustion, thereby improving combustion efficiency and reducing exhaust gas emissions.

Hereby, the characteristics of this creation and its achievable expected effects are stated as follows:

The air intake processor for the combustion device of the present invention, the air outlet of the pipe body is connected to a negative pressure intake port of a combustion device through an intake manifold, and the gas is activated when the combustion device is activated. A negative pressure is generated in the tight sleeve to guide the outside air, and the air inlet sleeve enters the airtight sleeve, and then is guided by the negative pressure to force air to pass through the grooves and perforations of the air processing unit to make the air The gas is changed by the spatial expansion of the continuous expansion and contraction formed by the grooves and the perforations, and the gas molecular structure is changed, and then supplied to the combustion device for combustion, thereby improving combustion efficiency and reducing exhaust gas. The effect of emissions.

In summary, this creation has its excellent progress and practicality in similar products. At the same time, it has investigated the technical information about such structures at home and abroad. The same structure has not been found in the literature. This creation has already possessed new types of patent requirements, and applied for it according to law.

However, the above-mentioned ones are only one of the preferred embodiments of the present invention, and the equivalent structural changes in the application of the present specification and the scope of the patent application are intended to be included in the scope of the present patent.

100‧‧‧Air intake processor for combustion equipment
10‧‧‧ tube body
11‧‧‧Connecting socket
12‧‧‧ Intake nozzle
13‧‧‧ Vents
14‧‧‧Exhaust ring
15‧‧‧Intake ring
20‧‧‧ airtight casing
30‧‧‧Air handling unit
31‧‧‧ Groove
32‧‧‧Perforation
200‧‧‧ intake manifold

Figure 1 is a perspective view of an embodiment of the present creation. Figure 2 is an exploded view of an embodiment of the present creation. Figure 3 is a schematic diagram of the use of an embodiment of the present creation. Figure 4 is a cross-sectional view of an embodiment of the present creation. Figure 5 is a partial enlarged cross-sectional view of the air handling unit of the present invention.

100‧‧‧Air intake processor for combustion equipment

10‧‧‧ tube body

11‧‧‧Connecting socket

12‧‧‧ Intake nozzle

13‧‧‧ Vents

Claims (5)

An air intake processor for a combustion apparatus, comprising: a pipe body having a connecting pipe base at two ends thereof, wherein the connecting pipe bases are respectively provided with a gas nozzle, and the gas nozzles can be defined An air inlet and an air outlet, wherein the connecting tube is coaxially disposed with an air outlet ring on the other side of the air inlet, and the connecting tube is coaxially disposed with an air inlet ring on the other side of the air outlet. And the air inlet ring and the air outlet ring are respectively connected to the air outlet nozzle and the air inlet nozzle; the air treatment unit is a columnar body and is closely arranged in the tube body, and the air is One end of the processing unit has a recess, and each of the air processing units is provided with a perforation at the bottom of the groove, so that the grooves are in communication with the perforations, and the diameters of the perforations are much smaller than the grooves. The outlet of the pipe body can be connected to a negative pressure intake port of a combustion device through an intake manifold, and when the combustion device is activated, a negative pressure is generated in the pipe body, thereby guiding the outside world. Air, which enters the pipe body through the air inlet and then transmits negative pressure Guided, forcing air to pass through the grooves and perforations of the air treatment unit, so that the gas in the air changes spatially by the continuous expansion and contraction formed by the grooves and the perforations, thereby making the gas molecular structure Change, and then supply the combustion equipment for use when burning. An air intake processor for a combustion apparatus according to claim 1, wherein the air intake processor further comprises a gas tight sleeve, wherein the airtight sleeve is provided Inside the tube body, the two ends of the airtight sleeve are respectively connected to the air outlet ring of the connecting tube seat and the air inlet ring of the connecting tube seat, and the air processing units are further closely arranged in the airtight sleeve Inside. The air intake processor for a combustion apparatus according to claim 2, wherein the air treatment unit has an outer diameter substantially equal to an inner diameter of the airtight sleeve. An air intake processor for a combustion apparatus according to claim 2, wherein the outer diameter of the airtight sleeve is substantially equal to an air outlet ring of the connecting socket and the connecting socket The inner diameter of the intake ring. The air intake processor for a combustion apparatus according to the second aspect of the invention, wherein the outlet ring of the connecting socket and the inlet ring of the connecting socket are respectively a ring body, the intake ring And the air outlet ring is located between the inner side of the pipe body and the outer side of the airtight casing, so that the airtight casing is positioned by the connecting pipe socket and the air processing units.