TWM540920U - Air intake tube - Google Patents

Description

Intake pipe

The present invention provides an air intake pipe, in particular, an air intake pipe installed in a specific vehicle, which is composed of a first pipe body made of a metal material and a second pipe body connected by an elastic material. When the compressed air output from the central cooler passes through the intake pipe into the engine, it can be permeable to the first pipe body and the second pipe body made of metal to avoid structural damage.

According to the rapid development of industrial and commercial economic activities, as well as the general improvement of the income and consumption capacity of national production, coupled with the busy and compact nature of the city, people in their daily lives are the best means of transportation by car, locomotive, etc. However, it is precisely because cars, locomotives and other vehicles are constantly increasing. The carbon dioxide and exhaust gas emitted from the operation of their engines have become one of the main sources of air pollution, and the impact of the overall environmental warming of the earth will also increase. Therefore, the manufacturers of various vehicles such as automobiles and locomotives are not actively investing in research and development to improve the combustion efficiency of engines, and introduce new environmentally-friendly vehicles that can reduce the carbon content of exhaust emissions of vehicles to reduce environmental pollution.

Due to the booming automotive engine technology in the market, the design of the automobile engine has entered the era of computer control, and the electronic control unit (ECU) is used to control the throttle valve installed in the intake manifold of the engine, so that the car can rely on the throttle Adjusting the intake air amount by stepping on the judgment or accelerating to obtain the ideal air combustion ratio of the engine, and also meeting the exhaust standard set by the Environmental Protection Agency. In order to increase the output power of the engine under the same working efficiency, the fuel can only be increased by compressing more air into the engine cylinder to increase the combustion efficiency. Therefore, the turbocharger system is generally installed on the vehicle. In order to increase the intake air volume, the turbocharging system uses the exhaust gas discharged from the exhaust stroke of the engine to rotate the exhaust rotor of the turbine. When the exhaust rotor reaches a certain rotational speed, the intake rotor is coaxially driven to forcibly suck in additional air. However, as more air is compressed, the temperature will rise rapidly, and the oxygen content in the compressed air will decrease and the combustion efficiency will decrease. Therefore, a central cooler must be used to cool the air temperature so that the temperature of the intake air is centrally cooled. The temperature can be lowered after the device, and the lower the intake air temperature, the more the oxygen content will increase.

However, between the central cooler and the intake manifold of the engine or the throttle valve in the intake position of the intake manifold, an intake pipe is connected to connect the compressed air output from the central cooler through the intake pipe. The intake manifold enters into the engine cylinder for combustion, and the throttle valve cooperates to control the flow rate of the compressed air into the engine cylinder, thereby increasing the fuel amount and increasing the combustion efficiency in the engine cylinder, but the intake pipe is mostly made of plastic. Made of materials (such as acrylonitrile-butadiene-styrene copolymer, abbreviated as ABS), and often have a certain high temperature when compressed air passes through the intake pipe, making the plastic material of the intake pipe itself easy to encounter. The thermal expansion causes brittle fracture and the durability is not high. In addition, the flow rate of the compressed air passing through is very fast, which causes the airflow at the corner of the intake pipe to be strong, so that the intake pipe has insufficient pressure resistance to cause structural damage or damage, that is, The key to research and improvement for those who are still in the industry.

Therefore, in view of the above-mentioned shortcomings, the creators have collected relevant information, and through multi-party evaluation and consideration, and through years of experience in the industry, through continuous trial and modification, the new patents of such air intake pipes have been designed.

The main purpose of the present invention is that the intake pipe is installed in a specific vehicle, and the first pipe body is made of a metal material, and the air inlet formed on the two sides of the hollow first passage and The first set of interfaces is respectively provided with a first socket portion and a first connecting portion, and the first tube body is formed between the first socket portion and the first connecting portion, and is formed to be bent upward and then away from the first socket portion. a first curved portion of the curved portion, wherein the second tubular body is made of a metal material, and the second connecting portion and the exhausting port formed on the two sides of the hollow second passage are respectively provided with a second connecting portion and a second sleeve a first bending portion is formed between the first socket portion and the first connecting portion, and the first bending portion is bent upward and then bent away from the first socket portion, and then the first tube body and the first tube body The first pipe joint and the second joint portion are integrally connected with the elastic material joint sleeve, and the first pipe body and the second pipe body respectively utilize the first socket portion and the second sleeve portion The joint is installed on the exhaust joint of the specific vehicle central cooler and the intake joint of the engine intake manifold The first curved section and the second curved section can be used to facilitate the installation of the engine room, and when the compressed air output by the central cooler enters the intake pipe, the first pipe body and the second pipe can be used. The curved channel is used to smoothly guide the compressed air, and the structural strength of the metal material of the intake pipe itself is used to avoid structural damage caused by the high-speed flow of the compressed air, and the heat transfer coefficient of the metal material is high, so that the compressed air can pass through. When the temperature is lowered to reduce the pressure loss and the oxygen content is relatively increased, the combustion efficiency of the compressed air to be quickly discharged through the intake manifold into the engine can be achieved.

The second purpose of the creation is that the first pipe body and the second pipe body of the air intake pipe are integrally connected by a connecting sleeve made of an elastic material, and when the air intake pipe is to be installed in the engine room, The elastic characteristics of the adapter sleeve can be used to achieve the effect of easy socketing and assembly, so as to speed up the overall assembly, thereby improving the assembly convenience, thereby reducing the assembly cost.

Another purpose of the present invention is that the first connecting portion of the first pipe body is formed with a first thickening portion for thickening the inner wall surface from the periphery of the first sleeve interface toward the first passage, and the second pipe is formed. The second connecting portion of the body is formed by a second thickening portion for thickening the inner wall surface from the periphery of the second sleeve interface toward the second passage. When the first connecting portion and the second connecting portion are engaged by the connecting sleeve, The first thickening portion and the second thickening portion can be used to increase the overall structural strength, so that the first connecting portion and the second connecting portion are not easily pressed by the inner wall surface of the connecting sleeve to cause structural deformation and damage. Thereby achieving the purpose of improving the durability and service life of the use.

1‧‧‧Intake pipe

11‧‧‧First tube

110‧‧‧First Passage

1101‧‧‧air inlet

1102‧‧‧ first set of interfaces

111‧‧‧First socket

112‧‧‧ First Connection

1121‧‧‧First thickening

1122‧‧‧First buckle ring

113‧‧‧First curved section

12‧‧‧Second body

120‧‧‧second channel

1201‧‧‧Second interface

1202‧‧‧Exhaust port

121‧‧‧Second Linkage

1211‧‧‧Second thickening

1212‧‧‧Second Cartridge

122‧‧‧Second socket

1221‧‧‧through slot

1222‧‧‧Retention components

123‧‧‧second curved section

124‧‧‧Exhaust gas recovery fittings

13‧‧‧Connecting sleeve

130‧‧‧Connected space

131‧‧‧First interface

132‧‧‧Second interface

14‧‧‧Bundle

2‧‧‧Central Cooler

21‧‧‧Intake joint

22‧‧‧Exhaust joint

3‧‧‧Intake manifold

31‧‧‧Intake joint

311‧‧‧Round groove

The first picture is a three-dimensional appearance of the creation.

The second picture is a three-dimensional exploded view of the creation.

The third figure is the usage state diagram before the creation of the creation.

The fourth figure is the usage state diagram after the creation of the creation.

The fifth figure is a partial side cross-sectional view of the original assembly.

Attachment 1 is a specification drawing for the creation of a specific vehicle.

In order to achieve the above objectives and effects, the technical means and structure of the present invention are described in detail in the preferred embodiment of the present invention, and the features and functions are as follows.

Please refer to the first and second figures, which are the three-dimensional appearance and three-dimensional exploded view of the creation. It can be clearly seen from the figure that the intake pipe 1 of the present invention includes the first pipe body 11 and the second pipe body. 12 and the adapter sleeve 13, wherein: The first pipe body 11 is made of a metal material, and a hollow first passage 110 is formed therein, and an air inlet 1101 and a first socket 1102 are formed at two sides of the first passage 110, and the first The first body portion 111 is disposed at the air inlet 1101, and the first connector portion 112 is disposed at the first socket 1102. The first pipe body 11 is located at the first socket portion 111 to The first connecting portion 112 is formed with a first curved portion 113 that is bent upward and then bent away from the first socket portion 111.

The length of the second pipe body 12 is larger than the length of the first pipe body 11 and is made of a metal material, and a hollow second passage 120 is formed therein, and a second sleeve is formed at two sides of the second passage 120. The second pipe body 12 is disposed at the second socket 1201 at the second socket 1201, and the second socket 122 is disposed at the other air outlet 1202. The tubular body 12 is formed between the second engaging portion 121 to the second socket portion 122 and has a second curved section 123 bent upward and bent toward the other side of the second engaging portion 121.

The connecting sleeve 13 is made of an elastic material (such as rubber or plastic), and a connecting space 130 is formed in the connecting sleeve 13 , and a first interface 131 and a second connecting body are formed on two sides of the connecting space 130 . Port 132.

The first connecting portion 112 of the first pipe body 11 is formed with a first thickening portion 1121 for thickening the inner wall surface from the periphery of the first socket 1102 toward the first passage 110, and the first engaging portion 112 is spaced from the surface. An annular first fastening ring 1122 is protruded from the first interface 1102 at a distance, and the second connecting portion 121 of the second tubular body 12 is oriented from the periphery of the second socket 1201 toward the second channel 120. Forming a second thickening portion 1211 for thickening the inner wall surface, and then separating the second connecting portion from the surface of the second connecting portion 121 An annular second securing ring 1212 is protruded from a distance of 1201.

Furthermore, the second sleeve portion 122 of the second tube body 12 is provided with at least two through slots 1221 communicating with the second channel 120, and the latching member 1222 is disposed in the through slot 1221. The second tubular body 12 is provided with at least one exhaust gas recovery joint 124 connected to the second passage 120 at a position close to the middle portion.

However, the aperture of the air inlet 1101 on the side of the first channel 110 is larger than the aperture of the first socket 1102 on the other side, and the aperture of the first socket 1102 is equal to the second socket 1201 on the side of the second channel 120. The aperture is smaller, and the aperture of the second set of interfaces 1201 is smaller than the aperture of the other side of the exhaust port 1202.

In addition, the metal material of the first pipe body 11 and the second pipe body 12 of the intake pipe 1 is preferably an aluminum alloy, but in practical applications, it may be stainless steel or other metal having high heat transfer coefficient and fast heat dissipation characteristics. .

In the assembly, the first pipe body 11 and the second pipe body 12 of the intake pipe 1 are firstly connected through the adapter sleeve 13 so that the first connecting portion 112 and the second portion of the first pipe body 11 are connected. The second connecting portion 121 of the tubular body 12 enters the first interface 131 and the second interface 132 of the adapter sleeve 13 respectively, and the surfaces of the first engaging portion 112 and the second engaging portion 121 are received by the inner wall surface of the connecting sleeve 13 The first fastening ring 1122 of the first connecting portion 112 and the second fastening ring 1212 of the second connecting portion 121 are embedded in the inner wall surface of the connecting sleeve 13 to be positioned, and then can be positioned in the first tube. At least one bundle ring 14 is respectively mounted on the surface of the engaging portion of the body 11 and the second tubular body 12 and the adapter sleeve 13, and the first tubular body 11 and the second tubular body 12 are locked by locking at least one bundle ring 14 The joint between the joint sleeve 13 and the joint sleeve 13 is further tightened to form a sealed state, thereby completing the assembly of the present creation.

Please refer to the third, fourth and fifth figures and the attached one. It is the usage state diagram before assembly, the assembled state diagram after assembly, the partial side sectional view after assembly and the specification drawing of the specific vehicle. As can be clearly seen in the figure, the intake pipe 1 of the present invention is installed in a specific vehicle (as shown in Annex I, the specification of the specific vehicle in the accessory). The central cooler 2 and the engine of the engine room turbocharger system are advanced. The gas manifold 3 or the throttle valve (not shown) in the front end intake position of the intake manifold 3 is connected to the air outlet of the turbine by the intake joint 21 of the central cooler 2 when the engine is running The high-temperature and high-speed exhaust gas discharged from the time flows into the turbine on the exhaust side, and the turbine in the turbine chamber can be rotated by the inertial force of the exhaust gas, and the turbine can be coaxially driven to rotate the impeller at the same time, so that the air entering through the impeller can be Forced compression, and the air whose temperature rises rapidly after compression is dissipated through the inside of the central cooler 2, and is cooled to a compressed air with a certain pressure and high density, and the temperature of the compressed air is low, and the oxygen content thereof is also increased. And then enters the engine cylinder through the exhaust joint 22 of the central cooler 2, the intake pipe 1, the throttle valve and the intake manifold 3, and when the engine speed increases, the exhaust gas discharge speed and the turbine speed are also synchronized. By increasing the speed and allowing the impeller to compress more air, the throttle valve can be used to control the flow rate of compressed air through the intake manifold 3 into the engine cylinder, and the combustion air can be burned more due to the increased pressure and density. The fuel can increase the fuel amount and increase the combustion efficiency in the engine cylinder to increase the output of the engine.

When the intake pipe 1 is assembled between the central cooler 2 and the intake manifold 3 of the engine, the first pipe body 11 is first placed in the row of the central cooler 2 at the air inlet 1101 of the first passage 110. At the gas joint 22, the first sleeve portion 111 of the first tube body 11 is sleeved on the venting joint 22, and can be penetrated by the venting joint 22 and pressed against the inner wall surface of the first socket portion 111. Positioned to form a dense junction between the exhaust joint 22 and the first socket portion 111 In the sealed state, the second tubular body 12 is located at the air inlet joint 31 of the intake manifold 3 at the exhaust port 1202 of the second passage 120, so that the second socket portion 122 of the second tubular body 12 can be The second socket portion 122 is disposed on the annular groove 311 on the outer surface of the air inlet joint 31, and the inner wall surface of the second socket portion 122 is received. After the elastic deformation of the gas joint 31 is elastically deformed, a sealing state can be formed between the second socket portion 122 and the air inlet joint 31, and then the fastening member 1222 can be inserted into the second socket portion. The second sleeve portion 122 is not easily disengaged from the intake joint 31 of the intake manifold 3, and is disposed in the annular groove 311 of the intake joint 31. The utility model has the advantages of stable blocking positioning and anti-retraction. The holding component 1222 can facilitate the assembly of the intake pipe 1 and the intake manifold 3, and at the same time ensure the stability of the overall structure, and the intake pipe 1 Since the first pipe body 11 and the second pipe body 12 respectively have the first curved section 113 and the second curved section 123, the intake pipe 1 can avoid the engine room during the installation process. Various devices (not shown) of the barrier, hinder, the intake tube 1 to be smoothly, easily installed in the engine compartment, thus achieving the effect of lifting the convenience of assembly work.

When the compressed air output from the central cooler 2 enters the intake port 1101 at the side of the intake pipe 1 via the exhaust port 22, and is discharged from the exhaust port 1202 at the other side of the intake pipe 1, The first curved section 113 curved by the first tubular body 11 and the second curved section 123 curved by the second tubular body 12 can be guided to make the compressed air flow smoothly without being blocked or hoarded. By smoothly passing through the throttle valve and the intake manifold 3 into the engine cylinder to increase the flow rate of the compressed air into the engine cylinder, the fuel amount can be increased correspondingly to improve the combustion efficiency and output power in the engine cylinder. The intake pipe 1 is made of an aluminum alloy material, and the structure of the first pipe body 11 and the second pipe body 12 is curved. The compressed air is guided to avoid the occurrence of airflow disturbance or chaos in the first passage 110 of the first pipe body 11 and the second passage 120 of the second pipe body 12, so that the compressed air flow is more stable. Smooth and smooth, it can also reduce the noise caused by airflow disturbance, and because the aluminum alloy material of the air intake pipe 1 has good structural strength, it can avoid structural damage or damage caused by high-speed flow of compressed air and is durable. The aluminum alloy material of the intake pipe 1 has a high heat transfer coefficient and a fast heat dissipation property, so that the temperature of the compressed air passes through the first passage 110 and the second passage 120 to reduce the pressure loss, and the compressed air intake air temperature is lower. The oxygen content will also increase relatively, and the combustion air will be quickly discharged and then enter the engine through the throttle valve and the intake manifold 3 to achieve better combustion efficiency, and the fuel amount can be increased accordingly to greatly increase the output of the engine.

Furthermore, the first pipe body 11 and the second pipe body 12 of the present intake pipe 1 are integrally connected by a connecting sleeve 13 made of an elastic material, and the intake pipe 1 is intended to be installed in the center of the engine room. When the cooler 2 and the intake manifold 3 of the engine are used, the elastic characteristics of the adapter sleeve 13 can be utilized to achieve the effect of easy socketing and assembly, thereby accelerating the smoothness and speed of the overall assembly, thereby improving the assembly convenience. Sexuality, thereby achieving the effect of reducing assembly costs.

However, the inner wall surface of the first connecting portion 112 of the first tubular body 11 and the second connecting portion 121 of the second tubular body 12 are respectively thickened and provided with a first thickening portion 1121 and a second thickening portion 1211, When the first connecting portion 112 and the second connecting portion 121 are engaged by the connecting sleeve 13, the first thickening portion 1121 and the second thickening portion 1211 can be transmitted to increase the overall structural strength, so that the first connecting portion 112 and The second connecting portion 121 is not easily deformed by the inner wall surface of the connecting sleeve 13 to cause structural deformation, damage, and the like, thereby achieving the effect of improving durability and service life in use.

The above detailed description is intended to illustrate a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and other equivalents and modifications may be made without departing from the spirit of the invention. Changes are to be included in the scope of patents covered by this creation.

In summary, the above-mentioned intake pipe is used to achieve its efficacy and purpose. Therefore, this creation is a new type of practicality, which is in line with the application requirements of the new patent. I hope that the trial committee will grant this case as soon as possible to protect the hard work of the creators. If there is any doubt in the ruling committee, please do not hesitate to give instructions, the creators will try their best to cooperate and feel polite.

1‧‧‧Intake pipe

11‧‧‧First tube

1101‧‧‧air inlet

1102‧‧‧ first set of interfaces

111‧‧‧First socket

112‧‧‧ First Connection

1122‧‧‧First buckle ring

113‧‧‧First curved section

12‧‧‧Second body

120‧‧‧second channel

1201‧‧‧Second interface

1202‧‧‧Exhaust port

121‧‧‧Second Linkage

1211‧‧‧Second thickening

1212‧‧‧Second Cartridge

122‧‧‧Second socket

1221‧‧‧through slot

1222‧‧‧Retention components

123‧‧‧second curved section

124‧‧‧Exhaust gas recovery fittings

13‧‧‧Connecting sleeve

130‧‧‧Connected space

131‧‧‧First interface

132‧‧‧Second interface

14‧‧‧Bundle

Claims (9)

An intake pipe, in particular, an intake pipe installed between an exhaust joint of a preset specific vehicle central cooler and an intake joint of an engine intake manifold, the intake pipe system comprising a first pipe body and a second pipe a pipe body and a connecting sleeve, wherein: the first pipe body is made of a metal material, and a hollow first passage is formed therein, and an air inlet and a first socket are formed at two sides of the first passage, The first pipe body is located at the air inlet with a first socket portion which is sleeved on the exhaust connector of the preset central cooler, and the first connector portion is provided with the first connection portion at the other side of the other socket, and a tube body is formed between the first socket portion and the first joint portion, and has a first curved portion bent upward and then bent away from the first socket portion; the second tube body is made of a metal material, and a hollow second passage is formed therein, and a second socket and an exhaust port are formed at two sides of the second passage, and the second pipe body is provided with a second connecting portion at the second socket, and then the other side a second socket for the air inlet joint of the preset engine intake manifold is provided at the exhaust port, and the second pipe body is provided Forming a second curved portion bent upwardly and then bent toward the other side of the second connecting portion between the second connecting portion and the second socket portion, and connecting between the first pipe body and the second pipe body a connecting sleeve; the connecting sleeve has a connecting space formed therein, and a first interface for sleeved on the first connecting portion is formed on one side of the connecting space, and the other side is formed to be sleeved in the second The second interface on the interface. The intake pipe according to claim 1, wherein the first connecting portion of the first pipe body is formed by a first thickening of the inner wall surface formed by the first casing edge toward the first passage direction. And the second connecting portion of the second tubular body is from the periphery of the second sleeve to the second passage The direction is formed with a second thickening portion that thickens the inner wall surface. The intake pipe of claim 1, wherein a surface of the first connecting portion of the first pipe body is located at a distance from the first socket and is provided with a ring for being embedded in the inner wall surface of the connecting sleeve. The first fastening ring is formed, and the surface of the second connecting portion of the second tubular body is disposed at a distance from the second socket at a distance from the annular second securing ring for being embedded in the inner wall surface of the connecting sleeve. The intake pipe of claim 1, wherein an aperture of the air inlet on one side of the first channel is larger than an aperture of the first socket on the other side, and the aperture of the first interface is equal to the second channel. The aperture of the second set of interfaces on one side, and the aperture of the second set of interfaces is smaller than the aperture of the other side exhaust. The intake pipe of claim 1, wherein the second sleeve portion of the second pipe body is provided with at least two through grooves connected to the second passage, and the through grooves are penetrated. With holding elements. The intake pipe according to claim 1, wherein the second pipe surface is disposed at a position close to the middle portion to provide at least one exhaust gas recovery joint connected to the second passage. The intake pipe of claim 1, wherein the length of the second pipe of the intake pipe is greater than the length of the first pipe body. The intake pipe of claim 1, wherein the second interface of the adapter sleeve has a larger aperture than the first interface. The intake pipe of claim 1, wherein the first pipe body of the air intake pipe and the surface of the joint between the second pipe body and the adapter sleeve are respectively provided with at least one bundle for forming a sealed state. ring.