Anyuan Equipment

By using the Anyuan device to extract heat from the circulating water of the internal combustion engine and generate steam for the engine's use, the problem of heat loss from the internal combustion engine is solved, and the efficiency of heat utilization is improved.

CN122304845APending Publication Date: 2026-06-30王洪南

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
王洪南
Filing Date
2024-12-30
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The heat emitted by the internal combustion engine during operation is not effectively utilized, resulting in heat loss.

Method used

Design an energy-saving device that absorbs heat from the circulating water of an internal combustion engine through a water storage tank, and uses a high-pressure pump and a high-pressure tank to heat the water to generate steam for reuse in the internal combustion engine.

Benefits of technology

It enables the reuse of exhaust heat from internal combustion engines, improves heat utilization efficiency, and saves energy.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN122304845A_ABST
    Figure CN122304845A_ABST
Patent Text Reader

Abstract

One type of heat recovery device is used to reuse the heat discharged from an internal combustion engine. It includes a water storage tank connected to the internal combustion engine's circulating water system via pipes, absorbing heat to power the heat recovery device. The heat recovery device is also connected to the internal combustion engine's exhaust pipe via pipes, absorbing heat from the engine's exhaust and heating the water within it into steam for reuse in the engine.
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Description

Technical Field

[0001] This invention relates to an external device for internal combustion engines, which reuses the heat discharged from the internal combustion engine. Background Technology

[0002] Currently, all kinds of internal combustion engines emit heat during operation, which is wasted if not reused. The present invention, the Anyuan device, is an external device that reuses the heat emitted by the internal combustion engine. Summary of the Invention

[0003] The purpose of this invention is to use a heat source device to heat the water into steam to supply the internal combustion engine with the heat discharged from the internal combustion engine and the heat of the internal circulating water.

[0004] The present invention provides a water source for the safety device by placing a water tank (4) outside the internal combustion engine (1) to provide water for the safety device. The water tank (4) is connected to the circulating water of the internal combustion engine (1) through pipes (6, 7) to absorb the internal heat of the internal combustion engine (1). The water tank (4) is circular in shape and wrapped with insulation material. The water tank (4) is made of steel plate, with a water inlet (5) on the top and two outlets on the bottom connected to the circulating water of the internal combustion engine (1) through pipes (6, 7). An outlet on the side is connected to the high-pressure pump (9) and the safety device through pipe (8). The high-pressure pump (9) is equipped with a motor (10) and an automatic switch (11) to supply water to the safety device. It will automatically turn on when the water level in the safety device is lower than the lower limit and automatically turn off when the water level is raised to the upper limit. The motor (10) is powered by the circuit system of the internal combustion engine (1).

[0005] The present invention provides an energy-saving device with a circular shape (12), the outer layer of which is wrapped with heat-insulating material and the inner layer is made of steel plate. It has four ports on the top. One port is connected to the exhaust pipe (3) of the internal combustion engine through a pipe (3), one port is used by the safety valve (13) of the energy-saving device, and the other two ports are connected to the high-pressure pump (9) of the energy-saving device through a pipe (8) and the intake pipe (2) of the internal combustion engine through a pipe (14). There is a port at the bottom, through which the gas from the internal combustion engine (1) after the energy-saving device is used is discharged through a pipe (18).

[0006] The present invention provides an energy-saving device with a high-pressure pump (19) inside. The high-pressure pump (19) has three ports: one for a safety valve (13), and two for connecting a high-pressure pump (9) via a pipe (8) and a pneumatic rod (15) and an internal combustion engine (1) intake pipe (2) via a pipe (14). Two ports are located below for a spiral pipe (20) made of seamless steel tubing at the bottom of the energy-saving device. The purpose of this device is to absorb heat from the internal combustion engine (1) as it passes through, heating the water inside the device into steam for reuse by the internal combustion engine (1).

[0007] The operation of the safety device of the present invention is as follows: a pressure pneumatic rod (15) is installed in the steam pipe (14), and a push rod (23) pushes and pulls the lever arm (17), which in turn pushes and pulls the central shaft (16) to control the three-way switch (21) to rotate back and forth (open) (close). The three-way switch (21) is shown in the attached drawing of the specification. Figure 2 The three switches are: first, the steam pipe switch (14), which is a switch between the steam pipe and the internal combustion engine intake pipe; second, the internal combustion engine intake pipe switch (2), which is a switch between the internal combustion engine intake pipe and the internal combustion engine intake pipe. The internal combustion engine intake pipe is shown in the attached diagram in the instruction manual. Figure 2 Thirdly, there is an oil supply switch (24), which is a switch installed in the oil supply system. A long shaft (16) connects the three switches (21). When the steam pressure reaches the operating pressure (4 kg), the pressure pneumatic rod (15) installed on top is pushed out by the pressure to push the rod (23) (opening). At this time, the steam switch is opened, and the intake pipe (2) switch of the internal combustion engine (1) and the oil supply switch (24) are closed. At this time, steam is supplied to the internal combustion engine (1) through the pipe (14) to push the piston to run. When the steam pressure is lower than the operating pressure, the steam supply is used to supply the internal combustion engine (1) with steam. The steam supply is used to supply the internal combustion engine (1) with steam. The steam supply is used to supply the internal combustion engine (1) with steam. The steam supply is used to supply the internal combustion engine (1) with steam. When the steam pressure is lower than the operating pressure, the steam supply is used to supply the internal combustion engine (1) with steam. The steam supply is used to supply the internal combustion engine (1) with steam. The steam supply is used to supply the internal combustion engine (1) with steam. The steam supply is used to supply the internal combustion engine (1) with steam. The steam supply is used to supply the internal combustion engine (1) with steam. The steam supply is used to supply the internal combustion engine (2 ... Attached Figure Description The attached figure is a simplified structural diagram of the present invention according to an embodiment. In the figure, (1) is an internal combustion engine, (2) is the intake pipe of the internal combustion engine, (3) is the exhaust pipe of the internal combustion engine, (4) is a water tank, (5) is the water inlet of the water tank, (6) is the water inlet pipe of the internal combustion engine, (7) is the water outlet pipe of the internal combustion engine, (8) is the water inlet pipe of the high-pressure pump, (9) is the high-pressure pump, (10) is the motor, (11) is the automatic switch of the motor, (12) is the housing of the safety device, (13) is the safety valve, (14) is the steam pipe, (15) is the pressure pneumatic rod, (16) is the central shaft, (17) is the lever arm, (18) is the exhaust pipe of the safety device, (19) is the high-pressure tank of the safety device, (20) is the spiral seamless steel pipe of the safety device, (21) is the three-way switch, (22) is the spring, (23) is the push-pull rod, and (24) is the oil supply pipe. Figure 1 This is a structural diagram. Figure 2 This is a diagram of the internal structure.

Claims

1. An energy source device utilizes the heat discharged from an internal combustion engine (1) and the heat of the circulating water of the internal combustion engine (1). Through multiple pipes (2, 3, 6, 7, 8, 14, 18, 24), the intake pipe (2) and exhaust pipe (3) of the internal combustion engine (1) and the circulating water and water storage tank (4), high pressure pump (9), pressure pneumatic rod (15), long shaft (16), and three-way switch (21) are connected to the energy source device. The heat of the internal combustion engine (1) is used to heat the water into steam for the internal combustion engine (1) to be used again.

2. The safety device according to claim 1, characterized in that... The aforementioned Anyuan device is cylindrical (12) in shape. The outer layer is a heat insulation layer, and the inner layer is a large cylindrical barrel (12) made of steel plate. The large cylindrical barrel (12) has four openings. One is a safety valve (13) protruding out for use. Another is connected to the exhaust pipe (3) of the internal combustion engine through a pipe. The other two openings are connected to the intake pipe (2) of the internal combustion engine (1) through a pipe (14) and to the high-pressure pump (9) through a pipe (8). There is an opening at the bottom that discharges the used gas through a pipe (18).

3. The Anyuan device according to claim 1, wherein a cylindrical water storage tank (4) is provided next to the Anyuan device, the outer layer of the water storage tank (4) is a heat insulation layer, the water storage tank (4) is a large cylindrical tank (4) made of steel plate, the large cylindrical tank (4) has an opening on the top as a water inlet (5), and an opening on the upper side is connected to a high-pressure pump (9) through a pipe (8), and is connected to the water inlet of the Anyuan device through a pipe (8). Two openings are provided below, one is connected to the circulating water inlet of the internal combustion engine (1) through a pipe (6), and the other is connected to the circulating water outlet of the internal combustion engine through a pipe (7), from which heat is absorbed from the internal combustion engine (1).

4. The safety device according to claim 1, wherein the pressure pneumatic rod (15) pushes and pulls the three-way switch (21) by the pressure and spring (22) inside the safety device (that is, a long shaft (16) is used as the central axis of the three switches to control the three switches at the same time).

5. According to claim 4, when the operating pressure is reached, the pressure pushes the push rod (23), which in turn pushes the control arm (17) to rotate forward (open), while simultaneously closing the intake pipe (2) of the internal combustion engine (1) and the oil supply pipe (24). When the operating pressure is lower than the operating pressure, the spring (22) pushes the push rod (23) back, and the push rod (23) pulls the control arm (17) to rotate backward (close), while simultaneously opening the intake pipe (2) of the internal combustion engine (1) and the oil supply pipe (24).

6. The safety device according to claim 1, wherein a high-pressure tank (19) is made inside the safety device using a steel plate. The high-pressure tank (19) has three ports on top, one of which is the exhaust port of the safety valve (13). The other two ports are connected to the high-pressure pump (9) through a pipe (8) to add water to the safety device, and the other port is connected to the intake pipe (2) of the internal combustion engine (1) through a pipe (14). Two ports are provided at the bottom of the high-pressure tank (19) for use by a spiral tube (20) made of seamless steel pipe (heat absorption).

7. The Anyuan device according to claim 1, wherein the high-pressure pump (9) is powered by a motor (10), the power supply of the motor (10) is provided by the circuit system of the internal combustion engine (1), the motor (10) switch is an automatic switch (11), the automatic switch (11) is controlled by the water level inside the Anyuan device, when the water level inside the Anyuan device is lower than the lower line, it will automatically open to supply water to the Anyuan device, and when the water level is raised to the upper line, it will automatically close.