KR100933880B1 - Device for heating and suppling used oil - Google Patents

Abstract

PURPOSE: A device for heating and supplying waste oil is provided to measure the temperature of a preheating block and the waste oil passing through the preheating block. CONSTITUTION: A device for heating and supplying waste oil comprises a preheating block, an oil supply part, a first cap, a second cap, an oil raising path, an oil lowering path, a connection path, an oil pressure regulator, an oil outlet(90), a preheating rod insertion hole(100), and a preheating rod(110). Three oil circulation paths are formed in parallel in the preheating block. The oil supply part is connected to the right oil circulation path. The first and the second cap are connected to the middle and the left oil circulation paths. The oil raising path is formed on top of one end of the middle oil circulation path. The oil lowering path is formed on top of one end of the left oil circulation path. The connection path connects the other end of the middle oil circulation path and the right oil circulation path. The oil pressure regulator is connected to the oil raising path and the oil lowering path above the preheating block. The oil outlet is formed on top of the other end of the left oil circulation path. The preheating rod insertion hole is formed inside the preheating block in the longitudinal direction. The preheating rod is inserted in the preheating rod insertion hole.

Description

Waste Oil Heating Supply {DEVICE FOR HEATING AND SUPPLING USED OIL}

The present invention relates to a waste oil heat supply device, and more particularly, to a waste oil heat supply device capable of effectively heating waste oil and supplying at an accurate pressure and temperature.

In general, engine oil is injected into the engine of an automobile to lubricate the components of the engine to operate smoothly. Since the engine oil circulates in a high-temperature engine and performs lubrication, when the automobile is driven over a certain distance, the engine oil is deteriorated and the impurity concentration is increased in the oil, thereby rapidly decreasing the lubrication effect. When the lubrication effect is lowered in this way, the engine oil is replaced when the vehicle runs for a predetermined distance to extend the useful life of the engine because it damages the engine.

The amount of waste engine oil generated by this exchange increases with the increase of automobiles, and in addition to automobiles, a large amount of waste engine oil is generated in a variety of equipment such as ships or mechanical facilities.

Since these waste engine oils are very serious pollutants themselves, proper management and treatment are required, and the entire amount is recovered, purified and recycled. However, the most effective waste engine oil recycling method is to effectively recover the thermal energy at the place of generation to prevent secondary pollution and reduce the cost of recovery and purification.

However, in order to recover waste energy by burning waste engine oil, a combustion apparatus capable of recycling waste oil as fuel for heating while minimizing generation of pollutants is required. In other words, the development of the waste oil heating supply device, which is a key part of the combustion device that can effectively completely burn waste engine oil to minimize the generation of pollutants, is a requirement of the era of ultra high oil prices.

The technical problem to be solved by the present invention is to provide a waste oil heating supply apparatus that can effectively heat the waste oil, and supply at an accurate pressure and temperature.

Waste oil heating supply apparatus according to the present invention for achieving the above-described technical problem, three oil circulation paths are preheated block of metal material formed side by side in the longitudinal direction; An oil supply unit coupled to an inlet of a right oil circuit of the three oil circuits; First and second caps coupled to the center and left oil circuits of the three oil circuits; An oil riser formed through one end of the central oil circulation passage; An oil lowering passage formed through one end of the left oil circulation passage; A connection path connecting the other end of the right oil circuit and the central oil circuit; An oil pressure control unit coupled to the oil riser and the oil descender at the top of the preheating block to adjust the amount of oil; An oil outlet formed through the other end of the left oil circuit; A preheating rod insertion hole formed in the longitudinal direction of the preheating block; It includes; a preheating rod coupled to the preheating rod insertion hole.

In the present invention, the oil pressure control unit, characterized in that for controlling the oil pressure by adjusting the amount of the oil moving through the oil riser and the oil downturn.

And the side of the preheating block, it is preferable that the temperature controller for measuring and adjusting the temperature of the preheating block is further coupled to accurately measure and adjust the temperature of the preheating block and the waste engine oil supplied.

In addition, the side of the preheating block, the oil pressure gauge assembly hole is further formed connected to the end of the left oil circulation path, the oil pressure gauge assembly is further coupled to the oil pressure gauge, it is possible to accurately adjust the pressure and amount of waste oil supplied It is preferable.

Waste oil heating supply device of the present invention is simple in structure and easy to manufacture, there is an effect that can supply the waste oil by adjusting the temperature and pressure very precisely.

Hereinafter, with reference to the accompanying drawings will be described in detail a specific embodiment of the present invention.

As shown in FIG. 1, the waste oil heating supply apparatus according to the present embodiment includes a preheating block 10, an oil supply unit 160, first and second caps 32 and 42, an oil riser 60, and an oil. The downhill 70, the connection path 50, the oil pressure control unit 80, the oil outlet 90, preheating rod insertion hole 100 and is configured to include a preheating rod (110).

First, the preheating block 10 forms the overall shape of the waste oil heating supply apparatus according to the present embodiment, and is preferably made of a metal material having excellent thermal conductivity and easy processing. The preheating block 10 may have various shapes, for example, may have a rectangular parallelepiped structure, as shown in FIG.

As shown in FIGS. 3 and 4, three oil circulation paths 20, 30, and 40 are formed in the preheating block 10 side by side in the longitudinal direction of the preheating block 10. This oil circuit is formed by drilling a straight line from one side of the preheating block 10 to the other side for ease of processing. The inlet of the right oil circuit 20 of the three oil circuits is connected to the oil supply unit 160 for supplying waste oil from the outside.

The other end of the left oil circuit 20 is in communication with the other end of the central oil circuit 30 in the preheating block 10 through the connecting passage 50. Therefore, the waste oil supplied from the oil supply unit 160 passes through the left oil circulation path 20 and passes through the connection path 50 to the central oil circulation path 30. One end of the central oil circuit 30 is closed by the first cap 32, as shown in FIG.

One end of the central oil circulation path 30 passes through the preheating block 10 in an upward direction to form an oil rising path 60. Since the waste oil supplied through the central oil circulation path 30 is blocked by the first cap 32, the oil rises along the oil rising path 60.

Meanwhile, as illustrated in FIGS. 3 and 4, the right oil circuit 40 is formed to be parallel to the central oil circuit 30, and is separated from the central oil circuit 30 without being connected through a separate connection passage. Has a structure. In this case, one end of the oil circuit 40 has a structure closed by the second cap 42.

In addition, an oil lowering path 70 is formed at a portion adjacent to the oil rising path 60 in the right oil circulation 40 path through the preheating block 10 upward. As shown in FIG. 2 in a shape surrounding the inlet of the oil rising path 60 and the oil lowering path 70, a coupling part 164 is formed and the oil pressure adjusting part 120 is coupled to the coupling part 164. do.

As shown in FIG. 4, the oil pressure adjusting unit 120 has a structure in which a control pin 168 is formed at the center of the round plate 166. The control pin 168 is inserted into the oil riser 60, the round plate 166 is inserted into the coupling portion 164. The round plate 166 is raised and lowered by rotating the adjusting lever 122. In conjunction with the rising and falling of the round plate 166, the adjusting pin 168 is also being adjusted to adjust the amount of oil passing through the oil riser 60 and the oil down the furnace 70.

For this purpose, as shown in FIG. 4, the cross-sectional shape of the oil rising path 60 may have a stepped shape that gradually widens upward. Therefore, when the control pin 168 rises a lot, the amount of waste oil passing through the oil riser 60 increases, and the oil pressure increases. When the control pin 168 falls, the control pin 168 passes through the oil riser 60. The amount of waste oil is reduced and the oil pressure drops.

In addition, an oil outlet 90 is formed at the other end of the left oil circuit 40 through the preheating block 10 upward. The oil outlet 90 is a path through which the waste oil circulated through the preheating block 10 is finally discharged. In the preheating block 10 according to the present embodiment, as described above, the supplied waste oil circulates through the three oil circulation passages 20, 30, and 40, and the temperature rises appropriately and is discharged through the oil outlet 90. Will be.

Meanwhile, as shown in FIG. 1, the preheating rod insertion hole 100 is formed in the longitudinal direction of the preheating block 10. The preheating rod insertion hole 100 is formed in a structure that is not in communication with the oil circulation paths 20, 30, 40, a plurality may be formed to evenly heat the entire preheating block 10. The preheating rod 110 is inserted into the preheating rod insertion hole 100 to heat the preheating block 10.

In addition, the preheating block 10 according to the present embodiment, as shown in Figure 1, the temperature controller 130 may be further coupled to its side. The temperature controller 130 is an indicator for determining the operation of the preheating rod 110 by accurately measuring the temperature of the preheating block 10 in real time. In this embodiment, the temperature controller 130 can accurately measure and adjust the temperature of the preheating block 10 and the waste oil passing through the preheating block 10.

Next, as shown in FIGS. 1 and 3, an oil pressure gauge assembly hole 82 is further formed at the side of the preheating block 10 and connected to an end of the left oil circuit 40, and the oil pressure gauge assembly hole ( 82 is preferably further coupled to the oil pressure gauge (80). The oil pressure gauge 80 accurately measures the pressure of the waste oil discharged through the end of the left oil circulation path 40, and controls the oil pressure adjusting unit 120 using this as an index.

1 is a perspective view showing the structure of a waste oil heating supply device according to an embodiment of the present invention.

2 is a partial perspective view of a waste oil heating supply device according to an embodiment of the present invention.

3 is a cross-sectional view of a waste oil heating supply device according to an embodiment of the present invention.

Figure 4 is a cross-sectional view of another direction of the waste oil heating supply apparatus according to an embodiment of the present invention.

Claims (4)

A preheating block of metal material in which three oil circulation paths are formed side by side in the longitudinal direction; An oil supply unit coupled to an inlet of a right oil circuit of the three oil circuits; First and second caps coupled to the center and left oil circuits of the three oil circuits; An oil riser formed through one end of the central oil circulation passage; An oil lowering passage formed through one end of the left oil circulation passage; A connection path connecting the other end of the right oil circuit and the central oil circuit; An oil pressure control unit coupled to the oil riser and the oil descender at the top of the preheating block to adjust the amount of oil; An oil outlet formed through the other end of the left oil circuit; A preheating rod insertion hole formed in the longitudinal direction of the preheating block; Waste oil heating supply device comprising a; preheating rod coupled to the preheating rod insertion hole. The oil pressure control unit of claim 1, Waste oil heating supply device characterized in that for controlling the oil pressure by adjusting the amount of oil moving through the oil riser and the oil downturn. The method of claim 1, Side of the preheating block, waste oil heating supply characterized in that it is further coupled to a temperature controller for measuring and adjusting the temperature of the preheating block. The method of claim 1, Side of the preheating block, the oil pressure gauge assembly hole is further formed connected to the end of the left oil circulation path, the oil pressure gauge assembly hole, characterized in that the oil pressure gauge is further coupled to the waste oil heating supply device.

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