OILS FREQUENCY CLEANER

Abstract

A brief description of the device

The machine works by frequency pressure, which is punctuated by a regular discharge of the pressure inside it and has a moving heart, a frequency movement which makes oil cleaning process not affect the basic oil properties and avoid the compression and adhesion of oil on the filters and clogged openings and oil enters the mechanism of the internal environment of the flattened and not the outer can save the deposits inside And disposal

Cleaning the surfaces of filters for the device it self because of its internal movement and there is space to collect the sediment, water disposal and cleaned manually or automatically

Claims

1. An oils frequency cleaner comprising: a reciprocating pump; it provides non-continuous pressure; and a moving internal heart with a frequency movement; it has more than one stage for oil cleaning; and three spikes; one absorbs shock from the internal movement and stabilizes the moving parts; The oil enters the machine from the internal environment of the filters in it; it does not use paper filters in its internal stages; it has a space for collecting the rock And can be cleaned manually or automatically; and can be connected more than one unit in a row or parallel to obtain higher quality or more quantities of oil that is cleaned; works whether the machine in the case of work or parking condition without affecting the original system; It is the basic system for filtering oil for any machine

2. The oil cleaner frequency according to claim 1, wherein the device operates by frequency pressure.

3. The Oil-frequency cleaner according to claim 1, wherein the internal heart is moving a frequency movement, so the sediment is scraped from the internal filter surfaces from top to bottom

4. The Oil-frequency cleaner according to claim 1, wherein the oil enters its interior flux from the inner perimeter and not from the outside. Therefore, the sediments accumulate inside the filters and not in the space surrounding the filters is form is provided in original form.

Description

MODE OF OPERATION

[0043] The device is fed by a reciprocating pump; it operates by electricity or compressed air or takes its movement from the movement of the crankshaft 00 etc. It pulls the oil to be purified,

[0044] When withdrawing from the sedimentation tank No. (14) where the oil to be purified to service No. (15) Where the oil that has been purified we do

[0045] We open the following valves

[0046] (A)-(d)-(k)

[0047] We close the following valves

[0048] (G)-(j)-(c)-(b)

[0049] When you withdraw from the service tank, the service will be shipped to (15) to ten (15)

[0050] We open the following valves

[0051] (C)-(d)-(k)

[0052] We close the following valves

[0053] (A)-(b)-(g)-(j) When cleaning the machine we are paltry

[0054] We open the following valves

[0055] (B)-(g)-(j)

[0056] We close the following valves

[0057] (A)-(c)-(d)-(k)

[0058] This is done manually or automatically as the drawing

[0059] How the Device Works as Follows

[0060] After the processing of the circuit, as we have already operated Pump No. 13, the oil is withdrawn from the tank (14) and passes through the valve number (A) and (D) to the device as the drawing allows the internal heart of the device of the frequency movement; from top to bottom; And the reaction of the spring surrounding the filters that are present in it, which returns it to its first position at the moment of pressure drop of the reciprocating pump because its pressure has the value of bone and then the pressure collapses. The zipper returns the inner heart to its first position. And then passes the oil from the first filter of its internal environment is P The oil is released into the second filter, which is a net that does not have a filler of a coarse type; it is also inserted into the oil from the inner ocean; it traps the sediments and impurities that fit the diameter of the openings; The oil comes out of it to the last filter, which is a soft mesh type and has no filler; from it to the outside of the machine to drain the service or pull the oil pump on the machine to the paper filters

[0061] Three vertical filters; one horizontal; the three vertical filters clean the oil; or horizontal allow the sediment and water to pass through to the bottom of the device

[0062] Stability of the sediment accumulation area; or springs around the vertical filters; they help in the movement of the inner heart by frequency movement; it also cleans the surface of the vertical filters; pulls the sediment down into the sediment area; and the accumulation of sediments around the separation surfaces or even inside the filters; The pressure of the filter surfaces constantly; the entry of oil in the form of waves of pressure permeated by the discharge of pressure; this leads to the pull force to the center of the filter and this leads to the lack of accumulation and adhesion of oil on the surface of the filters as well as forcing the large and heavy particles to the direction down by pressure because of the entry of oil from the top And with pressure

[0063] Device Components

[0064] As shown in FIG. 6

[0065] FIG. 1 of FIG. 6 the body of the external device

[0066] FIG. 2 of FIG. 6 bonding strap

[0067] FIG. 3 of FIG. 6 mesh filter, non-linear paper filler

[0068] No. (4) of the FIG. 6 iron disk

[0069] FIG. 5 of FIG. 6 moving metal disc

[0070] FIG. 6 of the FIG. 6 iron disk

[0071] FIG. 7 of FIG. 6 Zippers

[0072] FIG. 8 of FIG. 6 mesh filter vertical filler

[0073] FIG. 9 of FIG. 6 zippers

[0074] FIG. 10 of FIG. 6 vertical coarse mesh filter

[0075] FIG. 11 of FIG. 6 zippers

[0076] FIG. 12 of FIG. 6 Soft vertical mesh filter

[0077] FIG. 13 of FIG. 6 oil pump

[0078] FIG. 14 of FIG. 6 drag or sediment tuck

[0079] This form is provided in original form

[0080] The student starts writing a new letter on the subject of the invention on this form, and uses white papers (A4) written on one face only to complete the subject (if needed

[0081] No. (15) of FIG. 6 The package or the service

[0082] No. (16) of FIG. 6 cleaning materials

[0083] FIG. 17 of FIG. 6 a differential pressure converter

[0084] FIG. 18 of FIG. 6 controller

[0085] FIG. 19 of FIG. 6 Sediment sedimentation

[0086] No. (20) of FIG. 6 Rubber ring

[0087] FIG. 21 of FIG. 6 the emergence of a fulcrum

[0088] Figure (A) of FIG. 6 Electric & Manual Valve

[0089] No. (B) of FIG. 6 Electric & Manual Valve

[0090] No. (C) of FIG. 6 Electric & Manual Valve

[0091] Figure (D) of FIG. 6 Electric & Manual Valve

[0092] No. (g) of FIG. 6 Electric & Manual Valve

[0093] No. (K) of FIG. 6 Electric & Manual Valve

[0094] No. (Z) of FIG. 6 Electric & Manual Valve

[0095] The following curves show the effect of continuous pressure on the surface of the separator; the pressure on the same surface; how to take advantage of this and from FIG. 1 note the adhesion of oil particles on the surface of the separator and when clogged holes begin to the particles in the compression and adhesion spread between the surface Of the filter until the pump is expelled and when cleaning the filter keeps part of the contaminated oil in the circuit, which speeds up the blockage again.

[0096] Given the FIG. 2

[0097] Note that oil enters the heart of the filter from its internal environment and not from its external environment. This is the opposite of the previous filters. This causes the oil contaminated material to be present inside the filter and does not bounce again when the filter is blocked.

[0098] The sediment and water into an assembly space at the bottom of the device by its frequency movement and the movement of its internal heart and the suction surrounding the vertical filters

[0099] In view of FIG. 3

[0100] We observe the relationship between the amount of flow and the angle of the column of the attachment as well as the expulsion. As for continuous pressure on the surface of the separator, we observe the constant flow and regularity in the package. This results in continuous and increasing pressure on the separator surface, which leads to the adhesion and accumulation of the oil particles.

[0101] In view of FIG. 4

[0102] We observe the relationship between the amount of flow and the angle of the attachment column as well as the expulsion in respect of The pressure on the surface indicates a rise in pressure and a repetitive drop in each cycle; the rise and fall of the pressure translates into an action on the rise and a reaction in the opposite direction; it is also frequent and leads to the decomposition of the adjacent layer and the accumulation of oils from above the dividing surface

[0103] In view of FIG. 5

[0104] We observe the relationship between the amount of flow and the angle of the attachment column as well as the expulsion in respect of

[0105] Pressure and a corresponding discharge on the dividing surface; we observe a rise in pressure and a downward trend in the opposite direction of the same rise; this does not give the oil a chance of adhering

[0106] And the accumulation on the surface of the separator; in the case of impurities or particles adjacent to the surface of the separator; the process of landing pressure in the opposite direction able to pull it into the middle of the filter; and the movement of the heart to the interior of the device makes these sediments heading to the space of the accumulation of sediments.

EXPLANATION OF GRAPHICS

[0107] FIG. 1

[0108] Of the drawing represents the effect of continuous pressure, which is currently for the filtration of oil by the filters on the network or paper on the separation of the filter and how to block the holes and the accumulation of unwanted materials and mixing with the oil of the system as that

[0109] FIG. 1 of FIG. 1—Pull the oil pump

[0110] FIG. 2 of FIG. 1—Oil pump

[0111] FIG. 3 of FIG. 1—Contiguous particles and impurities due to blockage of the filter

[0112] FIG. 4 of FIG. 1—Ordinary oil particles but stuck due to blockage of the filter

[0113] No. (5) of FIG. 1—filter

[0114] FIG. 6 of FIG. 1—Oil exit slot

[0115] FIG. 7 of FIG. 1—the particles accumulated on the surface of the interval

[0116] FIG. 2

[0117] Of the drawing represents the effect of the alternating pressure of the discharge as well as the entry of oil from the inner perimeter of the filter and not from the outside perimeter where the impurities are collected inside the filter and not mixed with the oil system again because it is drawn down to the private assembly space,

[0118] FIG. 1 of FIG. 2—pull the frequency pump

[0119] FIG. 2 of FIG. 2—oil pump

[0120] FIG. 3 of FIG. 2—Filter

[0121] FIG. 4 of FIG. 2—oil output

[0122] FIG. 5 of FIG. 2—The accumulated and adjacent particles inside the filter

[0123] FIG. 3

[0124] From the graph, the curve represents the flow quantity, the angle of the attachment column, and the pressure in the constant pressure on the outside of the filter

[0125] FIG. 1 of FIG. 3—the amount of flow

[0126] FIG. 2 of FIG. 3—Corner of the attachment column

[0127] FIG. 3 of FIG. 3—Pump expulsion

[0128] FIG. 4

[0129] Of the graph represents the curve between the flow quantity and the angle of the attachment column and the discharge of the AC pressure

[0130] FIG. 1 of FIG. 4—the amount of flow

[0131] FIG. 2 of FIG. 4—Corner of the attachment column

[0132] FIG. 3 of FIG. 4—The expulsion of the pump

[0133] We observe the arrival of the pressure to the value of the bone and the landing; the regular process of rise and fall in the pressure to act and reaction to the oil, which does not give him the opportunity to join or accumulate on the dividing surface

[0134] FIG. 5

[0135] Of the graph represents the curve between the amount of flow and the angle of the elbow column and the expulsion of the pump is hesitant and the heart of the mobile device frequency movement

[0136] FIG. 1 of FIG. 5—Flow quantity

[0137] FIG. 2 of FIG. 5—Corner of the attachment column

[0138] FIG. 3 of FIG. 5—Pump expulsion

[0139] We see a rise in pressure and descent; at the moment of descent, the clouds are drawn into the interior by the movement of the inner heart of the apparatus; which leads to the creation of a pull force of the oil particles that attach to the dividing surface to the heart of the filter and its disassembly and non-disassembled parts are oriented down into the sediment

[0140] FIG. 6

[0141] FIG. 1 of FIG. 6

[0142] Represents the body of the device

[0143] FIG. 2 of FIG. 6

[0144] The horizontal filter assembly with the rest of the device components

[0145] FIG. 3 of FIG. 6

[0146] This form is provided in original form

[0147] The student starts writing a new letter on the subject of the invention on this form, and uses white papers (A4) written on one face only to complete the subject (if needed

[0148] Filter Filling

[0149] FIG. 4 of FIG. 6

[0150] A steel disc to fix the inner heart set and to separate the purification chamber and the sediment space

[0151] FIG. 5 of FIG. 6

[0152] The iron disc is the previous disk into the purifier and install the internal filters set

[0153] FIG. 6 of FIG. 6

[0154] A moving metal disc is a frequency movement that is a number (4) and a number (5) of the separation unit and the accumulation of sediments inside and moving them down

[0155] FIG. 7 of FIG. 6

[0156] Shock absorber resulting from the movement of the inner heart moving moving movement and balance of the moving part

[0157] FIG. 8 of FIG. 6

[0158] Filter Filling—Rough

[0159] FIG. 9 of FIG. 6

[0160] Zippers help in the internal movement of the moving heart and to clean the surfaces

[0161] FIG. 10 of FIG. 6

[0162] Network filter—rough

[0163] FIG. 11 of FIG. 6

[0164] Zippers help in the internal movement of the moving heart and to clean the surfaces

[0165] FIG. 12 of FIG. 6

[0166] Network filter—soft

[0167] FIG. 13 of FIG. 6

[0168] Oil pump

[0169] FIG. 14 of FIG. 6

[0170] Remove the oil to be cleaned

[0171] FIG. 15 of FIG. 6

[0172] Tank Service

[0173] FIG. 16 of FIG. 6

[0174] Cleaning the appliance

[0175] FIG. 17 of FIG. 6

[0176] A pressure transducer to measure the pressure before and after the device and when it exceeds half a kilogram/cm 2 gives a signal to the control unit to open and close the electric valves that clean the device for 60 seconds and then return the circuit to normal operation

[0177] FIG. 18 of FIG. 6

[0178] The control unit that operates the device automatically and includes alarm, surveillance and protection

[0179] FIG. 19 of FIG. 6

[0180] The accumulation of sediments

[0181] FIG. 20 of FIG. 6

[0182] Rubber ring

[0183] FIG. 21 of FIG. 6

[0184] Iron railing to fix the inner parts of the device)

[0185] (A)-(b)-(c)-(d)-(g)-(k)-(j)

[0186] Automatic control valves for automatic operation with manual valves in parallel with the electric valves to be operated manually in the event of an electrical circuit failure.

[0187] Method of Exploitation

[0188] It exploited in the field of cleaning oils and purification of non-material desirable; which represents damage to the oil system or equipment using those oils; especially those equipment operating in the maritime field; internal combustion; and all the equipment working in difficult conditions and long hours of work; It is used in all systems, whether they are working and intended to purify its oil during work; or work is the case and the renewal of its oil during work; also used if the equipment parked and do not work and can operate as a separate unit for stomach one; or as a central most of the stomach, provided that work in the same oil; And can be a revelation Home of the same machine by connecting pumps with constant pressure to take the critical device to the machine; can be more than one unit cleaning plug straight or parallel to the control and in the quality of cleaning; and the amount of oil to be cleaned.

BRIEF DESCRIPTION OF DRAWING

[0189] FIG. 1

[0190] Of the drawing represents the effect of continuous pressure, which is currently for the filtration of oils by the filters on the network or paper on the separator of the filter and how to block the holes and the accumulation of unwanted materials and mixing with the oil system since the

[0191] FIG. 1 of FIG. 1 Pull the oil pump

[0192] FIG. 2 of FIG. 1 oil pump

[0193] FIG. 3 of FIG. 1 The following particles and reagents due to blockage of the filter

[0194] FIG. 4 of FIG. 1 is normal oil particles but is stuck due to blockage of the filter

[0195] FIG. 5 of FIG. 1 Filter

[0196] FIG. 6 of FIG. 1 oil exit slot

[0197] FIG. 7 of FIG. 1 The particles accumulated on the surface of the interval

[0198] FIG. 2

[0199] Of the drawing represents the effect of the alternating pressure of the discharge as well as the entry of oil from the inner perimeter of the filter and not from the outside perimeter where the impurities are collected inside the filter; and not mixed with the oil of the system again because it is drawn constantly to the assembly space,

[0200] FIG. 2 of FIG. 2 oil pump

[0201] FIG. 3 of FIG. 2 Filter

[0202] FIG. 4 of FIG. 2 oil output

[0203] FIG. 5 of FIG. 2 The accumulated and adjacent particles inside the filter

[0204] FIG. 3

[0205] From the graph, the curve represents the flow quantity, the angle of the attachment column, and the pressure in the constant pressure on the outside of the filter

[0206] FIG. 1 of FIG. 3 flow quantity

[0207] FIG. 2 of FIG. 3 corner of the attachment column

[0208] FIG. 3 of FIG. 3 Pump expulsion

[0209] FIG. 4

[0210] Of the graph represents the curve between the flow quantity and the angle of the attachment column and the discharge of the AC pressure

[0211] FIG. 1 of FIG. 4 flow quantity

[0212] FIG. 2 of FIG. 4 Corner of the attachment column

[0213] FIG. 3 of FIG. 4 Pump expulsion

[0214] We observe the arrival of pressure to the value of greatness and then landing; and regularly the process of rise and fall in the pressure; lead to an act and reaction on the oil, which does not give him the opportunity to join or accumulate on the dividing surface

[0215] FIG. 5

[0216] Of the graph represents the curve between the amount of flow and the angle of the elbow column and the expulsion of the pump is hesitant and the heart of the mobile device frequency movement

[0217] FIG. 1 of FIG. 5 flow quantity

[0218] FIG. 2 of FIG. 5 Corner of the attachment column

[0219] FIG. 3 of FIG. 5 Pump expulsion

[0220] We see a rise in pressure and descent; at the moment of descent the clouds are drawn inward by the internal movement of the heart of the device; which leads to the finding of the pulling force of the oil particles that are attached to the dividing surface to the heart of the filter and dismantle; the non-disassembled parts are moving down to the sediment

[0221] FIG. 6

[0222] FIG. 1 of FIG. 6

[0223] Represents the body of the device

[0224] FIG. 2 of FIG. 6

[0225] The horizontal filter assembly with the rest of the device components FIG. 3 of FIG. 6

[0226] Filter Filling

[0227] FIG. 4 of FIG. 6

[0228] A steel disc to fix the inner heart set and to separate the purification chamber and the sediment space

[0229] FIG. 5 of FIG. 6

[0230] The iron disc is the previous disk into the purifier and install the internal filters set

[0231] FIG. 6 of FIG. 6

[0232] A moving metal disc is a frequency movement that is a number (4) and a number (5) of the separation unit and the accumulation of sediments inside and moving them down

[0233] FIG. 7 of FIG. 6

[0234] Shock absorber resulting from the movement of the inner heart moving mobile frequency movement and balance of the moving part

[0235] FIG. 8 of FIG. 6

[0236] Filter Filling—Rough

[0237] FIG. 9 of FIG. 6

[0238] Zippers help in the internal movement of the moving heart and to clean the surfaces

[0239] FIG. 10 of FIG. 6

[0240] Network filter—rough

[0241] FIG. 11 of FIG. 6

[0242] Zippers help in the internal movement of the moving heart and to clean the surfaces

[0243] FIG. 12 of FIG. 6

[0244] Network filter—soft

[0245] FIG. 13 of FIG. 6

[0246] Oil pump

[0247] FIG. 14 of FIG. 6

[0248] Remove the oil to be cleaned

[0249] FIG. 15 of FIG. 6

[0250] Tank Service

[0251] FIG. 16 of FIG. 6

[0252] Cleaning the appliance

[0253] FIG. 17 of FIG. 6

[0254] A pressure transducer to measure the pressure before and after the device and when it exceeds half a kilogram/cm 2 gives a signal to the control unit to open and close the electric valves that clean the device for 60 seconds and then return the circuit to normal operation FIG. 18 of FIG. 6

[0255] The control unit that operates the device automatically and includes alarm, surveillance and protection

[0256] FIG. 19 of FIG. 6

[0257] The accumulation of sediments

[0258] FIG. 20 of FIG. 6

[0259] Rubber ring

[0260] FIG. 21 of FIG. 6

[0261] Iron railing to fix the inner parts of the device

[0262] (A)-(b)-(c)-(d)-(g)-(k)-(j)

[0263] Automatic valves to control the operations in which the device is automatic with the presence of hand valves in parallel with the electric valves to be operated manually in case of failure in the circuit