KR102461523B1 - Method for purifying waste cooking oil - Google Patents

Abstract

The present invention relates to a waste edible oil purification method implemented to effectively remove foreign substances such as food residues contained in waste edible oil and purify it cleanly, comprising: a collection step of collecting the waste edible oil; A stocking step of putting the waste cooking oil collected by the collection step into a refining facility installed for refining the waste cooking oil; a filtration step of filtering the waste cooking oil received by the stocking step using a filtration device installed in the refining facility; a heating step of heating the waste cooking oil filtered by the filtration step using a heating device installed in the refining facility; a waste cooking oil precipitation step of separating and precipitating the waste cooking oil heated by the heating step into waste cooking oil, water and other precipitates purified in an order according to specific gravity using a settling tank installed in the refining facility; and a shipping step of packaging and shipping only the purified waste cooking oil separated by the precipitation step.

Description

Waste cooking oil purification method {METHOD FOR PURIFYING WASTE COOKING OIL}

The present invention relates to a method for refining waste cooking oil, and more particularly, to a method for refining waste cooking oil that is implemented so as to effectively remove foreign substances such as food residues contained in waste cooking oil to be purified.

It is known that waste cooking oil causes serious environmental damage if it is dumped into nature without recycling. In most cases, the amount of waste cooking oil is small and it is simply thrown away in the drain pipe, and the drain pipe hardens and the oil oxidizes to corrode the drain pipe. will have

Accordingly, in the case of franchisees that generate a large amount of waste cooking oil (including whole chicken houses and snack shops), the franchise headquarters collects the waste cooking oil itself, supplies new oil, or entrusts the collection to local collectors. It is treated as sewage and waste discharge, and in the case of public housing, a separate collection box for waste cooking oil is placed to separate waste cooking oil.

Therefore, by overcoming the unreasonable points of the conventional waste cooking oil separation and collection system, collecting the waste cooking oil discharged from each household in the form of a volume-based system, eliminating the hassle of collecting at a separate collection company, and manufacturing biodiesel directly with the collection, There is a growing demand for a waste cooking oil collection and treatment system that can improve the collection rate of waste cooking oil by re-supplying it as fuel for heating to each home.

On the other hand, the above-mentioned background art is technical information that the inventor possessed for the derivation of the present invention or acquired in the process of derivation of the present invention, and it cannot be said that it is necessarily a known technique disclosed to the general public before the filing of the present invention. .

Korean Patent Registration No. 10-1499153 Korea Registered Utility Model No. 20-0191842

One aspect of the present invention provides a method for refining waste cooking oil that is implemented to effectively remove foreign substances such as food residues contained in waste cooking oil so that it can be purified cleanly.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

Waste cooking oil purification method according to an embodiment of the present invention, a collection step of collecting the waste cooking oil; A stocking step of putting the waste cooking oil collected by the collection step into a refining facility installed for refining the waste cooking oil; a filtration step of filtering the waste cooking oil received by the stocking step using a filtration device installed in the refining facility; a heating step of heating the waste cooking oil filtered by the filtration step using a heating device installed in the refining facility; a waste cooking oil precipitation step of separating and precipitating the waste cooking oil heated by the heating step into waste cooking oil, water and other precipitates purified in an order according to specific gravity using a settling tank installed in the refining facility; and a shipping step of packaging and shipping only the purified waste cooking oil separated by the precipitation step.

In one embodiment, the filtration device, the hopper in which the waste cooking oil stocked by the stocking step is accommodated; installed in the hopper to filter the sludge contained in the waste cooking oil accommodated in the hopper to extract the filtered waste cooking oil composed of only water or oil; Filter nets attached to both sides of the induction chamber to induce water and oil and prevent the sludge from passing through the induction; a discharge pipe for receiving the filtered waste cooking oil induced by the induction through the filtration network and discharging it to the outside of the hopper; a vacuum pump coupled to the discharge pipe to discharge the filtered waste cooking oil collected through the discharge pipe to the outside of the hopper; a connecting rod connecting the induction box and a vibrator installed outside of the hopper in order to give vibration to the induction box so that the sludge attached to the filtering net falls and collects in the lower part of the hopper; an on/off valve coupled to the lower part of the hopper to draw out the sludge collected in the lower part of the hopper to the outside of the hopper; and a hopper support installed at the lower side of the hopper so as to attenuate the vibration generated in the hopper by the vibration of the induction box.

In one embodiment, the hopper support is, an upper support ring that forms an inner circumferential surface that forms a slope corresponding to the lower inclined surface of the hopper that can support the lower portion of the hopper; a lower support ring formed in a circular ring shape and installed below the upper support ring; at least one support frame installed below the lower support ring to support the lower support ring; and a ring support installed between the upper support ring and the lower support ring to support the upper support ring and at the same time cushion vibration transmitted from the upper support ring.

In one embodiment, the ring support, the support for supporting the lower side of the upper support ring; an elevating slider that is formed in a cylindrical shape and is rotatably connected to the lower side of the pedestal, and forms a first screw thread in a spiral direction along an outer circumferential surface; It is installed on the upper side of the lower support ring, and forms a seating groove having a shape corresponding to the shape of the elevating slider so that the elevating slider can be seated and slid in the up-down direction, and the elevating slider rotates in the up-down direction a support body in which a second screw thread is formed in a helical direction for connection and installation of the first screw thread along an inner circumferential surface of the seating groove so as to be moved to a helical direction; A third gear mountain in the form of a spur gear is formed along the outer circumferential surface and connected to the lower side of the elevating slider, and when the elevating slider descends more than a preset depth from the seating groove, it rotates together with the elevating slider. descending support gear; a gear support spring connected to the lower side of the support gear and configured to support the support gear by using an elastic force from the lower side of the seating groove; Horizontally installed in the lower part of the seating groove and connected to the third gear mountain of the support gear, the rotation of the support gear is prevented using an elastic force so as to block the lowering of the elevating slider. brake; and installed on the support body, and is compressed in the vertical direction as the pedestal descends so as to be in close contact with the first screw thread as the second screw thread is expanded in the vertical direction to brake the rotation of the first screw thread, and is compressed in the internal space and a vertical brake unit for supplying the fluid accommodated in the second thread to each of the second threads.

In one embodiment, the first thread may be provided with a roller to reduce friction along the upper and lower sides.

In one embodiment, the horizontal brake unit, a horizontal rack gear installed in the horizontal direction at the bottom of the seating groove is engaged with the third gear mountain and is installed to move in the left and right horizontal direction as the third gear mountain rotates; and a horizontal spring installed at one end of the horizontal rack gear to prevent the rack gear from moving in one direction using an elastic force.

In one embodiment, the support gear, the plunger is formed in the form of a cylinder and installed on the lower side of the elevating slider; a lower screw thread extending along a lower outer circumferential surface of the plunger; and a third gear mountain in the form of a spur gear is formed along the lower outer circumferential surface to engage the horizontal brake unit, is supported by the gear support spring, and the plunger is inserted and rotated to move up and down in the upper part. and a gear body in which a rotation groove having a shape corresponding to the plunger is formed, and an internal thread for engaging the lower screw thread extends along an inner circumferential surface of the rotation groove.

In one embodiment, the gear body may start rotating after the plunger descends to the bottom surface of the rotation groove.

In one embodiment, the second screw thread may be formed by installing a plurality of gear blocks spaced apart from each other at regular intervals along the inner circumferential surface of the seating groove in rows in a spiral direction.

In one embodiment, the gear block, the upper side of the screw thread lower forming the lower part of the thread formed in the form of a flat right-angled inverted triangle; an upper screw thread connected to the upper rear end of the lower screw thread so that the rear end is rotatable to form an upper part of the screw thread; an expansion pouch seated in an installation groove formed at an upper portion of the lower portion of the screw thread and expanded by the fluid supplied from the vertical braking unit to elevate the upper portion of the screw thread in an upward direction; and a rear end support installed on the inner circumferential surface of the seating groove and supporting the rear end of the upper portion of the screw thread by using an elastic force.

In one embodiment, the vertical brake unit is installed upright so that the upper portion is exposed to the upper side of the support body, the vertical bar is pressed downward as the pedestal descends; a fluid tank installed under the vertical bar and compressed as the vertical bar descends to supply a fluid accommodated in the internal space; and a supply line for transferring the fluid supplied from the fluid tank to each gear block.

In one embodiment, the settling tank, the settling tank in which the waste cooking oil heated by the heating step is accommodated; an auxiliary sedimentation tank installed below the sedimentation tank so that other sediments can be deposited and accommodated; a connection part formed in a bellows shape that can be extended and contracted in the vertical direction to connect the lower side of the settling tank and the upper side of the auxiliary settling tank; A tank comprising an extension frame extending from the bottom to an upper portion of the auxiliary sedimentation tank and a frame support installed below the extension frame to support the extension frame, and for mounting the auxiliary sedimentation tank below the sedimentation tank. holder; And it is seated between the purified waste cooking oil and water inside the settling tank, and is raised or lowered together according to the rise or fall of the upper water surface according to the increase or decrease of the water to be precipitated. It may include; a floating discharge unit for discharging to the outside of the settling tank.

In one embodiment, the frame support, the upper support for supporting the lower side of the extended frame; a lower support that is seated on the floor; A first inclined frame with an upper part connected to be rotatably connected to one side of the lower side of the upper support and installed to be inclined in the other direction, and an upper part connected to be rotatably connected to a lower side of the first inclined frame, and a lower part of the support A first intermediate support consisting of a first upright frame that is installed and connected to be upright rotatable on one side of the upper part; A second inclined frame having an upper part connected to be rotatably connected to the other lower side of the upper support and installed to be inclined in one direction, and a second inclined frame having an upper part connected and rotatably installed to a lower side of the second inclined frame, and a lower part of the support a second intermediate support comprising a second upright frame that is installed and connected to be upright rotatably on the other side of the upper part; The lower part is formed in a rotatable "V" shape, and at least one connection is installed between the first intermediate support and the second intermediate support, and the upper support is lowered and between the first intermediate support and the second intermediate support. "V"-shaped support for supporting by using elastic force when the distance between them is narrowed; a first horizontal support that passes through a lower portion of the first inclined frame and a lower portion of the second inclined frame in a horizontal direction and is installed in a horizontal direction to support an upper side of the “V”-shaped support; a second horizontal support that passes through each of the first upright frame and the second upright frame in a horizontal direction and is installed in a horizontal direction to support a lower side of the "V"-shaped support; and between one side of the first horizontal support and one side of the second horizontal support, and between the other side of the first horizontal support and the other side of the second horizontal support, respectively, the first horizontal support and the second It may include a; gap support elastic body that pulls between the horizontal supports using an elastic force.

In one embodiment, the "V"-shaped support is installed so that the upper portion is rotatably connected to the portion where the first inclined frame and the first upright frame are connected and installed, and the lower portion is installed so as to be inclined in the other direction. 1 support bar; The lower part is connected so as to be rotatable with the first support bar, and the upper part is installed so as to be inclined in the other direction to the upper part of the first support bar of another "V"-shaped support or the second inclined frame and the second upright frame. a second support bar that is connected and installed so as to be rotatably connected to the connected portion; The first support bar and the second support bar are connected and installed so as to be rotatably connected to the rotation part where they are connected and installed, and are connected to and installed with the lower rack gear installed along the upper surface of the second horizontal support to install the lower rack gear. lower connecting gear moving along; and an intermediate elastic body installed between the first support bar and the second support bar to support between the first support bar and the second support bar by using an elastic force.

In one embodiment, when the "V"-shaped support is installed in connection with another "V"-shaped support, the upper portion of the second support bar and the upper portion of the first support bar of the other "V"-shaped supporter are rotated an upper connection gear that is connected and installed so as to be rotatably connected to a rotation part that is connected and installed to be able to be connected, and is connected to and installed with an upper rack gear installed along a lower surface of the first horizontal support to move along the upper rack gear; and an addition installed between the second support bar and the first support bar of the other "V"-shaped support to support between the second support bar and the first support bar of the other "V"-shaped support by using an elastic force It may further include an intermediate elastic body.

According to one aspect of the present invention described above, by refining and reusing cooking oil for frying, not only cost reduction but also raw material supply and demand reduction are formed, so that environmental pollution can be reduced through import substitution effect and reuse of waste frying oil, etc., so that the circulation of the global village By not disturbing the order, it is possible to prevent the deterioration of the real environment in advance, it is human-friendly, and it can provide an effect on health promotion.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within the range apparent to those skilled in the art from the description below.

1 is a flowchart illustrating a method for refining waste cooking oil according to an embodiment of the present invention.
2 is a view showing a filtration device used in the filtration step according to the present invention.
Figure 3 is a view showing the hopper support of Figure 2;
Figure 4 is a view showing the ring support of Figure 3;
FIG. 5 is a view showing the support gear of FIG. 4 .
FIG. 6 is a view showing an embodiment of the second screw thread of FIG. 4 .
FIG. 7 is a view showing the gear block of FIG. 6 .
8 is a view showing a sedimentation tank used in the sedimentation step according to the present invention.
FIG. 9 is a view showing the frame support of FIG. 8 .
10 and 11 are views showing an embodiment of the “V”-shaped support of FIG. 9 .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0012] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0014] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0016] Reference is made to the accompanying drawings, which show by way of illustration specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein with respect to one embodiment may be implemented in other embodiments without departing from the spirit and scope of the invention. In addition, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description set forth below is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scope equivalents to those claimed. Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings.

1 is a flowchart illustrating a method for refining waste cooking oil according to an embodiment of the present invention.

Referring to Figure 1, the waste cooking oil purification method according to an embodiment of the present invention, first collects the waste cooking oil (S110).

The waste cooking oil collected by the above-described collection step (S110) is put into a refining facility installed for refining the waste cooking oil (S120).

The waste cooking oil received by the above-described wearing step (S120) is filtered using the filtration device (1) installed in the purification facility (S130).

The waste cooking oil filtered by the above-described filtering step (S130) is heated using a heating device installed in a purification facility (S140).

The waste cooking oil heated by the above-described heating step (S140) is separated and precipitated into purified waste cooking oil, water and other precipitates in the order according to specific gravity using the settling tank 2 installed in the refining facility (S150).

Here, the term "other sediments" refers to all substances such as food waste, except for cooking oil and water, and may be applied regardless of the name of the substance.

Only the purified waste cooking oil separated by the precipitation step (S150) described above is packaged and shipped.

Waste cooking oil refining method according to an embodiment of the present invention having the configuration as described above, by refining and reusing cooking oil for frying, not only cost reduction but also raw material supply and demand reduction is formed, resulting in import substitution effect and waste frying oil, etc. Reuse can reduce environmental pollution, so it does not disturb the global circulation order, which can prevent actual environmental deterioration in advance, is human-friendly, and can provide an effect on health promotion.

2 is a view showing a filtration device used in the filtration step according to the present invention.

Referring to FIG. 2 , the filtration device 1 includes a hopper 10 , an induction box 15 , a filtration network 20 , a discharge pipe 25 , a vacuum pump 30 , a connecting rod 35 , an on/off valve 40 and It includes a hopper support (45).

The hopper 10, the waste cooking oil stocked by the stocking step (S120) is accommodated in the inner space, the guide 15 is installed therein.

The induction box 15 is installed inside the hopper 10 and filters the sludge contained in the waste cooking oil accommodated in the hopper 10 to extract the filtered waste cooking oil consisting of only water or oil, and the waste cooking oil on one side and the other side A filtration network 20 for filtration is attached and installed.

The filtration net 20 is attached to both sides of the guide box 15 to prevent water and oil from passing through and the sludge is guided to the guide box 15 .

The discharge pipe 25 passes through the filtration network 20 and receives the filtered waste cooking oil guided to the guide 15 and discharges it to the outside of the hopper 10 .

The vacuum pump 30 is coupled to the discharge pipe 25 to discharge the filtered waste cooking oil collected by the discharge pipe 25 to the outside of the hopper 10 .

The connecting rod 35 is installed on the outside of the induction box 15 and the hopper 10 so that the sludge attached to the filtering net 20 falls and collects in the lower part of the hopper 10 by giving vibration to the guide box 15 . Connect the vibrator (M).

The opening/closing valve 40 is coupled to the lower portion of the hopper 10 to draw out the sludge collected in the lower portion of the hopper 10 to the outside of the hopper 10 .

The hopper support 45 is installed on the lower side of the hopper 10 so as to attenuate the vibration generated in the hopper 10 by the vibration of the induction box 15 .

The filtration device 1 having the configuration as described above can improve the filtration performance by filtering the sludge contained in the waste cooking oil by a simple configuration, and can obtain the effect of reducing the manufacturing cost and the easiness of maintenance. , the waste cooking oil supplied into the hopper 10 is passed through the induction (15) by the pressure of the vacuum pump (M) to induce water and oil, etc. (15) and then discharged to the outside through the discharge pipe (25) It is possible to improve the ease of discharge by allowing the sludge to be collected in the lower part of the hopper 10 while being filtered by the filtration network 20 .

Figure 3 is a view showing the hopper support of Figure 2;

Referring to FIG. 3 , the hopper support 45 includes an upper support ring 100 , a lower support ring 200 , a support frame 300 , and a ring support 400 .

The upper support ring 100 forms an inner circumferential surface 110 that forms an inclination corresponding to the lower inclined surface of the hopper 10 capable of supporting the lower portion of the hopper 10, and the lower support by the ring support 400 It is supported on the upper side of the ring 200 .

The lower support ring 200 is formed in a circular ring shape and installed on the lower side of the upper support ring 100 , a plurality of ring supporters 400 are installed along the upper side, and the support frame 300 is installed along the lower side. ) is supported by

At least one support frame 300 is installed below the lower support ring 200 to support the lower support ring 200 .

The ring support 400 is installed between the upper support ring 100 and the lower support ring 200 to support the upper support ring 100 and at the same time cushion the vibration transmitted from the upper support ring 100 .

The hopper support 45 having the configuration as described above is a hopper ( 10) can be supported and at the same time absorb and attenuate vibrations or shocks generated in the hopper 10 .

Figure 4 is a view showing the ring support of Figure 3;

Referring to FIG. 4 , the ring support 400 includes a pedestal 410 , an elevating slider 420 , a support body 430 , a support gear 440 , a gear support spring 450 , and a horizontal brake unit 460 . and a vertical brake unit 470 .

The pedestal 410 supports the lower side of the upper support ring 100 , and the elevating slider 420 is rotatably connected to the lower side.

In one embodiment, the pedestal 410 is a support plate 411 formed of a circular plate or a square plate, an extension bar 412 extending from the lower side of the support plate 411, and an upper side of the elevating slider 420 . It may include a rotation bar 413 installed below the extension bar 412 so as to be rotatable in the formed rotation groove 421 .

The elevating slider 420 is formed in a cylindrical shape and is rotatably connected to the lower side of the pedestal 410 , and forms a first screw thread S1 in a spiral direction along the outer circumferential surface to form a seating groove of the support body 430 . It is seated on the 431 and descends from the seating groove 431 while rotating as the pedestal 410 descends by the pressure transmitted through the upper support ring 100 .

In one embodiment, the first screw thread (S1), the roller (R) may be installed to reduce the frictional force along the upper and lower sides.

The support body 430 is installed in the lower support ring 200 , and a seating groove 431 having a shape corresponding to the shape of the elevating slider 420 so that the elevating slider 420 can be seated and slid in the vertical direction. ) is formed on the upper part, and the first screw thread S1 is engaged along the inner circumferential surface of the seating groove 431 so that the elevating slider 420 can move in the up and down direction while rotating. It is formed in a spiral direction.

The support gear 440 forms a third gear mountain S3 in the form of a spur gear along the outer circumferential surface, is connected to the lower side of the elevating slider 420, and the elevating slider 420 has a seating groove 431 . When it descends more than a preset depth (that is, the distance corresponding to the depth until the plunger 441 descends to the bottom surface of the rotary groove 4431), it descends while rotating with the elevating slider 420, and the gear support It is supported by a spring 450 .

The gear support spring 450 is connected to the lower side of the support gear 440 to support the support gear 440 by using an elastic force from the lower side of the seating groove 431 .

In one embodiment, the gear support spring 450 is installed on the lower side of the rotation seat 452 and the rotation seat 452 on which the support gear 440 is rotatably seated and rotates using an elastic force. It may include a support spring 451 for supporting the seat 452 .

The horizontal braking unit 460 is installed in the horizontal direction from the lower portion of the seating groove 431 to engage and connect to the third gear mountain S3 of the support gear 440 , and block the descent of the elevating slider 420 . The rotation of the support gear 440 is prevented by using an elastic force.

In an embodiment, the horizontal brake unit 460 may include a horizontal rack gear 461 and a horizontal spring 462 .

The horizontal rack gear 461 is installed in the horizontal direction from the lower part of the seating groove 431 and is connected to the third gear mountain S3 and moves in the left and right horizontal direction as the third gear mountain S3 rotates. .

The horizontal spring 462 is installed at one end of the horizontal rack gear 461 to prevent the rack gear from moving in one direction by using an elastic force.

The vertical braking unit 470 is installed on the support body 430, and is in close contact with the first screw thread S1 as the second screw thread S2 is expanded in the vertical direction to brake the rotation of the first screw thread S1. As the pedestal 410 descends so that the fluid is compressed in the vertical direction and accommodated in the internal space, the fluid is supplied to each of the second threads S2.

In one embodiment, the vertical brake 470 includes a vertical bar 471 , a fluid tank 472 and a supply line 473 .

The vertical bar 471 is installed upright so that the upper portion is exposed to the upper side of the support body 430 , and is pressed downward as the pedestal 410 descends to compress the fluid tank 472 .

The fluid tank 472 is installed on the lower side of the vertical bar 471, and as the vertical bar 471 descends, the fluid is compressed and accommodated in the internal space through the supply line 473 with a second thread (S2). It is transmitted to each gear block 480 constituting the.

The supply line 473 consists of individual supply pipes from the fluid tank 472 to each gear block 480 , and delivers the fluid supplied from the fluid tank 472 to each gear block 480 .

The ring support 400 having the configuration as described above is an upper support to prevent the hopper 10 from being damaged due to vibration or impact generated by the filtering net 20 vibrating by the connecting rod 35 . While supporting the ring 100 , it is possible to absorb and attenuate vibration or shock generated in the hopper 10 .

FIG. 5 is a view showing the support gear of FIG. 4 .

Referring to FIG. 5 , the support gear 440 includes a plunger 441 , a lower thread 442 , and a gear body 443 .

The plunger 441 is formed in a cylindrical shape, is installed below the elevating slider 420 , and moves in the vertical direction while rotating in the rotation groove 4431 .

The lower thread 442 is formed to extend along the lower outer circumferential surface of the plunger 441 so that the plunger 441 can move in the vertical direction while rotating along the rotation groove 4431, and is engaged with the internal thread 4432 and connected .

The gear body 443 forms a third gear mountain S3 in the form of a spur gear along the lower outer circumferential surface so as to be engaged with the horizontal braking unit 460, is supported by a gear support spring 450, and a plunger ( A rotation groove 4431 having a shape corresponding to the plunger 441 is formed in the upper portion so that the 441 is inserted and moved in the vertical direction while rotating, and an internal thread 4432 for engaging the lower screw thread 442 is a rotation groove is formed extending along the inner circumferential surface of

In one embodiment, the gear body 443 may start rotating after the plunger 441 descends to the bottom surface of the rotation groove 4431 .

That is, when the plunger 441 is initially seated, only a portion is inserted and seated on the upper side of the rotation groove 4431 , and even when the plunger 441 rotates, the gear body 443 cannot rotate, and the plunger 441 rotates. While being seated on the bottom surface of the rotation groove 4431, the gear body 443 is rotated by the rotational force.

FIG. 6 is a view showing an embodiment of the second screw thread of FIG. 4 .

Referring to FIG. 6 , in the second screw thread S2 according to an embodiment, a plurality of gear blocks 480a and 480b are spaced apart from each other at regular intervals along the inner circumferential surface of the seating groove 431 to form rows in a spiral direction. installed and formed.

In the case of FIG. 6 , only two gear blocks 480a and 480b are shown, but the second screw thread S2 according to an embodiment is installed in a plurality of rows along the inner circumferential surface of the seating groove 431 , so that the first The screw thread S1 may be engaged to form a screw thread for connection and installation.

FIG. 7 is a view showing the gear block of FIG. 6 .

Referring to FIG. 7 , the gear block 480 includes a lower threaded portion 481 , a threaded upper portion 482 , an inflation pouch 483 , and a rear end support 484 .

The threaded lower part 481 forms the lower part of the thread by the gear block 480 which is formed in the form of a right-angled inverted triangle with a flat upper side.

The threaded upper part 482 is connected to the upper rear end of the threaded lower part 481 so that the rear end is rotatable to form the upper part of the thread by the gear block 480, and the expansion pouch 483 installed on the lower side expands. It is raised and lowered in close contact with the first screw thread S1 to brake the rotation of the elevating slider 420 .

The expansion pouch 483 is seated in the installation groove 4811 formed on the upper portion of the screw thread lower portion 481 , and is expanded by the fluid supplied from the vertical braking unit 470 to elevate the screw thread upper portion 482 upward. do it

The rear end support 484 is installed on the inner circumferential surface of the seating groove 431 and supports the rear end of the screw thread upper portion 482 by using an elastic force.

8 is a view showing a sedimentation tank used in the sedimentation step according to the present invention.

Referring to FIG. 8 , the sedimentation tank 2 includes a sedimentation tank 50 , an auxiliary sedimentation tank 55 , a connection part 60 , a tank holder 65 and a floating discharge part 70 .

In the settling tank 50 , the waste cooking oil heated by the heating step S140 is accommodated in the inner space, and the auxiliary settling tank 55 is connected to the lower side by the connection part 60 .

At this time, the sedimentation tank 50 and the auxiliary sedimentation tank 55, as shown in FIG.

The auxiliary sedimentation tank 55 is installed at the lower side of the sedimentation tank 50 so that other sediments L3 having the greatest specific gravity can be deposited and accommodated, and is supported by the tank holder 65 .

In one embodiment, the auxiliary sedimentation tank 55 is other sediments ( L3) precipitation amount can be controlled.

The connection part 60 is formed in the form of a bellows that can be extended and contracted in the vertical direction to connect the lower side of the settling tank 50 and the upper side of the auxiliary settling tank 55 .

The tank holder 65 is installed on the lower side of the extension frame 600 and the extension frame 600 extending from the bottom to the upper part of the auxiliary sedimentation tank 55 and supporting the frame support 500 for supporting the extension frame 600 . ), and the auxiliary sedimentation tank 55 is mounted on the lower side of the sedimentation tank 50 .

The floating discharge unit 70 is seated between the purified waste cooking oil (L1) and the water (L2) inside the settling tank 50, and the upper water surface of the water (L2) according to the increase or decrease of the precipitated water (L2) The purified waste cooking oil (L1) located above the water (L2) is sucked and discharged to the outside of the settling tank (50) while ascending or descending together according to the ascending or descending of the water (L2).

In one embodiment, the floating discharge unit 70 is installed on the upper side of the swim bladder 71, the swim bladder 71 to form a specific gravity that floats on the water L2 but sinks in the purified waste cooking oil L1, the purified lung It may include a suction unit 72 for sucking the cooking oil (L1), and a discharge pipe 72 for discharging the purified waste cooking oil (L1) sucked through the suction unit 72 to the outside.

After the precipitation tank 2 having the above-described configuration, the heated waste cooking oil is separated and precipitated into purified waste cooking oil, water and other precipitates. By separating and extracting only the cleanly purified waste cooking oil (L1), the purification efficiency of the waste cooking oil can be further improved.

FIG. 9 is a view showing the frame support of FIG. 8 .

9, the frame support 500 is an upper support 510, a lower support 520, a first intermediate support 530, a second intermediate support 540, a "V" type support 550, It includes a first horizontal support 560 , a second horizontal support 570 , and a gap support elastic body 580 .

The upper support 510 supports the lower side of the extension frame 600 , is supported by the first intermediate support 530 and the second intermediate support 540 installed on the lower side, and the vibration transmitted from the extension frame 600 . It transmits the shock or the like to the first intermediate support 530 and the second intermediate support 540 .

The lower support 520 is seated on the floor, and the lower sides of the first intermediate support 530 and the second intermediate support 540 are rotatably connected and installed.

The first intermediate support 530 includes a first inclined frame 531 having an upper portion connected to be rotatably connected to one lower side of the upper support 510 and installed to be inclined in the other one direction, and an upper portion of the first inclined frame ( 531) is rotatably connected to the lower side and the lower part is made of a first upright frame 532 that is installed and connected so as to be rotatably installed on the upper side of the support.

The second intermediate support 540 includes a second inclined frame 541 whose upper portion is rotatably connected to the lower other side of the upper support 510 and is installed to be inclined in one direction, and an upper portion of the second inclined frame ( 541) is rotatably connected to the lower side, and the lower part is made up of a second upright frame 542 that is installed and connected so as to be rotatably rotatable on the other side of the upper upper side of the support.

The "V" type support 550 is formed in a "V" shape with a rotatable lower portion, and at least one connection is installed between the first intermediate support 530 and the second intermediate support 540 , and the upper support 510 . ) is lowered and the gap between the first intermediate support 530 and the second intermediate support 540 is narrowed, the support is performed using an elastic force.

That is, when the upper support 510 descends by vibration or impact transmitted from the extension frame 600 , the gap between the first intermediate support 530 and the second intermediate support 540 is reduced, and the gap is supported. The "V"-shaped support 550 is to absorb the vibration or shock transmitted from the extension frame 600 to reduce the vibration or shock.

The first horizontal support 560 is installed in the horizontal direction through the lower portion of the first inclined frame 531 and the lower portion of the second inclined frame 541 in the horizontal direction, and is installed on the upper side of the “V”-shaped supporter 550 . support the

The second horizontal support 570 passes through the first upright frame 532 and the second upright frame 542 in the horizontal direction, respectively, and is installed in the horizontal direction to support the lower side of the "V"-shaped supporter 550 .

The gap support elastic body 580 is between one side of the first horizontal support 560 and one side of the second horizontal support 570 , and the other side of the first horizontal support 560 and the second horizontal support 570 . They are respectively installed between one side and pull between the first horizontal support 560 and the second horizontal support 570 by using an elastic force.

The frame support 500 having the configuration as described above buffers vibrations or shocks generated according to the elevation or descent of the auxiliary settling tank 55 due to precipitation or discharge of sediment, thereby providing an auxiliary settling tank 55 ) can be effectively prevented from being damaged by sudden ascending or descending, vibration or impact.

10 and 11 are views showing an embodiment of the “V”-shaped support of FIG. 9 .

10 and 11 , the "V"-shaped support 550 according to an embodiment includes a first support bar 551 , a second support bar 552 , a lower connecting gear 553 and an intermediate elastic body ( 554).

The first support bar 551 is connected so that the upper part is rotatably connected to the portion V1 where the first inclined frame 531 and the first upright frame 532 are connected and installed, and the lower part is inclined in the other direction. It is installed so as to be rotatably connected to the lower portion of the second support bar 552 .

The second support bar 552 is installed so that the lower part is rotatably connected to the lower part of the first support bar 551, and the upper part is installed to be inclined in the other one direction, so that the first of the other "V"-shaped supporters 550a. The upper portion of the support bar 551a or the second inclined frame 541 and the second upright frame 542 are connected and installed so as to be rotatably connected and installed.

The lower connecting gear 553 is rotatably connected to the rotational portion V2 where the first support bar 551 and the second support bar 552 are connected and installed, and the upper surface of the second horizontal supporter 570 . It is connected to and installed with the lower rack gear 521 installed along the .

The intermediate elastic body 554 is installed between the first support bar 551 and the second support bar 552 to support between the first support bar 551 and the second support bar 552 using an elastic force.

The "V"-shaped support 550 according to an embodiment having the configuration as described above may further include an upper connecting gear 555 and an additional intermediate elastic body 556 .

The upper connection gear 555 is connected to the upper portion of the second support bar 552 and the upper portion of the first support bar 551a of the other "V"-shaped supporter 550a to be rotatably connected to the rotation portion V3. It is connected and installed so as to be rotatable, and is connected and installed in engagement with the upper rack gear 561 installed along the lower side of the first horizontal support 560 to move along the upper rack gear 561 .

The additional intermediate elastic body 556 is installed between the second support bar 552 and the first support bar 551a of the other "V"-shaped support 550a and is different from the second support bar 552 by using an elastic force. It supports between the first support bars of the "V"-shaped support 550 .

The above-described embodiments are for illustration, and those of ordinary skill in the art to which the above-described embodiments belong can easily transform into other specific forms without changing the technical idea or essential features of the above-described embodiments. You will understand. Therefore, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and likewise components described as distributed may also be implemented in a combined form.

The scope to be protected through this specification is indicated by the claims described below rather than the above detailed description, and should be construed to include all changes or modifications derived from the meaning and scope of the claims and their equivalents. .

1: filtration device
2: sedimentation tank
10: Hopper
15: induce
20: filter net
25: discharge pipe
30: vacuum pump
35; connecting rod
40: on/off valve
45: hopper support
50: sedimentation tank
55: auxiliary sedimentation tank
60: connection
65: tank holder
70: floating discharge unit

Claims (10)

a collection step of collecting waste cooking oil;
A stocking step of putting the waste cooking oil collected by the collection step into a refining facility installed for refining the waste cooking oil;
a filtration step of filtering the waste cooking oil received by the stocking step using a filtration device installed in the refining facility;
a heating step of heating the waste cooking oil filtered by the filtration step using a heating device installed in the refining facility;
a waste cooking oil precipitation step of separating and precipitating the waste cooking oil heated by the heating step into waste cooking oil, water and other precipitates purified in an order according to specific gravity using a settling tank installed in the refining facility; and
A shipping step of packaging and shipping only the purified waste cooking oil separated by the precipitation step;
The filtration device is
a hopper in which the waste cooking oil stocked by the wearing step is accommodated;
installed in the hopper to filter the sludge contained in the waste cooking oil accommodated in the hopper to extract the filtered waste cooking oil composed of only water or oil;
Filter nets attached to both sides of the induction chamber to induce water and oil and prevent the sludge from passing through the induction;
a discharge pipe for receiving the filtered waste cooking oil induced by the induction through the filtration network and discharging it to the outside of the hopper;
a vacuum pump coupled to the discharge pipe to discharge the filtered waste cooking oil collected through the discharge pipe to the outside of the hopper;
a connecting rod connecting the induction box and a vibrator installed outside of the hopper in order to give vibration to the induction box so that the sludge attached to the filtering net falls and collects in the lower part of the hopper;
an on/off valve coupled to the lower part of the hopper to draw out the sludge collected in the lower part of the hopper to the outside of the hopper; and
A waste cooking oil refining method comprising a;
delete According to claim 1, wherein the hopper support,
an upper support ring forming an inner circumferential surface that forms an inclination corresponding to the lower inclined surface of the hopper capable of supporting the lower portion of the hopper;
a lower support ring formed in a circular ring shape and installed below the upper support ring;
at least one support frame installed below the lower support ring to support the lower support ring; and
A method for refining waste cooking oil, including; a ring support installed between the upper support ring and the lower support ring to support the upper support ring and at the same time buffer the vibration transmitted from the upper support ring.
According to claim 3, wherein the ring support,
a pedestal for supporting a lower side of the upper support ring;
an elevating slider that is formed in a cylindrical shape and is rotatably connected to the lower side of the pedestal, and forms a first screw thread in a spiral direction along an outer circumferential surface;
It is installed on the upper side of the lower support ring, and forms a seating groove having a shape corresponding to the shape of the elevating slider so that the elevating slider can be seated and slid in the up-down direction, and the elevating slider rotates in the up-down direction a support body in which a second screw thread is formed in a helical direction for connection and installation of the first screw thread along an inner circumferential surface of the seating groove so as to be moved to a helical direction;
A third gear mountain in the form of a spur gear is formed along the outer circumferential surface and connected to the lower side of the elevating slider, and when the elevating slider descends more than a preset depth from the seating groove, it rotates together with the elevating slider. descending support gear;
a gear support spring connected to the lower side of the support gear and configured to support the support gear by using an elastic force from the lower side of the seating groove;
Horizontally installed in the lower part of the seating groove and connected to the third gear mountain of the support gear, the rotation of the support gear is prevented using an elastic force so as to block the lowering of the elevating slider. brake; and
It is installed on the support body and is compressed in the vertical direction as the pedestal descends so as to be in close contact with the first screw thread as the second screw thread is spread in the vertical direction to brake the rotation of the first screw thread, and is compressed in the internal space. A method for refining waste cooking oil, including; a vertical brake unit for supplying the accommodated fluid to each of the second threads.
According to claim 4, wherein the support gear,
a plunger formed in a cylindrical shape and installed below the elevating slider;
a lower screw thread extending along a lower outer circumferential surface of the plunger; and
A third gear mountain in the form of a spur gear is formed along the lower outer circumferential surface so as to be engaged with the horizontal braking unit, is supported by the gear support spring, and the plunger is inserted and rotated to move up and down in the upper part. A rotary groove having a shape corresponding to the plunger is formed, and an internal screw thread for engaging the lower screw thread extends along the inner circumferential surface of the rotary groove;
5. The method of claim 4,
The second screw thread,
A plurality of gear blocks are spaced apart from each other at regular intervals along the inner circumferential surface of the seating groove and are installed and installed in a spiral direction.
The gear block is
a lower screw thread forming a lower portion of the screw thread formed in the form of a right-angled inverted triangle having a flat upper side;
an upper screw thread connected to the upper rear end of the lower screw thread so that the rear end is rotatable to form an upper part of the screw thread;
an expansion pouch seated in an installation groove formed at an upper portion of the lower portion of the screw thread and expanded by the fluid supplied from the vertical braking unit to elevate the upper portion of the screw thread in an upward direction; and
A waste cooking oil refining method comprising a; a rear end support installed on the inner peripheral surface of the seating groove and supporting the rear end of the upper screw thread by using an elastic force.
According to claim 1, wherein the settling tank,
a precipitation tank in which the waste cooking oil heated by the heating step is accommodated;
an auxiliary sedimentation tank installed below the sedimentation tank so that other sediments can be deposited and accommodated;
a connection part formed in a bellows shape that can be extended and contracted in the vertical direction to connect the lower side of the settling tank and the upper side of the auxiliary settling tank;
A tank comprising an extension frame extending from the bottom to an upper portion of the auxiliary sedimentation tank and a frame support installed below the extension frame to support the extension frame, and for mounting the auxiliary sedimentation tank below the sedimentation tank. holder; and
It is seated between the purified waste cooking oil and water inside the settling tank, and is raised or lowered together according to the rise or fall of the upper water surface according to the increase or decrease of the water to be precipitated. Floating discharge unit for discharging to the outside of the settling tank; Containing, waste cooking oil purification method.
According to claim 7, wherein the frame support,
an upper support for supporting a lower side of the extension frame;
a lower support that is seated on the floor;
A first inclined frame with an upper part connected to be rotatably connected to one side of the lower side of the upper support and installed to be inclined in the other direction, and an upper part connected to be rotatably connected to a lower side of the first inclined frame, and a lower part of the support A first intermediate support consisting of a first upright frame that is installed and connected to be upright rotatable on one side of the upper part;
A second inclined frame having an upper part connected to be rotatably connected to the other lower side of the upper support and installed to be inclined in one direction, and a second inclined frame having an upper part connected and rotatably installed to a lower side of the second inclined frame, and a lower part of the support a second intermediate support comprising a second upright frame that is installed and connected to be upright rotatably on the other side of the upper part;
The lower part is formed in a rotatable "V" shape, and at least one connection is installed between the first intermediate support and the second intermediate support, and the upper support is lowered and between the first intermediate support and the second intermediate support. "V"-shaped support for supporting by using elastic force when the distance between them is narrowed;
a first horizontal support that passes through a lower portion of the first inclined frame and a lower portion of the second inclined frame in a horizontal direction and is installed in a horizontal direction to support an upper side of the “V”-shaped support;
a second horizontal support that passes through each of the first upright frame and the second upright frame in a horizontal direction and is installed in a horizontal direction to support a lower side of the "V"-shaped support; and
Installed between one side of the first horizontal support and one side of the second horizontal support, and between the other side of the first horizontal support and the other side of the second horizontal support, respectively, the first horizontal support and the second horizontal support A waste cooking oil refining method, including; a gap support elastic body that pulls between the supports using an elastic force.
According to claim 8, wherein the "V"-shaped support,
a first support bar having an upper portion rotatably connected to a portion where the first inclined frame and the first upright frame are connected and installed, and having a lower portion inclined in the other direction;
The lower part is connected so as to be rotatable with the first support bar, and the upper part is installed so as to be inclined in the other direction to the upper part of the first support bar of another "V"-shaped support or the second inclined frame and the second upright frame. a second support bar that is connected and installed so as to be rotatably connected to the connected portion;
The first support bar and the second support bar are connected and installed so as to be rotatably connected to the rotation part where they are connected and installed, and are connected to and installed with the lower rack gear installed along the upper surface of the second horizontal support to install the lower rack gear. lower connecting gear moving along; and
An intermediate elastic body installed between the first support bar and the second support bar to support between the first support bar and the second support bar using an elastic force; Containing, Waste cooking oil purification method.
delete

Images