CN216653536U - Oil separating, storing and filling system - Google Patents

Abstract

The utility model belongs to the technical field of food production, and particularly discloses an oil separating, storing and filling system which comprises a separating tank, an oil storage tank and a storage tank, wherein the top and the bottom of the separating tank are respectively provided with a feeding pipe and a discharging pipe, the side wall of the separating tank is provided with an oil outlet pipe, a separating structure is arranged in the separating tank, the separating structure comprises an oil collecting cylinder horizontally arranged in the separating tank, the oil collecting cylinder is in rotating fit with the separating tank, the oil collecting cylinder is communicated with the oil outlet pipe, a limiting structure is arranged in the separating tank, the side wall of the upper part of the oil collecting cylinder is provided with a notch, a filter screen is arranged on the notch, one side of the filter screen is provided with an upward-protruding counterweight plate, and the limiting structure enables the filter screen to be in a horizontal state on the oil collecting cylinder; the oil outlet pipe is communicated with the oil storage tank, and the discharge pipe is communicated with the storage tank. This scheme realizes the automatic clearance of material on the filter screen through the material dead weight, avoids the material to pile up too much on the screen cloth, and oil separation effect is better, and efficiency is higher, is convenient for store respectively of oil and material.

Description

Oil separating, storing and filling system

Technical Field

The utility model belongs to the technical field of food production, and particularly relates to an oil separating, storing and filling system.

Background

At present, the chafing dish is popular among people due to the characteristics of various dishes, unique seasoning and the like. In the middle of carrying out the preparation process of hot pot seasoning, because the kind of batching is more, and need fry the system processing, the seasoning is fried and is the oil mixing state usually after finishing, in order to add oil and material to the wrapping bag ration again, can separate the oil usually, will use the oil knockout drum this moment, and the oil after the oil separation, oil and material are guided into oil storage tank and storage tank respectively and are stored.

Wherein, current oil knockout drum is including a jar body, the upper portion and the lower part of jar body are provided with inlet pipe and discharging pipe with jar body intercommunication, be provided with the oil pipe with jar body intercommunication on the lateral wall of the jar body, the oil pipe is located the position setting near the diapire place of the jar body, the inlet pipe, all be provided with the valve on discharging pipe and the oil pipe, arrange the hot pot seasoning that the oil mixes in jar internally, treat that hot pot seasoning deposits the back, through the oil pipe with the oil discharge on material upper portion, discharge the material of jar body bottom through the discharging pipe, realize the oil separation of hot pot seasoning, but adopt the mode of waiting that the internal oil material mixture of jar deposits to separate the oil, the efficiency when having reduced jar body to the oil separation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an oil separating, storing and filling system, which aims to solve the problem of low separating efficiency caused by oil separating in a precipitation mode in the prior art.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

the oil separating, storing and filling system comprises a separating tank, an oil storage tank and a storage tank, wherein the top and the bottom of the separating tank are respectively provided with a feeding pipe and a discharging pipe, the side wall of the separating tank is provided with an oil outlet pipe, a separating structure is arranged in the separating tank, the separating structure comprises an oil collecting cylinder horizontally arranged in the separating tank, the oil collecting cylinder is in rotating fit with the separating tank, the oil collecting cylinder is communicated with the oil outlet pipe, a limiting structure is arranged in the separating tank, the side wall of the upper part of the oil collecting cylinder is provided with a notch, a filter screen is arranged on the notch, one side of the filter screen is provided with an upward-protruding counterweight plate, the limiting structure enables the filter screen to be in a horizontal state on the oil collecting cylinder, a buffer plate is arranged in the separating tank, and is arranged above the oil collecting cylinder and provided with a plurality of through holes; the oil outlet pipe is communicated with the oil storage tank, and the discharge pipe is communicated with the storage tank.

The beneficial effect of this scheme: during the use, add the oil mixture into the knockout drum, after carrying out the oil separation through the separation structure, oil is then stored in leading into the oil storage tank through the oil pipe, and the material is then stored in leading into the storage tank through the discharging pipe.

In the separation process, the oil mixture falls to the buffer plate after entering the separation tank, and then falls to the filter screen of the oil collecting cylinder through the through holes in the buffer plate, so that the oil is separated by the filter screen, the oil flows to the oil collecting cylinder through the filter screen, and the material is remained on the filter screen. The oil entering the oil collecting cylinder is discharged into the oil storage tank through the oil outlet pipe.

And because one side is equipped with the bellied counterweight plate that makes progress on the filter screen, so the material on the filter screen mainly is the opposite side of concentrating on the filter screen, the whole counter weight of oil collector can be unbalanced when the material pile of filter screen one side is too much, make the oil collector rotate to the one side that does not have the counterweight plate, the oil collector rotates then can make the filter screen slope, and then make the material along the filter screen landing to the separation tank bottom downwards, after most material from the filter screen gliding downwards, the oil collector can rotate under the effect of counterweight plate and reply to the horizontality, material is saturated once more on the filter screen.

Compare in prior art the material is whole to pile up and carry out the oil separation on the screen cloth, this scheme realizes the automatic clearance of material on the filter screen through the material dead weight, avoids the material on the screen cloth to pile up too much, and oil separation effect is better, and efficiency is higher.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of a separation tank in the example;

FIG. 3 is a schematic view of a separation structure in the example;

FIG. 4 is a schematic view of an oil storage tank in the example

FIG. 5 is a sectional view of an oil storage tank in the embodiment;

fig. 6 is a partially enlarged view of a portion a in fig. 5.

Reference numerals in the drawings of the specification include: the device comprises a separation tank 101, a third feeding pipe 102, a reducer pipe 103, a buffer plate 104, an oil collecting cylinder 105, a counterweight plate 106, a filter screen 107, an oil guide plate 108, an oil outlet pipe 109, a hose 110, an outlet pipe 111, a rotating shaft 112, a second stop block 113, a limit block 114, a first stop block 115, an oil storage tank 401, a tank body 201, a first feeding pipe 202, an overflow pipe 203, a heat insulation layer 204, a second feeding pipe 205, a cylinder assembly 206, a filling head 207, a material passage 208, a discharge port 209, a screen 210, a sleeve 211, a material pipe 212, a material pushing plug 213, a push rod 214, a first material gate 215, a second material port 216, a first material port 217, a second material gate 218, a rotary table 219, a rocking handle 220, an oil storage cavity 221, a material storage cavity 222, a partition plate 223 and a material storage tank 300.

Detailed Description

Various embodiments according to the present invention will be described in detail with reference to the accompanying drawings. Here, it is to be noted that, in the drawings, the same reference numerals are given to constituent parts having substantially the same or similar structures and functions, and repeated description thereof will be omitted. The term "sequentially comprising A, B, C, etc" merely indicates the order of the included elements A, B, C, etc. and does not exclude the possibility of including other elements between a and B and/or between B and C. The description of "first" and its variants is merely for distinguishing the components and does not limit the scope of the utility model, which may be written as "second" and the like without departing from the scope of the utility model.

The drawings in the present specification are schematic views to assist in explaining the concept of the present invention, and schematically show the shapes of respective portions and their mutual relationships.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to fig. 1 to 6.

The embodiment provides an oil separating, storing and filling system, which comprises a separating tank 101, an oil storage tank 401 and a storage tank 300, wherein the top and the bottom of the separating tank 101 are respectively provided with a third feeding pipe 102 and a third discharging pipe 111, the side wall of the separating tank 101 is provided with an oil outlet pipe 109, a separating structure is arranged in the separating tank 101, the separating structure comprises an oil collecting cylinder 105 horizontally arranged in the separating tank 101, the oil collecting cylinder 105 is in rotating fit with the separating tank 101, the oil collecting cylinder 105 is communicated with the oil outlet pipe 109, a limiting structure is arranged in the separating tank 101, the side wall of the upper part of the oil collecting cylinder 105 is provided with a notch, the notch is provided with a filter screen 107, one side of the filter screen 107 is provided with an upward convex counterweight plate 106, and the limiting structure enables the filter screen 107 to be in a horizontal state on the oil collecting cylinder 105; a buffer plate 104 is arranged in the separating tank 101, the buffer plate 104 is positioned below the reducer pipe 103, and a plurality of through holes are formed in the buffer plate 104; the outlet pipe 109 communicates with the storage tank 401, and the outlet pipe 111 communicates with the storage tank 300.

When the oil separation device is used, an oil mixture is added into the separation tank 101, after the oil is separated by the separation structure, the oil is guided into the oil storage tank 401 through the oil outlet pipe 109 to be stored, and the material is guided into the material storage tank 300 through the material outlet pipe 111 to be stored.

Referring to fig. 2, the top and the bottom of the knockout drum 101 are respectively provided with a feed end and a discharge end, the feed end includes a third feed pipe 102, the third feed pipe 102 is welded and fixed on the top wall of the knockout drum 101 and is communicated with the inside of the knockout drum 101, the discharge end includes a discharge pipe 111, and the discharge pipe 111 is welded and fixed on the bottom wall of the knockout drum 101 and is communicated with the inside of the knockout drum 101.

The buffer plate 104 is disposed above the separation structure, through holes of the buffer plate 104 can pass through the oil mixture, and the through holes of the buffer plate 104 are aligned to the filter screen 107. The buffer plate 104 can further disperse and buffer the oil, so that the oil falls to the separation structure through each through hole, and a large amount of oil is prevented from being accumulated.

Referring to fig. 2 and 3, the separating structure includes an oil collecting barrel 105, wherein a notch is formed in a side wall of the top of the oil collecting barrel 105, the notch is communicated with the inside of the oil collecting barrel 105, a filter screen 107 is fixedly connected to the notch through a screw, the filter screen 107 completely covers the notch, the filter screen 107 is used for separating materials and oil, when oil is located on the filter screen 107, the materials are separated on the filter screen 107, and the oil flows into the oil collecting barrel 105 through the filter screen 107, so that oil separation is realized.

The oil outlet pipe 109 is arranged on the side wall of the lower part of the separation tank 101, the inner end of the oil outlet pipe 109 extends into the separation tank 101, the inner end of the oil outlet pipe 109 is communicated with the oil collecting cylinder 105 through a hose 110, and the oil collected by the oil collecting cylinder 105 flows to the oil outlet pipe 109 through the hose 110 and is discharged into the oil storage tank 401 from the oil outlet pipe 109. Valves are arranged on the third feeding pipe 102, the discharging pipe 111 and the oil outlet pipe 109.

In some embodiments, in order to facilitate the rapid discharge of the oil in the oil collecting barrel 105, an oil guiding plate 108 is disposed in the oil collecting barrel 105, and the oil guiding plate 108 is disposed in an inclined state with a low left end and a high right end, so that the oil can rapidly flow to the oil outlet pipe 109 along the oil guiding plate 108, and the oil in the oil collecting barrel 105 can also be more completely discharged.

Referring to fig. 2 and 3, the oil sump 105 is horizontally disposed within the separator tank 101, and the oil sump 105 is rotatable within the separator tank 101. Specifically, two ends of the oil collecting cylinder 105 are fixedly connected with a rotating shaft 112 through screws and the like, and the rotating shaft 112 is rotatably matched with the inner wall of the separating tank 101 in a shaft hole matching or bearing matching mode, so that the oil collecting cylinder 105 can rotate in the separating tank 101.

The oil collecting cylinder 105 has a rotation range of 0-30 degrees, specifically, referring to fig. 3, a limiting structure is arranged between the rotating shaft 112 and the inner wall of the separating tank 101, and includes a limiting block 114, a first stopper 115 and a second stopper 113, the limiting block 114 is fixedly connected to the rotating shaft 112 through screws, the first stopper 115 and the second stopper 113 are fixedly connected to the inner wall of the separating tank 101 through screws, wherein the first stopper 115 is located on the right side of the limiting block 114, the second stopper 113 is located on a track of the limiting block 114 rotating counterclockwise along with the rotating shaft 112, and the rotation range of the limiting block 114 between the first stopper 115 and the second stopper 113 is 0-30 degrees. The upward convex counterweight plate 106 is arranged on the right side of the filter screen 107, the counterweight plate 106 enables the whole gravity center of the oil collecting cylinder 105 to be positioned on the right part of the oil collecting cylinder 105, the oil collecting cylinder 105 has a trend of rotating clockwise under the action of the counterweight plate 106 in an initial state, and the first stop block 115 limits the rotation of the oil collecting cylinder, so that in the initial state, as shown in fig. 3A, the limit block 114 is abutted against the first stop block 115, and the filter screen 107 is in a horizontal state.

The weight plate 106 can be a plate with an arc-shaped cross section, a triangle shape and the like protruding upwards, so that oil cannot be accumulated on the weight plate 106, and then the oil falls on the left side of the filter screen 107 completely, in this embodiment, the cross section of the weight plate 106 is an arc-shaped cross section.

Referring to fig. 2, in some embodiments, the lower end of the third feeding pipe 102 is fixedly connected with a reducer pipe 103 with a larger lower end and a smaller upper end, and the reducer pipe 103 serves as a buffer pipe to disperse and buffer the oil entering from the third feeding pipe 102, so as to prevent the oil from being accumulated together.

In some embodiments, the bottom of the knock-out pot 101 is tapered with a large top and a small bottom, which makes it easier to discharge the material from the bottom of the knock-out pot 101.

During the use, add oil mixture in to knockout drum 101, oil mixture is on dispersion state whereabouts to buffer board 104 after passing through reducing pipe 103, then oil mixture rethread buffer board 104 on the through-hole drops to filter screen 107, the material is obstructed on filter screen 107 when the oil is located filter screen 107, and oil then flows to oil trap 105 in through filter screen 107, and then realizes the oil separation. The oil in the oil collecting cylinder 105 is discharged to the oil storage tank 401 through the hose 110 and the discharging pipe 111.

During this process, the oil continues to fall from the buffer plate 104 onto the filter screen 107, since the oil is substantially located on the left side of the filter screen 107, the oil exerts a force on the oil collecting cylinder 105 to make it rotate counterclockwise, when the weight of the material on the left side of the filter screen 107 is larger than that of the counterweight plate 106 and continuously increases to a certain extent, as shown in fig. 3B, the oil collecting tank 105 rotates counterclockwise until the limiting block 114 abuts against the second limiting block 113, at this time, the filter screen 107 is inclined to be lower at the left and higher at the right, the material slides down along the filter screen 107 to the bottom of the separation tank 101, when most materials slide downwards, the weight of the left side of the filter screen 107 is greatly reduced and is smaller than that of the counterweight plate 106, and at this time, the oil collecting cylinder 105 will rotate clockwise and reset under the action of the counterweight plate 106 until the limiting block 114 abuts against the first stop block 115, and at this time, the filter screen 107 is horizontal again.

Referring to fig. 1, the top of the oil storage tank 401 is communicated with the oil outlet pipe 109, the top of the storage tank is communicated with the discharge pipe, and the bottom of the oil storage tank 401 and the bottom of the storage tank are connected with the filling machine 200 through pipes. In use, oil and material are directed from the separator tank 101 to the oil storage tank 401 and to a holding tank for temporary storage.

The system further comprises a filling machine 200, referring to fig. 4 and 5, the top of the tank 201 is provided with a feeding end, the feeding end comprises two oil inlet pipes welded and fixed on the top cover of the tank 201, the two oil inlet pipes are respectively a first inlet pipe 202 and a second inlet pipe 205 and are respectively communicated with the oil storage chamber 221 and the storage chamber 222, and valves are respectively arranged on the first inlet pipe 202 and the second inlet pipe 205.

Wherein, the oil storage chamber 221 and the storage chamber 222 are provided with filling structures at the bottom, and the filling structure on one side of the oil storage chamber 221 is described exemplarily in this embodiment, referring to fig. 5 and 6, the filling structure includes a sleeve 211, a filling tube 212 and a filling head 207, a horizontal mounting hole is opened at the bottom of the tank 201, and the sleeve 211 is clamped in the mounting hole and is bonded and fixed by glue. The bottom wall of the tank body 201 is further provided with a material channel 208, the material channel 208 extends downwards from the inside of the tank body 201 to the position of the sleeve 211, and correspondingly, the side wall of the top of the sleeve 211 is provided with a discharge port 209 communicated with the material channel 208.

The filling tube 212 is located inside the sleeve 211, and the outer diameter of the filling tube 212 is slightly smaller than the inner diameter of the sleeve 211, so that the filling tube 212 can be inserted into the sleeve 211 and the outer wall of the filling tube 212 fits the inner wall of the sleeve 211, and the filling tube 212 can rotate in the sleeve 211. In order to enhance the sealing between the filling tube 212 and the sleeve 211, a rubber layer is sleeved on the outer wall of the filling tube 212. The lateral wall of the filling tube 212 is provided with a material receiving opening opposite to the material discharge opening 209, the aperture of the material receiving opening is the same as that of the material discharge opening 209, and when the filling tube 212 is rotated to enable the material receiving opening to face upward, the material receiving opening is just right opposite to the material discharge opening 209, so that the filling tube 212 is communicated with the material channel 208. The right end of the filling tube 212 is fixedly connected with a turntable 219 through screws, the diameter of the turntable 219 is larger than the outer diameter of the filling tube 212, the turntable 219 abuts against the right side wall of the bottom of the tank body 201 when the filling tube 212 extends into the sleeve 211, a through hole for the push rod 214 to pass through is formed in the turntable 219, a rocking handle 220 is fixedly connected with the turntable 219 through screws, and a worker can hold the rocking handle 220 to rotate when the filling tube 212 needs to be rotated.

Referring to fig. 6, regarding the material receiving opening on one side of the oil storage cavity 221, a screen 210 is disposed at the material receiving opening, specifically, although the oil is filtered and then added into the oil storage cavity 221, considering the problem of incomplete filtration and the fact that the oil is in a standing state for a long time, there is still a certain amount of impurity precipitation at the bottom of the oil storage cavity 221, therefore, in this embodiment, the screen 210 is fixedly connected at the material receiving opening by gluing, and the screen 210 is mainly used for filtering the impurity precipitated at the bottom of the oil storage cavity 221, so as to prevent the impurity from entering the filling pipe 212 through the material receiving opening.

The pushing plug 213 is slidably fitted in the filling tube 212, and the pushing plug 213 is in sealing fit with the filling tube 212, specifically, the outer diameter of the pushing plug 213 is slightly smaller than the inner diameter of the filling tube 212, so that the pushing plug 213 can move in the filling tube 212, and a rubber sleeve is sleeved outside the pushing plug 213 to ensure the sealing between the pushing plug 213 and the filling tube 212. The right end of the pushing plug 213 is fixedly connected with a push rod 214, the right end of the push rod 214 is provided with a power structure, in this embodiment, the power structure is the cylinder assembly 206, the push rod 214 is fixed with a piston rod of the cylinder assembly 206, and when the pushing plug 213 is used, the cylinder assembly 206 drives the pushing plug 213 to move in the filling pipe 212.

The filling head 207 is fixedly connected to the left side wall of the bottom of the tank body 201 through a screw, and the filling head 207 is communicated with the filling tube 212, wherein the filling head 207 is a fluid filling nozzle commonly used in the prior art, for example, a filling head disclosed in CN 209740674U.

In use, the two filling tubes 212 are rotated to stagger the material receiving port from the material discharge port 209, and then the oil and the material in the oil storage tank and the material storage tank are respectively added into the oil storage chamber 221 and the material storage chamber 222 from the first feeding tube 202 and the second feeding tube 205 at the top for storage.

When the filling is needed, the two filling pipes 212 are rotated to enable the material receiving opening to be communicated with the material discharging opening 209, the oil and the material of the oil storage cavity 221 and the material storage cavity 222 can flow into the two filling pipes 212 through the material discharging opening 209 and the material receiving opening, when the oil and the material in the filling pipes 212 are filled, the filling pipes 212 are rotated to enable the material receiving opening to be staggered with the material discharging opening 209, at the moment, the oil and the material of the oil storage cavity 221 and the material storage cavity 222 cannot flow into the filling pipes 212, then the filling head 207 is opened, the air cylinder is started to push the material pushing plug 213, and the material pushing plug 213 pushes the oil and the material in the filling pipes 212 to the filling head 207 to fill the packaging bags, so that the simultaneous filling of the oil and the material is realized. After the single filling is accomplished, close filling head 207 again, rotate filling tube 212 and make and connect the material mouth and the bin outlet 209 intercommunication, refuel in to filling tube 212, so the circulation can.

In some embodiments, a stopping structure is provided between the filling tube 212 and the filling head 207, specifically, the stopping structure comprises a first material gate 215 and a second material gate 218, the first material gate 215 is fixedly connected to the left end of the sleeve 211 by a screw, the second material gate 218 is fixedly connected to the left end of the filling tube 212 by a screw, and the first material gate 215 and the second material gate 218 are attached. Wherein, first material mouth 217 has been seted up to first material door 215 downside, first material mouth 217 and filling head 207 intercommunication, second material door 218 is close to the one side of connecing the material mouth and has seted up the second material mouth 216 that can communicate with first material mouth 217, rotates filling tube 212 in-process, connects the material mouth when under the orientation, and first material mouth 217 and second material mouth 216 intercommunication connect the material mouth when connecting material mouth and expect mouthful 209 intercommunication directly over, and first material mouth 217 and second material mouth 216 stagger.

When oil and materials are supplied to the filling pipe 212, the filling pipe 212 is rotated to enable the material receiving port to be communicated with the material discharging port 209, at the moment, the first material port 217 and the second material port 216 are staggered, and the oil and the materials are all stored in the filling pipe 212, so that the oil and the materials are prevented from being leaked from the filling head 207; during filling, the filling tube 212 is rotated to communicate the first material port 217 with the second material port 216, at this time, the material receiving port is staggered with the material discharging port 209, and the oil and the material are extruded to the filling head 207 by the material pushing plug 213.

In some embodiments, overflow pipes 203 are disposed on the upper side walls of the oil storage chamber 221 and the material storage chamber 222, and the overflow pipes 203 overflow the excess oil and material in the oil storage chamber 221 and the material storage chamber 222 and remind the worker that the tank body is saturated with oil and material.

In some embodiments, a stirring mechanism is further disposed in the storage cavity 222, the stirring mechanism includes a rotating shaft driven by a motor and a stirring blade fixed on the rotating shaft, and the stirring mechanism is an existing conventional stirring assembly and is not described in detail in this embodiment.

In some embodiments, the outer side of the tank 201 is covered with an insulating layer 204, and the insulating layer 204 is made of insulating cotton, insulating board, insulating coating, etc. commonly used in the prior art.

In some embodiments, temperature probes are disposed in both the oil storage chamber 221 and the material storage chamber 222, and the temperature probes are digital display temperature probes commonly used in the prior art.

In some embodiments, the bottom of the tank 201 is tapered with a large top and a small bottom, which facilitates the flow of oil and material in the tank 201.

The foregoing detailed description of the preferred embodiments of the utility model has been presented. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the above teachings. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (8)

1. Oil separation, storage and filling system, its characterized in that: comprises a separation tank (101), the oil storage tank (401) and the storage tank (300), a third feeding pipe (102) and a third discharging pipe (111) are respectively arranged at the top and the bottom of the separation tank (101), an oil outlet pipe (109) is arranged on the side wall of the separation tank (101), a separation structure is arranged in the separation tank (101), the separation structure comprises an oil collecting cylinder (105) horizontally arranged in the separation tank (101), the oil collecting cylinder (105) is in rotating fit with the separation tank (101), the oil collecting cylinder (105) is communicated with the oil outlet pipe (109), a limiting structure is arranged in the separation tank (101), a notch is formed in the side wall of the upper part of the oil collecting cylinder (105), a filter screen (107) is arranged on the notch, an upward convex counterweight plate (106) is arranged on one side of the filter screen (107), the limiting structure enables the filter screen (107) to be in a horizontal state on the oil collecting cylinder (105), a buffer plate (104) is arranged in the separation tank (101), and a plurality of through holes are formed in the buffer plate (104) above the oil collecting cylinder (105); the oil outlet pipe (109) is communicated with the oil storage tank (401), and the discharge pipe (111) is communicated with the storage tank (300).

2. An oil separation, storage and filling system according to claim 1, wherein: the limiting structure comprises a limiting block (114), a first limiting block (115) and a second limiting block (113), the limiting block (114) is fixedly matched with the oil collecting cylinder (105), the first limiting block (115) is located on one side, close to the counterweight plate (106), of the limiting block (114), the filter screen (107) is in a horizontal state when the limiting block (114) is abutted to the first limiting block (115), and the second limiting block (113) is located on a track, rotating towards one side, far away from the counterweight plate (106) along with the oil collecting cylinder (105), of the limiting block (114).

3. An oil separation, storage and filling system according to claim 1 or 2, wherein: the lower end of the third feeding pipe (102) is fixedly connected with a reducer pipe (103) with a large lower end and a small upper end.

4. An oil separation, storage and filling system according to claim 1 or 2, wherein: the filling machine (200) comprises a tank body (201), a partition plate (223) is arranged in the tank body (201), the partition plate (223) divides the interior of the tank body (201) into an oil storage cavity (221) and a storage cavity (222), the oil storage tank (401) and the storage tank (300) are respectively connected with the oil storage cavity (221) and the storage cavity (222) through pipe fittings, the bottoms of the oil storage cavity (221) and the storage cavity (222) are respectively provided with a filling structure, the filling structure comprises a horizontally arranged sleeve (211), a discharge port (209) communicated with the interior of the oil storage cavity (221) or the storage cavity (222) is arranged on the top wall of the middle part of the sleeve (211), a filling pipe (212) is rotationally matched in the sleeve (211), the outer wall of the filling pipe (212) is attached to the inner wall of the sleeve (211), a material receiving port which can be opposite to the discharge port (209) is arranged on the side wall of the filling pipe (212), a material pushing plug (213) is arranged in the filling pipe (212) in a sliding fit manner, and the material pushing plug (213) is in sealing fit with the filling tube (212), a push rod (214) is fixedly connected to the material pushing plug (213), and a filling head (207) communicated with the filling tube (212) is arranged on one side of the lower part of the tank body (201) far away from the push rod (214).

5. The oil separation, storage and filling system according to claim 4, wherein: be equipped with between filling tube (212) and filling head (207) by the structure, by the structure including first bin gate (215) and second bin gate (218), first bin gate (215) fixed connection is in the tip of sleeve pipe (211), second bin gate (218) fixed connection is in the tip of filling tube (212), first material mouth (217) have been seted up to first bin gate (215) downside, second bin gate (218) are close to the one side that connects the material mouth and seted up second material mouth (216) that can communicate with first material mouth (217).

6. An oil separation, storage and filling system according to claim 4, wherein: overflow pipes (203) are arranged on the side walls of the upper parts of the oil storage cavity (221) and the material storage cavity (222).

7. The oil separation, storage and filling system according to claim 4, wherein: the outer side of the tank body (201) is covered with an insulating layer (204).

8. An oil separation, storage and filling system according to claim 4, wherein: temperature probes are arranged in the oil storage cavity (221) and the material storage cavity (222).

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