CN217662818U - Dewatering, deslagging and separating treatment device for aging oil - Google Patents

Abstract

The utility model is suitable for an ageing oil dehydration takes off sediment technical field, especially relates to ageing oil dehydration takes off sediment separation processing apparatus, including heating cabinet main part, agitator motor, puddler, stirring leaf, mounting panel and electrical heating board, and agitator motor installs in the heating cabinet main part, and the puddler is connected on agitator motor's output shaft, and the stirring leaf is installed in the outside of puddler, and the mounting panel rotates to be connected in the inside of heating cabinet main part, and the electrical heating board is installed in the mounting panel. The utility model discloses a set up water cooling subassembly, heat-conducting piece, logical liquid cavity and removal subassembly, can take away the heat of agitator motor self by the efficient to avoid agitator motor to work under the long-time high temperature environment and lead to self high temperature, and reduce self life-span, thereby improved this separation processing apparatus's application scope.

Description

Ageing oil dehydration, slag removal and separation treatment device

Technical Field

The utility model relates to an ageing oil dehydration takes off sediment technical field, specifically is ageing oil dehydration takes off sediment separation processing apparatus.

Background

The physical properties of the aging oil are special, and compared with the common water-containing crude oil: the viscosity is high. At the same temperature, the viscosity of the aging oil is multiple times of that of the common low-water-content crude oil; the chemical stability is good.

In each step of dehydrating and deslagging the aging oil, one step is to heat the aging oil, electric heating is generally adopted, and when materials in the heating box main body are heated, the aging oil is stirred by a stirring structure in order to improve the heating efficiency of the aging oil.

When the stirring structure of the existing heating box main body is used for stirring the aging oil in the heating box main body, the heating treatment is carried out in the heating box main body, so that the temperature in the heating box main body and the environment nearby the heating box main body is higher, and the higher temperature environment is very not beneficial to the operation of a stirring motor in the stirring structure.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide an ageing oil dehydration takes off sediment separation processing apparatus aims at solving following problem: when the stirring structure of the existing heating box main body is used for stirring the aging oil in the heating box main body, the heating treatment is carried out in the heating box main body, so that the temperature in the heating box main body and the environment nearby the heating box main body is higher, and the higher temperature environment is very not beneficial to the operation of a stirring motor in the stirring structure.

In order to achieve the above object, the utility model provides a following technical scheme:

ageing oil dehydration takes off sediment separation processing apparatus, including heating cabinet main part, agitator motor, puddler, stirring leaf, mounting panel and electrical heating board, and agitator motor installs in the heating cabinet main part, and the puddler is connected on agitator motor's output shaft, and the stirring leaf is installed in the outside of puddler, and the mounting panel rotates the inside of connecting in the heating cabinet main part, and the electrical heating board is installed in the mounting panel, ageing oil dehydration takes off sediment separation processing apparatus still includes:

the two heat conducting pieces are connected to the surface of the heating box body in a sliding mode and are in contact with the surface of the stirring motor, a liquid through cavity is formed in each heat conducting piece, and the heat conducting pieces are used for absorbing heat of the stirring motor;

the moving assembly is arranged on the heating box main body and is used for driving the heat conducting piece to move on the heating box main body through thread transmission; and

and the water cooling assembly is arranged on the heating box main body and the heat conducting piece, is used for storing the cooling liquid and is also used for circularly flowing the cooling liquid in the heat conducting piece.

Further, the water cooling module includes:

a third communicating member provided between the two heat conductive members;

a cooling liquid tank connected to a side surface of the heating tank main body for storing cooling liquid;

the water pump is arranged on the surface of the cooling liquid tank, and one end of the water pump is connected with the second communicating piece;

the first communicating piece is connected to the cooling liquid box, the water pump is used for pumping the cooling liquid in the cooling liquid box into the liquid through cavity through the second communicating piece, and the first communicating piece is used for introducing the cooling liquid in the liquid through cavity into the cooling liquid box.

Further, the moving assembly includes:

the supporting piece is connected to the surface of the heating box main body, and a threaded hole is formed in the surface of the supporting piece; and

the driving medium sets up in the inside of screw hole, and installs antifriction bearing between its and the heat-conducting piece, and the driving medium passes through antifriction bearing and rotates to be connected on the heat-conducting piece, and the driving medium is used for driving antifriction bearing and heat-conducting piece and removes, and the piece of turning round is installed to the one end of driving medium.

Furthermore, the two ends of the second communicating piece are respectively connected with one end of the water pump and the inside of the heat conducting piece, and the two ends of the first communicating piece are respectively connected with the inside of the heat conducting piece and the inside of the cooling liquid tank.

Further, the aging oil dehydration, deslagging and separation treatment device further comprises: and the rotating assembly is arranged on the heating box main body and the mounting plate and used for driving the mounting plate to rotate through mechanical transmission.

Further, the rotating assembly includes:

the connecting piece is connected to the mounting plate and used for driving the mounting plate to move;

the rotating piece is connected to the connecting piece and used for driving the connecting piece to rotate, and a sealing bearing is arranged between the rotating piece and the heating box main body; and

the driving piece is installed on the heating box main body, and the output end of the driving piece is connected with the rotating piece and used for driving the rotating piece to rotate.

The utility model provides an ageing oil dehydration takes off sediment separation processing apparatus through setting up water cooling component, heat-conducting piece, logical liquid cavity and removal subassembly, can take away the heat of agitator motor self by the efficient to avoid agitator motor to be in work under the high temperature environment for a long time and lead to self high temperature, and reduce self life-span, thereby improved this separation processing apparatus's application scope.

Drawings

FIG. 1 is a schematic structural diagram of a device for dehydrating, deslagging and separating aging oil.

FIG. 2 is a partial sectional view of a heat-conducting member in the dehydrated, deslagged and separated treatment device for the aged oil.

FIG. 3 is a partial structure diagram of a connecting piece, a rotating piece and a driving piece in the device for dehydrating, desludging and separating the aged oil.

In the figure: 1. a heating box main body; 2. a connecting member; 3. an electrical heating plate; 4. a coolant tank; 5. a water pump; 6. a first communication member; 7. a second communicating member; 8. a transmission member; 9. a liquid cavity is communicated; 10. a toggle member; 11. a third communicating member; 12. a heat conductive member; 13. a rolling bearing; 14. a threaded hole; 15. a support member; 16. a stirring rod; 17. a stirring motor; 18. mounting a plate; 19. stirring blades; 20. sealing the bearing; 21. a drive member; 22. and a rotating member.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following detailed description is provided to illustrate specific embodiments of the present invention.

As shown in fig. 1-3, the embodiment of the utility model provides an ageing oil dehydration takes off sediment separation processing apparatus, including heating cabinet main part 1, agitator motor 17, puddler 16, stirring leaf 19, mounting panel 18 and electric heating board 3, and agitator motor 17 installs on heating cabinet main part 1, and agitator motor 16 connects on agitator motor 17's output shaft, and stirring leaf 19 installs in the outside of puddler 16, and mounting panel 18 rotates to be connected in the inside of heating cabinet main part 1, and electric heating board 3 installs in mounting panel 18, ageing oil dehydration takes off sediment separation processing apparatus still includes:

the two heat conducting pieces 12 are connected to the surface of the heating box main body 1 in a sliding mode and are in contact with the surface of the stirring motor 17, the liquid through cavity 9 is formed in each heat conducting piece 12, and the heat conducting pieces 12 are used for absorbing heat of the stirring motor 17;

the moving assembly is arranged on the heating box main body 1 and is used for driving the heat conducting piece 12 to move on the heating box main body 1 through thread transmission; and

and the water cooling assembly is arranged on the heating box main body 1 and the heat conducting piece 12 and is used for storing the cooling liquid and also used for circulating the cooling liquid in the heat conducting piece 12.

The utility model discloses an embodiment, heat-conducting piece 12 can be heat-conducting plate or heat conduction arc piece, the shape of preferred heat-conducting piece 12 is made according to agitator motor 17's appearance, it still can drive heat-conducting piece 12 at the surface slip of heating cabinet main part 1 through the mode that electric telescopic handle promoted to remove the subassembly, water-cooling component can also spray the coolant liquid toward heat-conducting piece 12 surface earlier, take away the heat that heat-conducting piece 12 absorbed from agitator motor 17 that the mode that comes that the coolant liquid air-dries is quick again.

As shown in fig. 1 and 2, in an embodiment of the present invention, the water cooling assembly includes:

a third communicating member 11 provided between the two heat conductive members 12;

a coolant tank 4 connected to a side surface of the heating tank main body 1 for storing coolant;

a water pump 5 installed on the surface of the coolant tank 4 and having one end connected to a second communication member 7;

first connecting element 6 is connected on coolant liquid case 4, and water pump 5 is used for leading into liquid cavity 9 with the coolant liquid of coolant liquid case 4 in through the pump of second connecting element 7, and first connecting element 6 is used for leading into coolant liquid case 4 with the coolant liquid in the liquid cavity 9.

In this embodiment, the moving assembly includes:

a support member 15 connected to the surface of the heating box body 1, and having a screw hole 14 formed in the surface thereof; and

the driving medium 8 sets up in the inside of screw hole 14, and installs antifriction bearing 13 between it and heat-conducting piece 12, and driving medium 8 rotates through antifriction bearing 13 and connects on heat-conducting piece 12, and driving medium 8 is used for driving antifriction bearing 13 and heat-conducting piece 12 and removes, and twist 10 is installed to the one end of driving medium 8.

In this embodiment, both ends of the second communicating member 7 are connected to one end of the water pump 5 and the inside of the heat conducting member 12, respectively, and both ends of the first communicating member 6 are connected to the inside of the heat conducting member 12 and the inside of the coolant tank 4, respectively.

In this embodiment, the third communicating member 11 may be a communicating hose, the cooling liquid tank 4 may be a liquid storage tank or a storage barrel, the first communicating member 6 may be a communicating hose or a communicating pipe combining a soft pipe and a hard pipe, the second communicating member 7 may be a communicating hose or a communicating pipe combining a soft pipe and a hard pipe, the support member 15 may be a support plate or a support block, the transmission member 8 may be a threaded rod or a threaded column, and the twisting member 10 may be a twisting column;

when the stirring motor 17 is required to dissipate heat, the twisting part 10 can be rotated firstly, so that the twisting part 10 drives the transmission part 8 to rotate on the heat conduction part 12 through the rolling bearing 13, the transmission part 8 can move in the threaded hole 14 until the transmission part 8 pushes the heat conduction part 12 to be abutted against the outer side of the stirring motor 17, then the water pump 5 is started, the water pump 5 pumps the cooling liquid in the cooling liquid tank 4 into the liquid through cavity 9 through the second communication part 7, the heat absorbed by the heat conduction part 12 from the stirring motor 17 can be taken away in the flowing process of the cooling liquid in the liquid through cavity 9, so that the stirring motor 17 can be efficiently cooled for heat dissipation, then the cooling liquid flows back into the inside of the cooling liquid tank 4 through the first communication part 6 connected to the heat conduction part 12, and when the water cooling assembly is not required to dissipate heat for the stirring motor 17, in order to avoid the heat conduction part 12 from being attached to the stirring motor 17 and influencing the normal heat dissipation of the stirring motor 17, the heat conduction part 12 is required to be far away from the stirring motor 17 through the moving assembly.

As shown in fig. 1 and fig. 3, in an embodiment of the present invention, the aging oil dehydration, slag removal, separation and treatment apparatus further includes: and the rotating assembly is arranged on the heating box main body 1 and the mounting plate 18 and is used for driving the mounting plate 18 to rotate through mechanical transmission.

In this embodiment, the rotating assembly includes:

the connecting piece 2 is connected to the mounting plate 18 and is used for driving the mounting plate 18 to move;

the rotating part 22 is connected to the connecting part 2 and used for driving the connecting part 2 to rotate, and a sealing bearing 20 is arranged between the rotating part 22 and the heating box main body 1; and

and the driving part 21 is installed on the heating box main body 1, and the output end of the driving part is connected with the rotating part 22 and used for driving the rotating part 22 to rotate.

In this embodiment, the connecting element 2 may be a connecting rod or a connecting column, the rotating element 22 may be a rotating rod or a rotating column, and the driving element 21 may be a driving motor or a forward and reverse rotating motor;

when the material in the heating box main body 1 is heated by the electric heating plate 3, in order to improve the heating efficiency of the electric heating plate 3, the driving member 21 can be opened, the driving member 21 drives the rotating member 22 and the connecting member 2 to rotate, the connecting member 2 drives the mounting plate 18 and the electric heating plate 3 to rotate inside the heating box main body 1, and after the mounting plate 18 rotates a certain number of turns, the rotating member 22 should be reversed, and the circulation is repeated.

The utility model discloses a working method does: when heat dissipation is required for the stirring motor 17, the twisting part 10 can be rotated firstly, so that the twisting part 10 drives the transmission part 8 to rotate on the heat conducting part 12 through the rolling bearing 13, the transmission part 8 can move in the threaded hole 14 until the transmission part 8 pushes the heat conducting part 12 to abut against the outer side of the stirring motor 17, then the water pump 5 is started, the water pump 5 pumps cooling liquid in the cooling liquid tank 4 into the liquid through cavity 9 through the second communicating part 7, heat absorbed by the heat conducting part 12 from the stirring motor 17 can be taken away in the flowing process of the cooling liquid in the liquid through cavity 9, heat dissipation and cooling for the stirring motor 17 can be efficiently carried out, and then the cooling liquid flows back into the cooling liquid tank 4 through the first communicating part 6 connected to the heat conducting part 12;

when the material in the heating box main body 1 is heated by the electric heating plate 3, the driving member 21 can be opened to improve the heating efficiency of the electric heating plate 3, the driving member 21 drives the rotating member 22 and the connecting member 2 to rotate, and the connecting member 2 drives the mounting plate 18 and the electric heating plate 3 to rotate inside the heating box main body 1.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (6)

1. Ageing oil dehydration takes off sediment separation processing apparatus, including heating cabinet main part, agitator motor, puddler, stirring leaf, mounting panel and electrical heating board, and agitator motor installs in the heating cabinet main part, and the puddler is connected on agitator motor's output shaft, and the outside at the puddler is installed to the stirring leaf, and the mounting panel rotates the inside of connecting in the heating cabinet main part, and the electrical heating board is installed in the mounting panel, its characterized in that, ageing oil dehydration takes off sediment separation processing apparatus still includes:

the two heat conducting pieces are connected to the surface of the heating box main body in a sliding mode and are in contact with the surface of the stirring motor, a liquid through cavity is formed in each heat conducting piece, and the heat conducting pieces are used for absorbing heat of the stirring motor;

the moving assembly is arranged on the heating box main body and is used for driving the heat conducting piece to move on the heating box main body through thread transmission; and

and the water cooling component is arranged on the heating box main body and the heat conducting piece, is used for storing the cooling liquid and is also used for circularly flowing the cooling liquid in the heat conducting piece.

2. The aging oil dehydration, slag removal and separation treatment device of claim 1, wherein the water cooling module comprises:

a third communicating member provided between the two heat conductive members;

a cooling liquid tank connected to a side surface of the heating tank main body for storing cooling liquid;

the water pump is arranged on the surface of the cooling liquid tank, and one end of the water pump is connected with the second communicating piece;

the first communicating piece is connected to the cooling liquid box, the water pump is used for pumping the cooling liquid in the cooling liquid box into the liquid through cavity through the second communicating piece, and the first communicating piece is used for introducing the cooling liquid in the liquid through cavity into the cooling liquid box.

3. The aging oil dehydration, slag removal and separation treatment device of claim 1, wherein the moving assembly comprises:

the supporting piece is connected to the surface of the heating box main body, and a threaded hole is formed in the surface of the supporting piece; and

the driving medium sets up in the inside of screw hole, and installs antifriction bearing between its and the heat-conducting piece, and the driving medium passes through antifriction bearing and rotates to be connected on the heat-conducting piece, and the driving medium is used for driving antifriction bearing and heat-conducting piece and removes, and the piece is twisted to the one end of driving medium installation.

4. The apparatus of claim 2, wherein both ends of the second communicating member are connected to one end of the water pump and the inside of the heat conducting member, respectively, and both ends of the first communicating member are connected to the inside of the heat conducting member and the inside of the coolant tank, respectively.

5. The aging oil dehydration, slag removal and separation treatment device according to claim 1, further comprising: and the rotating assembly is arranged on the heating box main body and the mounting plate and used for driving the mounting plate to rotate through mechanical transmission.

6. The aging oil dehydration and slag removal separation treatment device of claim 5, wherein the rotating assembly comprises:

the connecting piece is connected to the mounting plate and used for driving the mounting plate to move;

the rotating piece is connected to the connecting piece and used for driving the connecting piece to rotate, and a sealing bearing is arranged between the rotating piece and the heating box main body; and

the driving piece is installed on the heating box main body, and the output end of the driving piece is connected with the rotating piece and used for driving the rotating piece to rotate.

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