CN218047775U - High-efficient recovery unit of waste mineral oil solvent - Google Patents

Abstract

The utility model belongs to the technical field of the waste mineral oil recovery technique and specifically relates to a high-efficient recovery unit of waste mineral oil solvent, including the barrel, the barrel is inside from last mixed reacting chamber, heat transfer room and the filter chamber of down having set gradually. The utility model discloses in, through down setting gradually mixed reacting chamber from last in the barrel is inside, heat transfer room and filter chamber, wherein, the mixed agitator that sets up in the mixed reacting chamber supplies waste mineral oil solvent mixed reaction, the electric heater and the agitator of setting can realize the heating stirring to waste mineral oil solvent, waste mineral oil solvent's reaction with higher speed, after waiting to heat the stirring, in leading-in heat transfer room with the mixture, the heat exchange tube that runs through the heat transfer room has been set up between the feed box that heat transfer room both ends set up respectively and the play workbin, can realize the cooling to the interior mixture's of heat transfer room, make the fixed material condensation crystallization in the mixture, filter in the leading-in filter chamber of back, can realize the high-efficient recovery to waste mineral oil solvent.

Description

High-efficient recovery unit of waste mineral oil solvent

Technical Field

The utility model relates to a waste mineral oil retrieves technical field, specifically is a high-efficient recovery unit of waste mineral oil solvent.

Background

The waste mineral oil is oil which is changed when the waste mineral oil cannot be used continuously due to the change of the original physical and chemical properties under the actions of impurity pollution, oxidation and heat; mainly comes from oil sludge and oil foot produced by oil extraction and refining; deposits produced during the warehousing of mineral oils; in the recovery process of the waste mineral oil solvent, the waste mineral oil solvent after high-temperature stirring reaction cannot be rapidly cooled and is inconvenient for subsequent filtration, so that the high-efficiency recovery device for the waste mineral oil solvent is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient recovery unit of waste mineral oil solvent, through down setting gradually the mixed reacting chamber from last inside the barrel, heat transfer chamber and filter chamber, wherein, the mixed agitator that sets up in the mixed reacting chamber supplies waste mineral oil solvent mixed reaction, the electric heater and the agitator of setting can realize the heating stirring to waste mineral oil solvent, waste mineral oil solvent's reaction accelerates, wait to heat the stirring back, in leading-in heat transfer chamber with the misce bene, the feeding case that the misce bene both ends set up respectively and set up the heat exchange tube that runs through the heat transfer chamber between the play workbin, can realize the cooling to the misce in the heat transfer chamber, make the fixed material condensation crystallization in the misce, filter in the leading-in filter chamber of back, can realize the high-efficient recovery to waste mineral oil solvent, in order to solve the problem that proposes in the above-mentioned background art.

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

an efficient recovery device of waste mineral oil solvent, comprising:

the device comprises a cylinder body, wherein a mixing reaction chamber, a heat exchange chamber and a filtering chamber are sequentially arranged in the cylinder body from top to bottom;

a mixing and stirring barrel is arranged in the mixing and stirring chamber, a stirring mechanism is arranged in the mixing and stirring barrel, a blanking pipe extending into the heat exchange chamber is arranged at the left end of the bottom of the mixing and stirring barrel, a heat exchange medium is filled in a cavity between the mixing and stirring barrel and the inner wall of the heat exchange chamber, and an electric heater is fixedly arranged on the inner wall of the heat exchange chamber;

the cooling mechanism comprises a feeding box arranged on a left panel of the heat exchange chamber and a discharging box arranged on a right panel of the heat exchange chamber, a heat exchange tube penetrating through the heat exchange chamber is arranged between the feeding box and the discharging box, and a discharging tube extending into the filter chamber is arranged at the bottom of the right end of the heat exchange chamber;

the cooling mechanism further comprises a heat exchange box and a circulating pump, a feeding pipe of the circulating pump is connected with a feeding port of the feeding box, a discharging port of the discharging box is connected with a feeding port of the heat exchange box through a circulating pipe, and a pumping pipe of the circulating pump is connected with a discharging port of the heat exchange box.

As a preferred scheme, a blanking valve is arranged on the blanking pipe.

As a preferred scheme, a plurality of guide plates are arranged inside the heat exchange chamber from left to right, and guide chutes on the guide plates in the heat exchange chamber are sequentially arranged from left to right in an alternating manner.

As a preferred scheme, a manhole extending out of the cylinder body is arranged at the top of the mixing and stirring barrel, and a sealing end cover is arranged on the manhole.

As an optimal scheme, the stirring mechanism specifically comprises a stirrer arranged inside the mixing and stirring barrel, a stirring motor is fixedly arranged in the middle of the top panel of the barrel, and a motor shaft of the stirring motor extends into the mixing and stirring barrel and is connected with a rotating shaft of the stirrer.

As a preferred scheme, the bottom plate of the filtering chamber is a material guide slope which is inclined upwards from left to right in sequence, the middle part of the filtering chamber is vertically provided with a filtering plate, the left end of the bottom of the filtering chamber is provided with a water outlet extending out of the cylinder, and the right end of the bottom of the filtering chamber is provided with a impurity removing port extending out of the cylinder.

As an optimal scheme, the inside material room that leads to that is provided with of heat transfer case, all set up the mounting groove on heat transfer case top panel and the bottom panel, and be provided with the semiconductor refrigeration piece of cold junction and the laminating of material outdoor wall in the mounting groove to be provided with the radiator on the hot junction of semiconductor refrigeration piece, the radiator stretches the mounting groove outer and on the radiator fixed radiator fan that sets up.

As a preferred scheme, the inner walls of the bottom and the top of the material passing chamber are alternately provided with heat exchange fins, the left side panel of the material passing chamber is provided with a feeding hole, and the right side panel of the material passing chamber is provided with a discharging hole.

By the foregoing the utility model provides a technical scheme can find out, the utility model provides a pair of high-efficient recovery unit of waste mineral oil solvent, beneficial effect is: through inside from last mixed reacting chamber that down sets gradually of barrel, heat transfer chamber and filter chamber, wherein, the mixed agitator that sets up in the mixed reacting chamber supplies the mixed reaction of waste mineral oil solvent, the electric heater and the agitator that set up can realize the heating stirring to waste mineral oil solvent, waste mineral oil solvent's reaction accelerates, wait to heat the stirring back, in the leading-in heat transfer chamber with the misce bene, the feeding case that the heat transfer chamber both ends set up respectively has set up the heat exchange tube that runs through the heat transfer chamber with going out between the workbin, can realize the cooling to the indoor misce bene of heat transfer, make the fixed material condensation crystallization in the misce, filter in the leading-in filter chamber of back, can realize the high-efficient recovery to waste mineral oil solvent.

Drawings

FIG. 1 is a schematic view of the overall structure of a high-efficiency recovery device for waste mineral oil solvent of the present invention;

fig. 2 is the cross-sectional structure diagram of the heat exchange box of the high-efficient recovery unit for waste mineral oil solvent of the utility model.

In the figure: 1. a cylinder body; 11. a mixing reaction chamber; 12. a heat exchange chamber; 13. a filtering chamber; 2. a mixing and stirring barrel; 21. a manhole; 22. a stirrer; 23. a stirring motor; 24. an electric heater; 25. a discharging pipe; 3. a baffle; 31. a feeding box; 32. a discharging box; 33. a heat exchange pipe; 34. a circulation pump; 35. a circulation pipe; 4. a filter plate; 41. a water outlet; 42. removing impurities; 5. a heat exchange box; 51. a material passing chamber; 52. mounting grooves; 53. a semiconductor refrigeration sheet; 54. a heat exchanger fin; 55. a heat sink.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail 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.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

For better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the present invention.

As shown in fig. 1-2, the embodiment of the utility model provides a high-efficient recovery unit of waste mineral oil solvent, include:

the device comprises a cylinder body 1, wherein a mixing reaction chamber 11, a heat exchange chamber 12 and a filtering chamber 13 are sequentially arranged in the cylinder body 1 from top to bottom;

a mixing and stirring barrel 2 is arranged in the mixing and stirring chamber 11, a stirring mechanism is arranged in the mixing and stirring barrel 2, a blanking pipe 25 extending into the heat exchange chamber 12 is arranged at the left end of the bottom of the mixing and stirring barrel 2, a blanking valve is arranged on the blanking pipe 25, a heat exchange medium is filled in a cavity between the mixing and stirring barrel 2 and the inner wall of the heat exchange chamber 12, and an electric heater 24 is fixedly arranged on the inner wall of the heat exchange chamber 12;

the cooling mechanism comprises a feeding box 31 arranged on a left panel of the heat exchange chamber 12 and a discharging box 32 arranged on a right panel of the heat exchange chamber 12, a heat exchange pipe 33 penetrating through the heat exchange chamber 12 is arranged between the feeding box 31 and the discharging box 32, a discharging pipe extending into the filtering chamber 13 is arranged at the bottom of the right end of the heat exchange chamber 12, a plurality of guide plates 3 are arranged inside the heat exchange chamber 12 from left to right, and guide chutes on the guide plates 3 in the heat exchange chamber 12 are sequentially and alternately arranged from left to right;

cooling mechanism still includes heat transfer case 5 and circulating pump 34, the feed inlet of feed tank 31 is connected to the feed pipe of circulating pump 34, the feed inlet that the discharge gate of play workbin 32 passes through circulating pipe 35 and connects heat transfer case 5, the discharge gate of circulating pump 34's pump line connection heat transfer case 5, heat transfer case 5 is inside to be provided with logical material room 51, all set up mounting groove 52 on 5 top panels of heat transfer case and the bottom panel, and be provided with the semiconductor refrigeration piece 53 of cold junction and the laminating of logical material room 51 outer wall in the mounting groove 52, and be provided with radiator 55 on the hot junction of semiconductor refrigeration piece 53, radiator 55 stretches to fix on the mounting groove 52 outside and radiator 55 and sets up radiator fan.

In the device, the top of the mixing and stirring barrel 2 is provided with a manhole 21 extending out of the barrel 1, and the manhole 21 is provided with a sealing end cover.

Among the above-mentioned device, rabbling mechanism is specifically including setting up the agitator 22 in mixing and stirring 2 insides, and the fixed agitator motor 23 that is provided with in top panel middle part of barrel 1, and agitator motor 23's motor shaft stretches into mixing and stirring 2 insides and is connected with the pivot of agitator 22.

In the above device, the bottom plate of the filtering chamber 13 is a material guiding slope which is inclined upwards from left to right, the filtering plate 4 is vertically arranged in the middle of the filtering chamber 13, the left end of the bottom of the filtering chamber 13 is provided with a water outlet 41 extending out of the cylinder 1, and the right end of the bottom of the filtering chamber 13 is provided with a sundry removing port 42 extending out of the cylinder 1.

In the device, the heat exchange fins 54 are alternately arranged on the inner walls of the bottom and the top of the material passing chamber 51, the feeding hole is arranged on the left side panel of the material passing chamber 51, and the discharging hole is arranged on the right side panel of the material passing chamber 51.

The utility model discloses a high-efficient recovery unit of waste mineral oil solvent, through down setting gradually the mixed reacting chamber from last inside the barrel, heat transfer chamber and filter chamber, wherein, the mixed agitator that sets up in the mixed reacting chamber supplies waste mineral oil solvent mixed reaction, the heating stirring to waste mineral oil solvent can be realized to electric heater and the agitator of setting, waste mineral oil solvent's reaction accelerates, wait to heat the stirring back, in leading-in heat transfer chamber with the misce bene material, the feeding case that the heat transfer chamber both ends set up respectively with go out and set up the heat exchange tube that runs through the heat transfer chamber between the workbin, can realize the cooling to the misce material in the heat transfer chamber, make the fixed material condensation crystallization in the misce material, filter in the leading-in filter chamber of back, can realize the high-efficient recovery to waste mineral oil solvent.

The embodiments of the present invention will be described in further detail below with reference to the attached drawings:

referring to fig. 1-2, comprising a cylinder 1, a heat exchange box 5 and a circulating pump 34, a mixing reaction chamber 11, a heat exchange chamber 12 and a filtering chamber 13 are sequentially arranged in the cylinder 1 from top to bottom, a mixing and stirring barrel 2 is arranged in the mixing reaction chamber 11, a stirring mechanism is arranged in the mixing and stirring barrel 2, a feeding pipe 25 extending into the heat exchange chamber 12 is arranged at the left end of the bottom of the mixing and stirring barrel 2, a feeding valve is arranged on the feeding pipe 25, a cavity between the mixing and stirring barrel 2 and the inner wall of the heat exchange chamber 12 is filled with a heat exchange medium, an electric heater 24 is fixedly arranged on the inner wall of the heat exchange chamber 12, a feeding box 31 is arranged on the left panel of the heat exchange chamber 12, a discharging box 32 is arranged on the right panel of the heat exchange chamber 12, a heat exchange pipe 33 extending through the heat exchange chamber 12 is arranged between the feeding box 31 and the discharging box 32, a feeding pipe extending into the filtering chamber 13 is arranged at the bottom of the right end of the heat exchange chamber 12, a plurality of guide plates 3 are arranged in the heat exchange chamber 12 from left to right, guide chutes on the guide plates 3 in the heat exchange chamber 12 are sequentially and alternately arranged from left to right, a feed pipe of a circulating pump 34 is connected with a feed port of a feed box 31, a discharge port of a discharge box 32 is connected with a feed port of a heat exchange box 5 through a circulating pipe 35, a pumping pipe of the circulating pump 34 is connected with a discharge port of the heat exchange box 5, a material passing chamber 51 is arranged in the heat exchange box 5, mounting grooves 52 are formed in a top panel and a bottom panel of the heat exchange box 5, semiconductor refrigerating sheets 53 with cold ends attached to the outer wall of the material passing chamber 51 are arranged in the mounting grooves 52, a radiator 55 is arranged on the hot end of each semiconductor sheet 53, a radiating fan is fixedly arranged on the radiator 55, heat exchange sheets 54 are alternately arranged on the inner walls at the bottom and the top of the material passing chamber 51, a feed port is arranged on the panel on the left side of the material passing chamber 51, set up the discharge gate on the panel of logical material room 51 right side, mix 2 inside agitators 22 that are provided with of agitator, the fixed agitator motor 23 that is provided with in top panel middle part of barrel 1, agitator motor 23's motor shaft stretches into mix 2 inside and agitator 22's pivot connections of agitator, mix 2 tops of agitator and be provided with the manhole 21 that stretches out the barrel 1 outside, set up end cover on the manhole 21.

Wherein, the bottom plate of the filtering chamber 13 is a material guiding slope which is inclined upwards from left to right, the filtering plate 4 is vertically arranged in the middle of the filtering chamber 13, the left end of the bottom of the filtering chamber 13 is provided with a water outlet 41 which extends out of the cylinder 1, and the right end of the bottom of the filtering chamber 13 is provided with a sundry removing opening 42 which extends out of the cylinder 1.

The working principle of the embodiment is as follows: through at the inside from last mixed reaction chamber that down sets gradually of barrel, heat transfer chamber and filter chamber, wherein, the mixed agitator that sets up in the mixed reaction chamber supplies waste mineral oil solvent mixing reaction, the electric heater and the agitator of setting can realize the heating stirring to waste mineral oil solvent, waste mineral oil solvent's reaction with higher speed, wait to heat the stirring back, in the leading-in heat transfer chamber of misce bene, the heat exchange tube that runs through the heat transfer chamber has been set up between the feeding case that heat transfer chamber both ends set up respectively and the play workbin, can realize the cooling to the interior misce bene of heat transfer chamber, make the fixed material condensation crystallization among the misce, filter in the leading-in filter chamber of back, can realize the high-efficient recovery to waste mineral oil solvent.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a high-efficient recovery unit of waste mineral oil solvent which characterized in that: the method comprises the following steps:

the device comprises a cylinder body (1), wherein a mixing reaction chamber (11), a heat exchange chamber (12) and a filtering chamber (13) are sequentially arranged in the cylinder body (1) from top to bottom;

a mixing and stirring barrel (2) is arranged in the mixing reaction chamber (11), a stirring mechanism is arranged in the mixing and stirring barrel (2), a discharging pipe (25) extending into the heat exchange chamber (12) is arranged at the left end of the bottom of the mixing and stirring barrel (2), a heat exchange medium is filled in a cavity between the mixing and stirring barrel (2) and the inner wall of the heat exchange chamber (12), and an electric heater (24) is fixedly arranged on the inner wall of the heat exchange chamber (12);

the cooling mechanism comprises a feeding box (31) arranged on a left side panel of the heat exchange chamber (12) and a discharging box (32) arranged on a right side panel of the heat exchange chamber (12), a heat exchange pipe (33) penetrating through the heat exchange chamber (12) is arranged between the feeding box (31) and the discharging box (32), and a discharging pipe extending into the filtering chamber (13) is arranged at the bottom of the right end of the heat exchange chamber (12);

the cooling mechanism further comprises a heat exchange box (5) and a circulating pump (34), a feeding pipe of the circulating pump (34) is connected with a feeding hole of the feeding box (31), a discharging hole of the discharging box (32) is connected with a feeding hole of the heat exchange box (5) through a circulating pipe (35), and a discharging pipe of the circulating pump (34) is connected with a discharging hole of the heat exchange box (5).

2. The apparatus for recovering solvent from waste mineral oil with high efficiency as set forth in claim 1, wherein: and a blanking valve is arranged on the blanking pipe (25).

3. The apparatus for recovering solvent from waste mineral oil with high efficiency as set forth in claim 1, wherein: the guide plate heat exchanger is characterized in that a plurality of guide plates (3) are arranged inside the heat exchange chamber (12) from left to right, and guide chutes on the guide plates (3) in the heat exchange chamber (12) are sequentially arranged from left to right in an alternating manner.

4. The apparatus for recovering solvent from waste mineral oil with high efficiency as set forth in claim 1, wherein: the top of the mixing and stirring barrel (2) is provided with a manhole (21) extending out of the barrel body (1), and a sealing end cover is arranged on the manhole (21).

5. The high-efficiency recovery device for waste mineral oil solvent as claimed in claim 1, wherein: the stirring mechanism specifically comprises a stirrer (22) arranged inside the mixing and stirring barrel (2), a stirring motor (23) is fixedly arranged in the middle of the top panel of the barrel body (1), and a motor shaft of the stirring motor (23) extends into the mixing and stirring barrel (2) and is connected with a rotating shaft of the stirrer (22).

6. The high-efficiency recovery device for waste mineral oil solvent as claimed in claim 1, wherein: the bottom plate of filter chamber (13) is for turning right the guide slope of tilt up in proper order from a left side, filter chamber (13) middle part is provided with filter (4) perpendicularly, and filter chamber (13) bottom left end is provided with delivery port (41) outside stretching out barrel (1), filter chamber (13) bottom right-hand member is provided with except that miscellaneous mouthful (42) outside stretching out barrel (1).

7. The apparatus for recovering solvent from waste mineral oil with high efficiency as set forth in claim 1, wherein: heat transfer case (5) inside is provided with material passing chamber (51), all set up mounting groove (52) on heat transfer case (5) top panel and the bottom panel, and be provided with semiconductor refrigeration piece (53) of cold junction and material passing chamber (51) outer wall laminating in mounting groove (52) to be provided with radiator (55) on the hot junction of semiconductor refrigeration piece (53), radiator (55) stretch outside mounting groove (52) and radiator (55) go up the fixed radiator fan that sets up.

8. The apparatus for recovering solvent from waste mineral oil with high efficiency as claimed in claim 7, wherein: heat exchange fins (54) are alternately arranged on the inner walls of the bottom and the top of the material passing chamber (51), a feeding hole is formed in the left side panel of the material passing chamber (51), and a discharging hole is formed in the right side panel of the material passing chamber (51).

Images