CN212335116U - Asphalt fast melting and deslagging device - Google Patents

Abstract

The utility model discloses a sediment device is arranged to pitch fast melting relates to pitch processing equipment technical field, and the main objective provides one kind can separate granule class impurity and liquid asphalt and melt sediment device soon with granule class impurity exhaust pitch. The utility model discloses a main technical scheme does: a fast asphalt melting and deslagging device comprises: the storage component comprises a feeding tank body, a transition tank body and a slag discharging tank body, wherein one end of the feeding tank body is provided with a feeding pipe, the other end of the feeding tank body is connected with one end of the transition tank body, the connecting position of the feeding tank body and the transition tank body is provided with a discharging pipe, one end of the slag discharging tank body is connected with the other end of the transition tank body, the other end of the slag discharging tank body is provided with a slag discharging port, and the slag discharging port; the first heating member is arranged on the inner walls of the feeding tank body and the transition tank body in a surrounding mode, and the second heating member is longitudinally arranged on the inner wall of the slag discharging tank body. The utility model discloses mainly used pitch heating.

Description

Asphalt fast melting and deslagging device

Technical Field

The utility model relates to a pitch processing equipment technical field especially relates to a sediment device is arranged in pitch fast melting.

Background

The fast melting device for solid asphalt is a facility for fast melting the solid asphalt into liquid by using an indirect heating mode. The melting device is widely applied to the carbon industry, and because carbon products have strict requirements on impurities in the asphalt, particularly, particle impurities cannot enter a conveying pipeline or an asphalt storage tank, because the particle impurities easily damage an asphalt conveying pump or block the asphalt conveying pipeline.

In the prior art, an asphalt fast melting device is usually adopted, solid asphalt is continuously added into a melting tank, a heat conduction oil coil pipe with the temperature of more than 250 ℃ is arranged in the melting tank, the solid asphalt is melted into liquid in the process of moving from top to bottom, the melting device has the characteristics of high melting speed and high capacity, but impurities, particularly particle impurities, in the molten liquid asphalt are deposited in horizontal pipelines, particularly low-position horizontal pipelines, for conveying the liquid asphalt, or deposited at the bottom of a liquid asphalt storage tank, so that the horizontal pipelines are easily blocked, or an asphalt conveying pump is easily damaged.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the utility model provides a sediment device is melted soon to pitch, and the main objective provides a sediment device is melted soon to pitch that can separate granule class impurity and liquid pitch and discharge granule class impurity.

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

the embodiment of the utility model provides a sediment device is melted soon to pitch, the device includes:

the storage component comprises a feeding tank body, a transition tank body and a slag discharging tank body, wherein one end of the feeding tank body is provided with a feeding pipe, the other end of the feeding tank body is connected with one end of the transition tank body, a discharging pipe is arranged at the connecting position of the feeding tank body and the transition tank body, one end of the slag discharging tank body is connected with the other end of the transition tank body, the other end of the slag discharging tank body is provided with a slag discharging port, and the slag discharging port is detachably connected with the blocking component;

the heating part, the heating part includes first heater part and second heating part, first heating part encircles the setting and is in the feeding jar body with the internal wall of transition jar, the second heating part is vertically set up arrange the internal wall of row sediment jar body.

Further, the feeding tank body, the transition tank body and the slag discharge tank body are communicated in sequence.

Furthermore, the transition tank body is of an inverted frustum structure or an inverted cone structure.

Further, first heater block includes feeding heater block and transition heater block, the feeding heater block includes feeding heat pump and feeding heating pipe, the one end setting of feeding heating pipe is in the bottom of the feeding jar body, the other end passes the feeding jar body and spiral shell screwing up encircle to set up on the inner wall of the feeding jar body, the feeding heat pump sets up the one end of feeding heating pipe, the transition heater block is including transition heat pump and transition heating pipe, the one end setting of transition heating pipe is in the bottom of the transition jar body, the other end passes the transition jar body and spiral shell screwing up encircle to set up on the inner wall of the transition jar body, the transition heat pump sets up the one end of transition heating pipe.

Further, the second heating part includes row's sediment heat pump and row's sediment heating pipe, the one end setting of arranging the sediment heating pipe is in arrange the bottom of sediment jar body, and the other end passes arrange the sediment jar body and be "U" font setting and be in arrange on arranging the inner wall of sediment jar body, arrange the sediment heat pump setting and be in arrange the one end of sediment heating pipe.

Further, arrange the sediment heating pipe and include that first advance oil pipe, first oil drain pipe and a plurality of connecting pipe, first advance oil pipe's one end connect in arrange the sediment heat pump, the other end stretches into arrange the bottom of the sediment jar body, the one end of arranging the oil pipe is connected in oil return equipment, and the other end stretches into arrange the top of the sediment jar body, it is a plurality of the one end of connecting pipe connect in first advance oil pipe, the other end connect in first oil drain pipe.

Further, the connecting part is arranged between the transition tank body and the slag discharge tank body.

Furthermore, the connecting part comprises a first connecting disc and a second connecting disc, one side of the first connecting disc is connected with the transition tank body, the other side of the first connecting disc is detachably connected with one side of the second connecting disc, and the other side of the second connecting disc is detachably connected with the slag discharging tank body.

Furthermore, the connecting part also comprises a blocking disc, and the blocking disc is detachably connected to the other side of the second connecting disc.

Compared with the prior art, the utility model discloses following technological effect has:

in the technical scheme provided by the embodiment of the utility model, the storage component is used for placing solid asphalt and comprises a feeding tank body, a transition tank body and a slag discharging tank body, wherein one end of the feeding tank body is provided with a feeding pipe, the other end of the feeding tank body is connected with one end of the transition tank body, a discharging pipe is arranged at the connecting position of the feeding tank body and the transition tank body, one end of the slag discharging tank body is connected with the other end of the transition tank body, the other end of the slag discharging tank body is provided with a slag discharging port, and the; the heating component is used for heating solid asphalt, the heating component comprises a first heater component and a second heating component, the first heating component is arranged on the inner walls of the feeding tank body and the transition tank body in a surrounding mode, the second heating component is arranged on the inner wall of the slag discharging tank body in a longitudinal mode, compared with the prior art, the asphalt fast melting device is adopted, the asphalt fast melting device is used for continuously adding the solid asphalt into the melting tank, a heat conducting oil coil pipe with the temperature of more than 250 ℃ is arranged in the melting tank, the solid asphalt is melted into liquid in the process of moving from top to bottom, the melting device has the advantages of being high in melting speed and large in capacity, however, impurities, particularly particle impurities, in the molten liquid asphalt are deposited in horizontal pipelines for conveying the liquid asphalt, particularly horizontal pipelines with low positions, are deposited at the bottom of a liquid asphalt storage tank, and are easy to cause the blockage of, among this technical scheme, arrange the material pipe through the hookup location setting at the transition jar body with arrange the sediment jar body for the liquid pitch that melts completely is discharged through arranging the material pipe, and granule class impurity enters into to arrange the sediment jar internal, and the rethread sets up row's cinder notch in the bottom of arranging the sediment jar body, arranges the cinder notch and can dismantle and connect in the shutoff component, arranges the sediment jar body with granule class impurity discharge through opening the shutoff component, thereby separates granule class impurity and liquid pitch and with granule class impurity exhaust technological effect.

Drawings

Fig. 1 is a schematic structural diagram of a fast asphalt melting and deslagging device provided by an embodiment of the present invention;

fig. 2 is a schematic view of an expanded structure of a slag discharging tank provided in an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1 and fig. 2, the embodiment of the present invention provides a slag discharging device for fast melting asphalt, which comprises:

the storage component comprises a feeding tank body 11, a transition tank body 12 and a slag discharging tank body 13, wherein one end of the feeding tank body 11 is provided with a feeding pipe 14, the other end of the feeding tank body is connected with one end of the transition tank body 12, the connecting position of the feeding tank body 11 and the transition tank body 12 is provided with a discharging pipe 15, one end of the slag discharging tank body 13 is connected with the other end of the transition tank body 12, the other end of the slag discharging tank body is provided with a slag discharging port 16, and the slag discharging port 16 is;

and the heating parts comprise a first heating part and a second heating part, the first heating part is arranged on the inner walls of the feeding tank body 11 and the transition tank body 12 in a surrounding manner, and the second heating part is longitudinally arranged on the inner wall of the slag discharge tank body 13.

In the technical scheme provided by the embodiment of the utility model, the storage component is used for placing solid asphalt and comprises a feeding tank body 11, a transition tank body 12 and a slag discharge tank body 13, wherein one end of the feeding tank body 11 is provided with a feeding pipe 14, the other end of the feeding tank body is connected with one end of the transition tank body 12, a material discharge pipe 15 is arranged at the connecting position of the feeding tank body 11 and the transition tank body 12, one end of the slag discharge tank body 13 is connected with the other end of the transition tank body 12, the other end of the slag discharge tank body is provided with a slag discharge port 16, and the slag; the heating parts are used for heating solid asphalt, the heating parts comprise a first heater part and a second heating part, the first heating part is arranged on the inner walls of the feeding tank body 11 and the transition tank body 12 in a surrounding manner, the second heating part is longitudinally arranged on the inner wall of the slag discharging tank body 13, compared with the prior art, an asphalt fast melting device is adopted, the asphalt fast melting device is used for continuously adding the solid asphalt into a melting tank, a heat conducting oil coil pipe with the temperature of more than 250 ℃ is arranged in the melting tank, the solid asphalt is melted into liquid in the process of moving from top to bottom, the melting device has the characteristics of high melting speed and high capacity, however, impurities, particularly particle impurities, in the molten liquid asphalt are deposited in a horizontal pipeline, particularly a low-position horizontal pipeline, in the horizontal pipeline for conveying the liquid asphalt, or deposited at the bottom of a liquid asphalt storage tank, the horizontal pipeline is easy to be, in this technical scheme, through set up row material pipe 15 at the transition jar of body 12 with arrange the hookup location of sediment jar body 13 for the liquid pitch that melts completely discharges through arranging material pipe 15, and granule class impurity enters into and arranges sediment jar body 13 in, again through arranging row slag notch 16 in the bottom of arranging sediment jar body 13, arrange slag notch 16 and can dismantle and connect in shutoff component 17, arrange sediment jar body 13 through opening shutoff component 17 with granule class impurity discharge, thereby with granule class impurity and liquid pitch separation and with granule class impurity exhaust technological effect.

The storage component is used for placing solid asphalt and comprises a feeding tank body 11, a transition tank body 12 and a slag discharging tank body 13, wherein one end of the feeding tank body 11 is provided with a feeding pipe 14, the other end of the feeding tank body is connected with one end of the transition tank body 12, a discharging pipe 15 is arranged at the connecting position of the feeding tank body 11 and the transition tank body 12, one end of the slag discharging tank body 13 is connected with the other end of the transition tank body 12, the other end of the slag discharging tank body 13 is provided with a slag discharging port 16, the slag discharging port 16 is detachably connected with a blocking component 17, the heating component is used for heating the solid asphalt and comprises a first heater component and a second heating component, the first heating component is arranged on the inner walls of the feeding tank body 11 and the transition tank body 12 in a surrounding mode, the second heating component is arranged on the inner wall of the slag discharging tank body 13, heating is carried out through the first heating part, so that partial solid asphalt is melted into liquid asphalt, the liquid asphalt is discharged through the discharge pipe 15 arranged at the connecting position of the feeding tank body 11 and the transition tank body 12, particle impurities can be generated in the melting process, the particle impurities are more than the liquid asphalt in quality, so that the particle impurities can settle towards the bottom of the transition tank body 12 until entering the slag discharge tank body 13, the transition tank body 12 adopts an inverted circular truncated cone structure or an inverted cone structure, the particle impurities can conveniently enter the slag discharge tank body 13, meanwhile, the particle impurities can be prevented from staying in the transition tank body 12, when the particle impurities need to be discharged, the feeding pipe 14 does not enter the solid asphalt, the discharge pipe 15 does not discharge the liquid asphalt, namely, most of the liquid asphalt is completely discharged, then the plugging part 17 is opened, and the first heating part and the second heating part are both in an opening state, the technical scheme includes that particle impurities in a feeding tank body 11, a transition tank body 12 and a slag discharging tank body 13 are completely discharged, in the technical scheme, a discharging pipe 15 is arranged at the connecting position of the transition tank body 12 and the slag discharging tank body 13, so that completely melted liquid asphalt is discharged through the discharging pipe 15, the particle impurities enter the slag discharging tank body 13, a slag discharging port 16 is arranged at the bottom of the slag discharging tank body 13, the slag discharging port 16 is detachably connected to a blocking component 17, the blocking component 17 is opened to discharge the particle impurities out of the slag discharging tank body 13, and therefore the particle impurities are separated from the liquid asphalt and are discharged.

Further, the first heating component comprises a feeding heating component and a transition heating component, the feeding heating component comprises a feeding heating pump 211 and a feeding heating pipe 212, one end of the feeding heating pipe 212 is arranged at the bottom of the feeding tank 11, the other end of the feeding heating pipe passes through the feeding tank 11 and spirally rises to surround the inner wall of the feeding tank 11, the feeding heating pump 211 is arranged at one end of the feeding heating pipe 212, the transition heating component comprises a transition heating pump 221 and a transition heating pipe 222, one end of the transition heating pipe 222 is arranged at the bottom of the transition tank 12, the other end of the transition heating pipe passes through the transition tank 12 and spirally rises to surround the inner wall of the transition tank 12, and the transition heating pump 221 is arranged at one end of the. In this embodiment, a first heating component is further defined, the feeding heating component is used to heat the feeding tank 11, one end of the feeding heating pipe 212 is disposed at the bottom of the feeding tank 11, the other end of the feeding heating pipe passes through the feeding tank 11 and spirally rises to surround the inner wall of the feeding tank 11, the feeding heating pump 211 is disposed at one end of the feeding heating pipe 212, heat transfer oil is introduced into the feeding heating pipe 212 through the feeding heating pump, the feeding heating pipe 212 heats the solid asphalt in the feeding tank 11, the other end of the feeding heating pipe 212 passes through the feeding tank 11 and spirally rises to surround the inner wall of the feeding tank 11, so as to make the temperature at the bottom of the feeding tank 11 higher than the temperature at the top of the feeding tank 11, thereby increasing the melting speed and the flowing speed of the liquid asphalt, and the feeding heating pipe 212 is disposed in a spirally rising and surrounding manner, the melting speed that can ensure to be located the solid pitch of transverse direction is close to reach the effect of even molten pitch, the effect of transition heating element is the pitch of heating transition jar body 12 in, prevents that pitch from condensing in transition jar body 12, thereby makes granule impurity can enter into in the row sediment jar body 13 through transition jar body 12.

Further, the second heating member includes a slag discharge heating pump 231 and a slag discharge heating pipe 232, one end of the slag discharge heating pipe 232 is disposed at the bottom of the slag discharge tank 13, the other end of the slag discharge heating pipe 232 passes through the slag discharge tank 13 and is disposed on the inner wall of the slag discharge tank 13 in a U shape, and the slag discharge heating pump 231 is disposed at one end of the slag discharge heating pipe 232. In this embodiment, further limited the second heating element, the one end of row sediment heating pipe 232 sets up in the bottom of arranging sediment jar body 13, and the other end passes row sediment jar body 13 and is "U" font setting on arranging sediment jar inner wall of body 13, arranges sediment heat pump 231 and sets up in the one end of arranging sediment heating pipe 232 for the granule impurity or the pitch that are located same longitudinal direction can flow towards the bottom always, prevents that granule impurity or pitch from taking place the condition of condensing, thereby reaches the technological effect that makes things convenient for granule impurity to discharge.

Further, arrange sediment heating pipe 232 and include that the first oil pipe, first oil pipe and a plurality of connecting pipe of advancing, the first one end of advancing oil pipe is connected in row sediment heat pump 231, and the other end stretches into the bottom of arranging sediment jar body 13, and the one end of arranging the oil pipe is connected in oil return equipment, and the other end stretches into the top of arranging sediment jar body 13, and the one end of a plurality of connecting pipes is connected in the first oil pipe of advancing, and the other end is connected in first oil pipe of arranging. In this embodiment, sediment heating pipe 232 has further been injectd, the first one end that advances oil pipe is connected in sediment heat pump 231, the other end stretches into the bottom of sediment jar body 13, the one end of arranging the oil pipe is connected in oil return equipment, the other end stretches into the top of sediment jar body 13, the one end of a plurality of connecting pipes is connected in first oil pipe, the other end is connected in first oil pipe, first oil pipe and the diameter of first oil pipe of advancing is greater than the diameter of connecting pipe usually, make the conduction oil can be simultaneously even enter into a plurality of connecting pipes, make the granule impurity of arranging the sediment jar body 13 in be heated evenly, thereby further reach the technological effect that prevents that granule impurity from condensing.

Further, the connecting part 3 is disposed between the transition tank 12 and the slag discharge tank 13. In the embodiment, the connecting part 3 is added, the connecting part 3 is used for facilitating the disassembly of the slag discharging tank body 13, the connecting part 3 is arranged between the transition tank body 12 and the slag discharging tank body 13, alternatively, the connection member 3 includes a first connection plate 31 and a second connection plate 32, one side of the first connection plate 31 is connected to the transition tank 12, the other side is detachably connected to one side of the second connection plate 32, the other side of the second connection plate 32 is detachably connected to the slag discharge tank 13, so that the second connecting disc 32 can be detached from the first connecting disc 31, the slag discharging tank body 13 can be conveniently mounted or detached, optionally, the connecting part 3 further comprises a blocking disc, which is detachably connected to the other side of the second connecting disc 32, after the slag discharging tank body 13 is detached, the first connecting disc 31 can be blocked by the blocking disc, so that the effect of blocking the transition tank body 12 is achieved.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. The utility model provides a sediment device is arranged in quick melting of pitch which characterized in that includes:

the storage component comprises a feeding tank body, a transition tank body and a slag discharging tank body, wherein one end of the feeding tank body is provided with a feeding pipe, the other end of the feeding tank body is connected with one end of the transition tank body, a discharging pipe is arranged at the connecting position of the feeding tank body and the transition tank body, one end of the slag discharging tank body is connected with the other end of the transition tank body, the other end of the slag discharging tank body is provided with a slag discharging port, and the slag discharging port is detachably connected with the blocking component;

the heating part, the heating part includes first heater part and second heating part, first heating part encircles the setting and is in the feeding jar body with the internal wall of transition jar, the second heating part is vertically set up arrange the internal wall of row sediment jar body.

2. The asphalt fast melting slag discharging device according to claim 1,

the feeding tank body, the transition tank body and the slag discharge tank body are communicated in sequence.

3. The asphalt fast melting slag discharging device according to claim 2,

the transition tank body is of an inverted frustum structure or an inverted cone structure.

4. The asphalt fast melting slag discharging device according to claim 3,

first heater block includes feeding heater block and transition heater block, the feeding heater block includes feeding heat pump and feeding heating pipe, the one end setting of feeding heating pipe is in the bottom of the feeding tank body, the other end passes the feeding tank body and spiral shell screwing up encircle to set up on the inner wall of the feeding tank body, the feeding heat pump sets up the one end of feeding heating pipe, the transition heater block includes transition heat pump and transition heating pipe, the one end setting of transition heating pipe is in the bottom of the transition tank body, the other end passes the transition tank body and spiral shell screwing up encircle to set up on the inner wall of the transition tank body, the transition heat pump sets up the one end of transition heating pipe.

5. The asphalt fast melting slag discharging device according to claim 3,

the second heater block is including arranging sediment heat pump and arranging sediment heating pipe, arrange the one end setting of sediment heating pipe and be in arrange the bottom of sediment jar body, the other end passes arrange the sediment jar body and be "U" font setting and be in arrange on arranging the inner wall of sediment jar body, it sets up to arrange the sediment heat pump arrange the one end of sediment heating pipe.

6. The asphalt fast melting slag discharging device according to claim 5,

arrange the sediment heating pipe and include that first advance oil pipe, first row of oil pipe and a plurality of connecting pipe, first advance oil pipe's one end connect in arrange the sediment heat pump, the other end stretches into arrange the bottom of the sediment jar body, the one end of arranging the oil pipe is connected in oil return equipment, and the other end stretches into arrange the top of the sediment jar body, it is a plurality of the one end of connecting pipe connect in first advance oil pipe, the other end connect in first row of oil pipe.

7. The asphalt fast melting slag discharging device according to any one of claims 1 to 6, further comprising:

and the connecting part is arranged between the transition tank body and the slag discharge tank body.

8. The asphalt fast melting slag discharging device according to claim 7,

the connecting part comprises a first connecting disc and a second connecting disc, one side of the first connecting disc is connected with the transition tank body, the other side of the first connecting disc is detachably connected with one side of the second connecting disc, and the other side of the second connecting disc is detachably connected with the slag discharging tank body.

9. The asphalt fast melting slag discharging device according to claim 8,

the connecting part further comprises a blocking disc, and the blocking disc is detachably connected to the other side of the second connecting disc.

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