CN206787343U - A kind of tar asphalt heat exchange structure - Google Patents

Abstract

The utility model discloses a kind of tar asphalt heat exchange structure,Including Heat Room,More than two heat dissipation chamber are provided with the Heat Room,Conduit is combined between two adjacent heat dissipation chamber,It is connected with the left of the heat dissipation chamber of the leftmost side into conduit,Discharge conduit is connected with the right side of the heat dissipation chamber of the rightmost side,End cap is connected with the both ends of the Heat Room,It is described to be extended into conduit in the end cap of left side,In left side, the input pipe of input pitch is vertically assigned at the top of the end cap,The discharge conduit is extended in the end cap of right side,The bottom position of the right side end cap is provided with discharge pitch efferent duct,The first input pipe of input tar is provided with the close left position at the top of the Heat Room,The first efferent duct of output tar is provided with the close right positions of the Heat Room bottom；The present apparatus can utilize tar to absorb heat, and improve pitch cooling efficiency, increase tar heat absorption efficiency.

Description

A kind of tar asphalt heat exchange structure

Technical field

It the utility model is related to a kind of tar asphalt heat exchange structure.

Background technology

In the production process of coal tar, what it is from the outflow of coal tar revaporizer bottom is asphaltic products, just from coal tar The asphalt temperature of oily revaporizer outflow is higher, generally at 360 DEG C -380 DEG C, it is necessary to be cooled down, could turn into shaping drip It is blue or green.Obviously, this technique does not utilize to the pitch heat of revaporizer outflow, result in the waste of heat, also, Water resource can be wasted using water cooling, and the raw material for entering coal tar revaporizer also needs to heat, it is also to consume energy more Source.

Based on above mentioned problem, it is desirable to provide one kind can utilize tar to absorb heat, and improve pitch cooling efficiency, and increase is burnt The tar asphalt heat exchange structure of oily heat absorption efficiency.

Utility model content

Technical problem to be solved in the utility model, which is to provide one kind, to utilize tar to absorb heat, and improves pitch drop Warm efficiency, increase the tar asphalt heat exchange structure of tar heat absorption efficiency.

The utility model is achieved through the following technical solutions：

A kind of tar asphalt heat exchange structure, including Heat Room, are provided with more than two heat dissipation chamber in the Heat Room, The right-hand member of the heat dissipation chamber is a conical section, and the right flank opening position of the conical section has a plane, set on this plane The first connecting hole is equipped with, the left end of the heat dissipation chamber is provided with the second connecting hole, second connecting hole is disposed in proximity to institute State at heat dissipation chamber's marginal position, conduit is combined between two adjacent heat dissipation chamber, the conduit is connected to described first Between connecting hole and second connecting hole, be connected with the left of the heat dissipation chamber of the leftmost side into conduit, it is described enter Enter tubes fit in second connecting hole, discharge conduit is connected with the right side of the heat dissipation chamber of the rightmost side, it is described Discharge conduit coordinates in first connecting hole, end cap is connected with the both ends of the Heat Room, the end cap changes with described The chamber of sealing is formed between hot cell, screw is combined between the end cap and the Heat Room, it is described to be extended into conduit In the end cap of left side, in left side, the input pipe of input pitch, the discharge conduit are vertically assigned in the top of the end cap Extend in the end cap of right side, the bottom position of the right side end cap is provided with discharge pitch efferent duct, is changed described The first input pipe of input tar is provided with close left position at the top of hot cell, in the Heat Room bottom close to right The first efferent duct of output tar is provided with side position.

Preferably, that end welding that the cover internal is extended into conduit is provided with one and enters cup, institute State and output end is provided with the tube wall of input pipe, the output end is relative with the cup that enters, at the tube wall of the efferent duct Pitch is provided with to portal.

Preferably, the inwall of the Heat Room, institute are bonded in the dividing plate that is internally provided with of the Heat Room, the dividing plate State to be formed through the gap of tar, first efferent duct between the top of dividing plate and the inner top of the Heat Room and be located at institute State at the right positions of dividing plate.

Preferably, more heat conducting pipes are provided through at the lateral location of the heat dissipation chamber, the heat conducting pipe dissipates with described Sealing is formed between hot cell, the heat conducting pipe is copper pipe, and by setting heat conducting pipe is convenient directly to be contacted with heated bitumen, increase is led The thermal efficiency, and tar can be passed through in heat conducting pipe.

Preferably, welding is combined with connection steel pole between the Heat Room and the heat dissipation chamber.

The beneficial effects of the utility model are：The present apparatus when in use, enters hard pitch, pitch out of left side end cap It is discharged after in end cap by entering right side after multiple heat dissipation chamber, by using heat dissipation chamber, can increases and tar again Contact area, increase the radiating efficiency of pitch, increase the heat absorption efficiency of tar, increase the speed of heat exchange, the structure of the present apparatus It is relatively simple, tar cooling pitch can be utilized, reduces the waste of water resource, the cost of the present apparatus is more cheap, is adapted to promote Use.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the required accompanying drawing used is briefly described in description of the prior art, it should be apparent that, drawings in the following description are only It is some embodiments of the utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is internal structure schematic diagram of the present utility model；

Fig. 2 is the left view of heat dissipation chamber；

Fig. 3 is the right view of heat dissipation chamber.

Embodiment

All features disclosed in this specification, or disclosed all methods or during the step of, except mutually exclusive Feature and/or step beyond, can combine in any way.

Any feature disclosed in this specification (including any accessory claim, summary and accompanying drawing), except non-specifically chatting State, can alternative features equivalent by other or with similar purpose replaced.I.e., unless specifically stated otherwise, each feature It is an example in a series of equivalent or similar characteristics.

A kind of tar asphalt heat exchange structure as shown in Figure 1, Figure 2 and Figure 3, including Heat Room 1, in the Heat Room 1 It is provided with more than two heat dissipation chamber 2, the right-hand member of the heat dissipation chamber 2 is a conical section 201, the right side of the conical section 201 Face opening position has a plane 211, and the first connecting hole 212 is provided with the plane 211, is set in the left end of the heat dissipation chamber 2 The second connecting hole 213 is equipped with, second connecting hole 213 is disposed in proximity at the marginal position of heat dissipation chamber 2, adjacent at two Conduit 3 is combined between the heat dissipation chamber 2, the conduit 3 is connected to first connecting hole 212 and second connecting hole Between 213, it is connected with positioned at the left side of the heat dissipation chamber 2 of the leftmost side into conduit 4, it is described to coordinate into conduit 4 described In second connecting hole 213, discharge conduit 5 is connected with positioned at the right side of the heat dissipation chamber 2 of the rightmost side, the discharge conduit 5 is matched somebody with somebody Close in first connecting hole 212, end cap 6, the end cap 6 and the Heat Room 1 are connected with the both ends of the Heat Room 1 Between form the chamber of sealing, screw 601 is combined between the end cap 6 and the Heat Room 1, it is described to extend into conduit 4 To the end cap 6 of left side, in left side, the input pipe 611 of input pitch, the row are vertically assigned in the top of the end cap 6 Go out conduit 5 to extend in the end cap 6 of right side, the bottom position of the right side end cap 6 is provided with discharge pitch efferent duct 612, the first input pipe 121 of input tar is provided with the close left position at the top of Heat Room 1, is changed described The first efferent duct 131 of output tar is provided with the close right positions of the bottom of hot cell 1.

A preferred embodiment in the utility model, described that one end extended into conduit 4 inside the end cap 6 Place's welding is provided with one and enters cup 441, is provided with output end 621 on the tube wall of the input pipe 611, the output end 621 with The cup 411 that enters is relative, and pitch is provided with the tube wall of the efferent duct 611 and portals 622.

A preferred embodiment in the utility model, it is described in the dividing plate 141 that is internally provided with of the Heat Room 1 Dividing plate 141 is bonded the inwall of the Heat Room 1, is formed and worn between the top of the dividing plate 141 and the inner top of the Heat Room 1 The gap of tar is crossed, first efferent duct 131 is located at the right positions of the dividing plate 141.

A preferred embodiment in the utility model, more are provided through at the lateral location of the heat dissipation chamber 2 and is led Heat pipe 232, sealing is formed between the heat conducting pipe 232 and the heat dissipation chamber 2, the heat conducting pipe 232 is copper pipe, passes through setting Heat conducting pipe is convenient directly to be contacted with heated bitumen, increases heat transfer efficiency, and tar can be passed through in heat conducting pipe.

A preferred embodiment in the utility model, the company of being combined with is welded between the Heat Room 1 and the heat dissipation chamber 2 Connect steel pole 242.

The beneficial effects of the utility model are：The present apparatus when in use, enters hard pitch, pitch out of left side end cap It is discharged after in end cap by entering right side after multiple heat dissipation chamber, by using heat dissipation chamber, can increases and tar again Contact area, increase the radiating efficiency of pitch, increase the heat absorption efficiency of tar, increase the speed of heat exchange, the structure of the present apparatus It is relatively simple, tar cooling pitch can be utilized, reduces the waste of water resource, the cost of the present apparatus is more cheap, is adapted to promote Use.

It is described above, only specific embodiment of the present utility model, but the scope of protection of the utility model is not limited to In this, any change or replacement expected without creative work, should all cover within the scope of protection of the utility model. Therefore, the scope of protection of the utility model should be determined by the scope of protection defined in the claims.

Claims (5)

1. A kind of 1. tar asphalt heat exchange structure, it is characterised in that：Including Heat Room, two or more is provided with the Heat Room Heat dissipation chamber, the right-hand member of the heat dissipation chamber is a conical section, and the right flank opening position of the conical section has a plane, at this The first connecting hole is provided with plane, the left end of the heat dissipation chamber is provided with the second connecting hole, second connecting hole is set In at heat dissipation chamber's marginal position, conduit is combined between two adjacent heat dissipation chamber, the conduit is connected to Between first connecting hole and second connecting hole, it is connected with to enter on the left of the heat dissipation chamber of the leftmost side and leads Pipe, the tubes fit that enters are connected with discharge in second connecting hole on the right side of the heat dissipation chamber of the rightmost side Conduit, the discharge conduit coordinate in first connecting hole, and end cap, the end cap are connected with the both ends of the Heat Room The chamber of sealing is formed between the Heat Room, screw is combined between the end cap and the Heat Room, the entrance is led Pipe is extended in the end cap of left side, and in left side, the input pipe of input pitch is vertically assigned at the top of the end cap, described Discharge conduit is extended in the end cap of right side, and the bottom position of the right side end cap is provided with discharge pitch efferent duct, The first input pipe of input tar is provided with the close left position at the top of the Heat Room, in the Heat Room bottom Close right positions at be provided with output tar the first efferent duct.
2. 2. tar asphalt heat exchange structure according to claim 1, it is characterised in that：It is described to extend to the end into conduit That end welding inside lid is provided with one and enters cup, and output end, the output end are provided with the tube wall of the input pipe Relative with the cup that enters, at the tube wall of the efferent duct being provided with pitch portals.
3. 3. tar asphalt heat exchange structure according to claim 1, it is characterised in that：In being internally provided with for the Heat Room One dividing plate, the dividing plate are bonded the inwall of the Heat Room, shape between the top of the dividing plate and the inner top of the Heat Room Into the gap through tar, first efferent duct is located at the right positions of the dividing plate.
4. 4. tar asphalt heat exchange structure according to claim 1, it is characterised in that：Passed through at the lateral location of the heat dissipation chamber Wear and be equipped with more heat conducting pipes, sealing is formed between the heat conducting pipe and the heat dissipation chamber, the heat conducting pipe is copper pipe.
5. 5. tar asphalt heat exchange structure according to claim 1, it is characterised in that：The Heat Room and the heat dissipation chamber it Between welding be combined with connection steel pole.