A kind of emulsified asphalt stirs cooling device
Technical field
The utility model belongs to cooling device technical field, is related to a kind of cooling device for being used to cool down pitch.
Background technology
Temperature can all reach more than 100 DEG C when usual emulsified asphalt is just produced, and the storage temperature model of emulsified asphalt
It is trapped among between 10 DEG C~85 DEG C, this just needs to be cooled down after producing.Storage temperature more than 85 DEG C after will
Cause moisture evaporation, so as to change its performance, or even demulsification, influence the quality of emulsified asphalt.
Chinese patent CN202728989U provides a kind of emulsified asphalt storage tank cooling system, and it passes through in emulsified asphalt
Storage tank wall coiling cooling tube cools down to realize to the emulsified asphalt produced, when emulsified asphalt storage tank size is larger
When, the technical scheme needs to waste substantial amounts of tubing to coil storage tank, and cooling effect is bad.Emulsified asphalt produces
In technique, the emulsified asphalt that typically mulser is produced is stored in storage tank after cooling device, designs a kind of dissipate
Hot device is very necessary.
The utility model patent of Application No. 201520836429.4 discloses emulsified asphalt stirring cooling device, including
Pitch entrance, fin, asphalt outlet, pitch pipe, water inlet, delivery port and pond, pitch pipe design in flat, pitch
Pipe upper surface is welded with fin, and whole pitch pipe slant setting fills cooling water in pond in pond, water inlet is arranged on
At sink edge, delivery port is positioned close to pond lower edge, and pitch entrance is arranged on sink edge, and pitch goes out
Mouth is arranged on pond lower edge.Pitch pipe designs in flat, increases the contact area with tube wall, radiating is set on pitch pipe
Piece, the contact area of pitch pipe and cooling water is increased, it is designed with the radiating beneficial to pitch by heat transfer.The pond of setting
There is storage effect to cooling water, the hot water after use can store in case the solvent of production upstream link, both make use of waste heat to have
Reduce the time of course of dissolution heating.
The cooling device is to carry out cooling by fin, still, when pitch is conveyed in pipeline, is led to
When crossing fin to be radiated, radiating efficiency is relatively low.
Utility model content
The purpose of this utility model is:There is provided a kind of radiating efficiency higher emulsified asphalt stirring cooling device.
The technical solution adopted in the utility model is as follows:
A kind of emulsified asphalt stirs cooling device, including agitating device, the cooling device that is connected with agitating device, described cold
But device includes delivery pipe, and some dividing plates are provided with the delivery pipe, and the inner chamber of delivery pipe is divided into some by the dividing plate
Asphalt delivery passage, some cooling water transfer passages, the asphalt delivery passage, cooling water transfer passage interleaved are set;
The bitumen feed end of the delivery pipe is connected with lane separation device, and joint is connected with the lane separation device, and the joint is provided with and drip
The pitch import of blue or green transfer passage connection, the cooling water inlet connected with cooling water transfer passage.
Wherein, the lane separation device includes housing, and shunting valve is provided with the housing, and the shunting valve includes valve body, opened
The interface being located on body wall, the axial direction on edge offers pitch sprue, cooling water sprue, cooling water drainage on the valve body
The mouth of a river, the cooling water inlet are connected by the cooling water drainage mouth of a river with cooling water sprue, the cooling water sprue and cooling
Water transfer passage connects, and the pitch import connects with pitch sprue, and the pitch sprue connects with asphalt delivery passage.
Wherein, the cooling water sprue is provided with multigroup, and circumference of multigroup cooling water sprue along pitch sprue is
Even setting.
Wherein, the joint includes supervisor, the side pipe being connected on supervisor, the inner sleeve being set in side pipe, in side pipe
Annular channel is formed between inner sleeve, the cooling water inlet is connected by annular channel with cooling water transfer passage, described
Pitch import is connected by inner sleeve with asphalt delivery passage.
Wherein, in the asphalt delivery passage in the conveying direction of pitch and cooling water transfer passage cooling water conveying side
To opposite.
Wherein, the agitating device includes tank body, and the rabbling mechanism for stirring pitch is provided with the tank body, described
The inner bottom part of tank body is provided with the extrusion dish for pitch to be squeezed into cooling device.
Wherein, the rabbling mechanism includes at least two groups outwardly prismatic stirring vanes, every group of prismatic stirring vane
Including upper level blade, the lower horizontal blade that is arranged on bottom for being arranged on top, the upper level blade other end
End, the lower horizontal blade other end end between be connected with triangular vane.
Wherein, the extrusion dish includes taper platform, and extruding groove, the extruding groove are offered on the circular conical surface of the taper platform
Width gradually increase from inside to outside.
Wherein, the floor projection of the extruding groove is sector structure, and the side of sector structure arranged on left and right sides is arc
Side, the protrusion direction of the side are opposite with the direction of rotation of extrusion dish.
In summary, by adopting the above-described technical solution, the beneficial effects of the utility model are:
1st, in the utility model, pitch and cooling water are respectively enterd in cooling device by the import at same interface both ends,
The position of two imports is relatively near apart, consequently facilitating tar transportation pipeline, the stringing of cooling water transfer pipeline, stringing are more square
Just, fast;Joint is connected by lane separation device with delivery pipe, can be individually directed pitch, cooling water by lane separation device different defeated
Passage is sent, so as to realize the independent circulation of pitch, cooling water;The asphalt delivery passage is used to convey pitch, cooling water conveying
Passage is used to convey cooling water, and asphalt delivery passage, cooling water transfer passage interleaved are set, so as to pass through cooling water energy
The enough pitch in asphalt delivery passage carries out effectively cooling treatment, improves the radiating efficiency of cooling device, is easy to pitch
Efficiently cooled down.
2nd, offered in the utility model, in the housing of the lane separation device on the valve of shunting pitch sprue, cooling water sprue,
The cooling water drainage mouth of a river, pitch import are connected by pitch sprue with asphalt delivery passage, and cooling water inlet passes through cooling water drainage
The mouth of a river, cooling water sprue connect with cooling water transfer passage, while are realized by lane separation device and be transported to pitch, cooling water pair
In the transfer passage answered, the conveying of pitch, cooling water is not interfere with each other, and is improved the transfer efficiency to pitch, is improved to the cold of pitch
But efficiency.
3rd, in the utility model, the joint includes supervisor, side pipe and inner sleeve, inner sleeve and is set in side pipe, in side pipe
Annular channel is formed between inner sleeve, so as on joint formed two independent imports, realize pitch, cooling water it is independent
Charging.
4th, in the utility model, the conveying direction of pitch and cooling water in cooling water transfer passage in the asphalt delivery passage
Conveying direction on the contrary, by the way that the conveying direction of pitch is arranged into opposite with the conveying direction of cooling water, it is thus possible to improve
Heat exchanger effectiveness between cooling water and pitch, improve the cooling effectiveness to pitch.
5th, in the utility model, rabbling mechanism and extrusion dish is set in the tank body of agitating device, pass through rabbling mechanism energy
Enough that pitch is effectively stirred, the pitch after stirring will be squeezed into cooling device by extrusion dish;The rib of the rabbling mechanism
Shape stirring vane includes upper level blade, lower horizontal blade and triangular vane, and such prismatic stirring vane is stirring
During mixing, it is easier to emulsified asphalt is produced vortex, so as to be advantageous to the extrusion of pitch.
6th, in the utility model, the top of the extrusion dish is taper platform, and the circular conical surface of taper platform is provided with extruding groove, pitch
Preferentially enter in extruding groove, then pitch is extruded in the presence of centrifugal force or extrusion dish thrust, improves and pitch is squeezed
Go out efficiency.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the structural representation of cooling device in the utility model;
Fig. 3 is the connection diagram of the utility model center tap and lane separation device;
Fig. 4 is the connection diagram of shunting valve in the utility model;
Fig. 5 is the front view of the utility model center tap;
Fig. 6 is Fig. 5 A-A sectional views;
Fig. 7 is Fig. 5 B-B sectional views;
Fig. 8 is the structural representation of rabbling mechanism in the utility model;
Fig. 9 is the structural representation of extrusion dish in the utility model;
Marked in figure:1- joints, 2- lane separation devices, 3- delivery pipes, 4- dividing plates, 5- tank bodies, 6- rabbling mechanisms, 7- extrusion dishes,
31- cooling waters transfer passage, 32- asphalt deliveries passage, 21- valve bodies, 22- interfaces, 23- cooling waters sprue, 24- connection streams
Road, 25- pitches sprue, the 26- cooling water drainages mouth of a river, the import of 11- pitches, 12- cooling water inlets, 13- side pipes, 14- inner sleeves,
15- supervisors, 16- annular channels, 61- upper levels blade, 62- lower horizontals blade, 63- triangular vanes, 71- circular conical surfaces,
72- extruding grooves.
Embodiment
In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation
Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only explaining this
Utility model, it is not used to limit the utility model.
A kind of emulsified asphalt stirs cooling device, including agitating device, cooling device, and the agitating device connects with cooling device
Logical, agitating device is first stirred to pitch, and the pitch after stirring, which will enter, carries out radiating treatment in cooling device.The cooling
Device includes delivery pipe 3, and the delivery pipe 3 includes shell, and some dividing plates 4 are provided with the shell of delivery pipe 3, from
And the inside of delivery pipe 3 is divided into by some asphalt delivery passages 32, some cooling water transfer passages 31 by dividing plate 4, and drip
Blue or green transfer passage 32 and the 31 spaced staggered setting of cooling water transfer passage.The bitumen feed end of the delivery pipe 3 is connected with point
Logos and utensils 2, individually set in lane separation device 2 with the passage due to conveying pitch, cooling water.Joint is connected with lane separation device 2
1, the joint 1 is provided with pitch import 11, cooling water inlet 12, and the pitch for being individually used for conveying pitch is additionally provided with joint 1 and is led to
Road, the cooling-water duct for being individually used for conveying cooling water.
Pitch is entered in joint 1 by the pitch import 11 on joint 1, and cooling water passes through the cooling water inlet on joint 1
12 enter in joint 1, and pitch, cooling water are independently conveyed in joint 1 respectively, and are conveyed into lane separation device 2.It is pitch, cold
But after water enters lane separation device 2 by same interface 22, due to having single pitch passage, cooling-water duct in lane separation device 2, because
And pitch, cooling water carry out independent conveying in lane separation device 2, both conveyings are not interfere with each other.Lane separation device 2 is by individually leading to
Road and the asphalt delivery passage 32 in delivery pipe 3, cooling water transfer passage 31, pitch carry out defeated in asphalt delivery passage 32
Send, cooling water is conveyed in cooling water transfer passage 31, and the conveying of pitch, the conveying of cooling water are not interfere with each other, and is conveyed
Cooling water can absorb the heat of pitch, pitch is effectively cooled down.
The lane separation device 2 includes housing, and shunting valve is provided with housing, and pitch, cooling can be realized by shunting valve
The independent conveying of water.The shunting valve includes valve body 21, and the valve body 21 is arranged in housing, and in the top of valve body 21 with housing
The cavity with certain space is formed between portion.Interface 22 is offered in the side wall of valve body 21, valve body 21 can pass through interface 22
It is connected with joint 1.Also be embedded with pipe in the interface 22 of valve body 21, by pipe by the inner chamber of 21 interface of valve body 22 be divided into every
The annular chamber between center cavity and pipe and the inwall of interface 22 in pipe.Offered on valve body 21 along the axial direction of valve body 21
Pitch sprue 25, cooling water sprue 23 and the cooling water drainage mouth of a river 26, the lower end of the pitch sprue 25 are through to valve body 21
Bottom surface, the upper and lower ends of the cooling water sprue 23 are through to the top surface of valve body 21, bottom surface, the cooling water drainage mouth of a river 26 from
The top surface of valve body 21 is penetrated to the annular chamber of interface 22, the pitch sprue 25.Cooling water is after joint 1 enters lane separation device 2, first
Into annular chamber, then entered again by the cooling water drainage mouth of a river 26 in cooling water sprue 23, and eventually enter into cooling water conveying
In passage 31.Pitch is introduced into center cavity, then enters pitch by pitch sprue 25 again after joint 1 enters lane separation device 2
In transfer passage 32.Further, it is also possible to connection runner 24, the cooling water drainage mouth of a river 26 and cooling water main flow are offered on valve body 21
Between road 23, runner 24 is connected by this between cooling water sprue 23 and cooling water sprue 23 connected.
The pitch sprue 25 is arranged on the axis opening position of valve body 21, the cooling water sprue 23 be provided with it is multigroup,
Circumference of multigroup cooling water sprue 23 along pitch sprue 25 is uniformly arranged.
The joint 1 includes supervisor 15, side pipe 13 and inner sleeve 14, and side pipe 13 is connected to the medium position of supervisor 15, makes master
Pipe 15 and side pipe 13 are in T shape.Inner sleeve 14 is also arranged with side pipe 13, annular is formed between side pipe 13 and inner sleeve 14
Runner 16, so as to form two groups of passages in inner sleeve 14, between inner sleeve 14 and side pipe 13, this two groups of passages are respectively used to defeated
Send cooling water or pitch.The cooling water inlet 12 is connected by annular channel 16 with cooling water transfer passage 31, the pitch import
11 are connected by inner sleeve 14 with asphalt delivery passage 32.
The conveying direction of the conveying direction of pitch and cooling water in cooling water transfer passage 31 in the asphalt delivery passage 32
Conversely.
The agitating device includes tank body 5, and rabbling mechanism 6 is additionally provided with tank body 5, and the rabbling mechanism 6 is mainly used in
Pitch is stirred.Extrusion dish 7 is additionally provided with the inner bottom surface of tank body 5, the extrusion dish 7 can fill pitch from stirring
Squeezed into putting in cooling device.
The rabbling mechanism 6 includes at least two groups outwardly prismatic stirring vanes, and every group of prismatic stirring vane includes setting
Put top upper level blade 61, be arranged on the lower horizontal blade 62 of bottom, the other end of upper level blade 61
End, the other end of lower horizontal blade 62 end between be connected with triangular vane 63.
The extrusion dish 7 includes taper platform, offers extruding groove 72 on the circular conical surface 71 of taper platform, the width of the extruding groove 72
Degree gradually increase from inside to outside.
The floor projection of the extruding groove 72 is sector structure, and the side of sector structure arranged on left and right sides is arc-shaped side, the side
The protrusion direction on side is opposite with the direction of rotation of extrusion dish 7.
Embodiment 1
A kind of emulsified asphalt stirs cooling device, including agitating device, cooling device, and the agitating device connects with cooling device
Logical, agitating device is first stirred to pitch, and the pitch after stirring, which will enter, carries out radiating treatment in cooling device.The cooling
Device includes delivery pipe 3, and the delivery pipe 3 includes shell, and some dividing plates 4 are provided with the shell of delivery pipe 3, from
And the inside of delivery pipe 3 is divided into by some asphalt delivery passages 32, some cooling water transfer passages 31 by dividing plate 4, and drip
Blue or green transfer passage 32 and the 31 spaced staggered setting of cooling water transfer passage.The bitumen feed end of the delivery pipe 3 is connected with point
Logos and utensils 2, individually set in lane separation device 2 with the passage due to conveying pitch, cooling water.Joint is connected with lane separation device 2
1, the joint 1 is provided with pitch import 11, cooling water inlet 12, and the pitch for being individually used for conveying pitch is additionally provided with joint 1 and is led to
Road, the cooling-water duct for being individually used for conveying cooling water.
Embodiment 2
On the basis of embodiment one, the lane separation device 2 includes housing, and shunting valve is provided with housing, passes through shunting
Valve can realize the independent conveying of pitch, cooling water.The shunting valve includes valve body 21, and the valve body 21 is arranged in housing, and
The cavity with certain space is formed between the top of valve body 21 and enclosure interior.Interface is offered in the side wall of valve body 21
22, valve body 21 can be connected by interface 22 with joint 1.Pipe is also embedded with the interface 22 of valve body 21, by pipe by valve
The inner chamber of 21 interface of body 22 is divided into the annular chamber between the center cavity in pipe and pipe and the inwall of interface 22.In valve body 21
On along the axial direction of valve body 21 offer pitch sprue 25, cooling water sprue 23 and the cooling water drainage mouth of a river 26, the pitch main flow
The lower end in road 25 is through to the bottom surface of valve body 21, the upper and lower ends of the cooling water sprue 23 be through to the top surface of valve body 21,
Bottom surface, the cooling water drainage mouth of a river 26 are penetrated to the annular chamber of interface 22 from the top surface of valve body 21, the pitch sprue 25.Cooling water
After joint 1 enters lane separation device 2, annular chamber is introduced into, cooling water sprue 23 is then entered by the cooling water drainage mouth of a river 26 again
It is interior, and eventually enter into cooling water transfer passage 31.Pitch is introduced into center cavity, Ran Houzai after joint 1 enters lane separation device 2
Entered by pitch sprue 25 in asphalt delivery passage 32.Further, it is also possible to connection runner 24 is offered on valve body 21, it is cold
But connected between water discharge outlet 26 and cooling water sprue 23, between cooling water sprue 23 and cooling water sprue 23 by this
Runner 24 connects.
Embodiment 3
On the basis of embodiment two, the pitch sprue 25 is arranged on the axis opening position of valve body 21, the cooling water
Sprue 23 is provided with multigroup, and circumference of multigroup cooling water sprue 23 along pitch sprue 25 is uniformly arranged.
Embodiment 4
On the basis of above-described embodiment, the joint 1 includes supervisor 15, side pipe 13 and inner sleeve 14, side pipe 13 and is connected to
The medium position of supervisor 15, makes supervisor 15 and side pipe 13 in T shape.Inner sleeve 14 is also arranged with side pipe 13, in side pipe 13
Annular channel 16 is formed between inner sleeve 14, so as in the inner sleeve 14, form two groups between inner sleeve 14 and side pipe 13 and lead to
Road, this two groups of passages are respectively used to convey cooling water or pitch.The cooling water inlet 12 is defeated by annular channel 16 and cooling water
Passage 31 is sent to connect, the pitch import 11 is connected by inner sleeve 14 with asphalt delivery passage 32.
Embodiment 5
On the basis of example IV, the conveying direction of pitch and cooling water transfer passage 31 in the asphalt delivery passage 32
The conveying direction of interior cooling water is opposite.
Embodiment 6
On the basis of above-described embodiment, the agitating device includes tank body 5, and rabbling mechanism is additionally provided with tank body 5
6, the rabbling mechanism 6 is mainly used in being stirred pitch.Extrusion dish 7 is additionally provided with the inner bottom surface of tank body 5, this is squeezed
Placing 7 can squeeze into pitch in cooling device out of agitating device.
Embodiment 7
On the basis of embodiment six, the rabbling mechanism 6 includes at least two groups outwardly prismatic stirring vanes, every group
Prismatic stirring vane includes the upper level blade 61 for being arranged on top, the lower horizontal blade 62 for being arranged on bottom, the top
Triangular vane 63 is connected between the end of the other end of horizontal blade 61, the end of the other end of lower horizontal blade 62.
Embodiment 8
On the basis of embodiment six or embodiment seven, the extrusion dish 7 includes taper platform, on the circular conical surface 71 of taper platform
Extruding groove 72 is offered, the width of the extruding groove 72 gradually increases from inside to outside.
Embodiment 9
On the basis of embodiment eight, the floor projection of the extruding groove 72 is sector structure, and sector structure arranged on left and right sides
Side be arc-shaped side, the protrusion direction of the side is opposite with the direction of rotation of extrusion dish 7.
Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model
All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model
Protection domain within.