CN205991724U - A kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position - Google Patents

A kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position Download PDF

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Publication number
CN205991724U
CN205991724U CN201621023904.7U CN201621023904U CN205991724U CN 205991724 U CN205991724 U CN 205991724U CN 201621023904 U CN201621023904 U CN 201621023904U CN 205991724 U CN205991724 U CN 205991724U
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CN
China
Prior art keywords
fuel oil
oil groove
pipe
fixedly connected
dibenzyl toluene
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Expired - Fee Related
Application number
CN201621023904.7U
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Chinese (zh)
Inventor
王国用
王虎
杨鹏
殷梧
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Hefei Rong Da Chemical Technology Co Ltd
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Hefei Rong Da Chemical Technology Co Ltd
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Priority to CN201621023904.7U priority Critical patent/CN205991724U/en
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Publication of CN205991724U publication Critical patent/CN205991724U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model discloses a kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position, including fuel oil groove, heat conduction electric furnace and refining furnace, the internal welding of described fuel oil groove is connected to radiating tube, and the two ends of radiating tube all run through the inwall of fuel oil groove and extend to the outside of fuel oil groove, the recess of described radiating tube is connected with cooling pipe, and the cooling pipe welded top near fuel oil groove inwall has water pipe, it is provided with water circulating pump on described water pipe, the side of described water circulating pump is fixedly connected with water storage box, one end of described radiating tube is fixedly connected with refining furnace, the top of described refining furnace is fixedly connected with motor, the bottom thread of described motor is connected with flabellum, and it is fixedly connected with support bar on the side wall of refining furnace, and be between the support bar in same horizontal line and be fixedly connected with refining chamber.This utility model possesses the advantage of low cost of manufacture, can carry out effective cooling process to inside, thus improve conforming product rate.

Description

A kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position
Technical field
This utility model is related to chemical technology field, specially a kind of dibenzyl toluene heat conduction for the hot equipment in high position Oil system.
Background technology
Conduction oil, is GB/T 4016-1983《Oil product vocabulary of terms》In " heat medium oil " former name, English name Referred to as Heat transfer oil, for the specialized oil product of a class better heat stability of indirect transfer heat.Because it has Homogeneous heating, homoiothermic precise control, high temperature can be produced under low-steam pressure, heat-transfer effect is good, energy-conservation, conveying and easy to operate etc. Feature, is widely used in various occasions in recent years, and its purposes and consumption get more and more.
Current conduction oil is generally used for the dibenzyl toluene heat-conducting oil system of the hot equipment in high position, but present system In cooling in the early stage when carry out cooling process simply by aerator, so internal system can not be carried out comprehensively and Effectively lowered the temperature, so that can not efficient qualification rate during chemical industry manufactures.
Utility model content
The purpose of this utility model is to provide a kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position, tool Prepare and cause background, the advantage of simple production process, solving traditional system can not carry out effective cooling process to inside, So that the relatively low problem of conforming product rate.
For achieving the above object, this utility model provides following technical scheme:A kind of dibenzyl for the hot equipment in high position Base toluene heat-conducting oil system, including fuel oil groove, heat conduction electric furnace and refining furnace, the internal welding of described fuel oil groove is connected to radiating Pipe, and the two ends of radiating tube all run through the inwall of fuel oil groove and extend to the outside of fuel oil groove, described radiating tube recessed Place is connected with cooling pipe, and the cooling pipe welded top near fuel oil groove inwall has water pipe, and described water pipe is provided with circulation Water pump, the side of described water circulating pump is fixedly connected with water storage box, and one end of described radiating tube is fixedly connected with refining furnace, described The top of refining furnace is fixedly connected with motor, and the bottom thread of described motor is connected with fixes on flabellum, and the side wall of refining furnace It is connected with support bar, and be between the support bar in same horizontal line and be fixedly connected with refining chamber, the import of described refining furnace Place is socketed with copper pipe, and described copper pipe is provided with filling pump, and copper pipe runs through the inwall of refining chamber, and extends to the outer of refining furnace Portion.
One end of described copper pipe is connected with heat conduction electric furnace, and the inwall of described heat conduction electric furnace is welded with drainage tube, described draws The threaded one end of flow tube is connected with shunting lid, and the bottom welding of described shunting lid has dibenzyl toluene tank, described dibenzyl toluene The upper surface surrounding of tank offers and is provided through pod apertures at Cooling Holes, and the axle center of dibenzyl toluene tank top, and described two The bottom of benzyl toluene tank side offers discharging opening, and described discharging opening is threaded with discharge nozzle, and described discharge nozzle runs through The side wall of heat conduction electric furnace simultaneously extends to the outside of heat conduction electric furnace.
Preferably, the S-type inside being arranged on fuel oil groove of described radiating tube.
Preferably, the quantity of described cooling pipe is three, and is all threaded with rustless steel between two neighboring cooling pipe Pipe.
Preferably, described copper pipe is provided with air vent on the port of export.
Preferably, described cooling pipe is bimetallic tube, and the surface of interlayer intracavity is provided with silica gel.
Compared with prior art, the beneficial effects of the utility model are as follows:
This utility model passes through to manage in the cooling that is internally provided with of fuel oil groove, and lowers the temperature between pipe by stainless steel tube phase Connect, by being provided with water pipe at the top of cooling pipe, the water circulation in water storage box is driven in cooling pipe by water circulating pump Carry out cooling process, and the top of refining furnace is provided with flabellum, in the inside of refining furnace, three refining chamber are installed, can one Secondary cooling process is carried out to material, be internally provided with dibenzyl toluene tank, by dibenzyl toluene tank in heat conduction electric furnace Top is provided with Cooling Holes and pod apertures can increase cooling object and the contact area of dibenzyl toluene, effectively serves fall The effect of temperature, it is to avoid because internal system effectively can not be lowered the temperature, thus reducing the problem of the qualification rate of product.
Brief description
Fig. 1 is this utility model structural representation;
Fig. 2 is this utility model dibenzyl toluene jar structure schematic diagram.
In figure:1 water pipe, 2 water circulating pumps, 3 water storage boxes, 4 stainless steel tubes, 5 cooling pipes, 6 flabellums, 7 motors, 8 air vents, 9 Drainage tube, 10 heat conduction electric furnaces, 11 dibenzyl toluene tanks, 111 discharging openings, 112 Cooling Holes, 113 pod apertures, 12 support bars, 13 essences Refining room, 14 refining furnaces, 15 filling pumps, 16 radiating tubes, 17 fuel oil grooves, 18 shunting lids, 19 discharge nozzles, 20 copper pipes.
Specific embodiment
Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely description is it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under the premise of making creative work The every other embodiment being obtained, broadly falls into the scope of this utility model protection.
Refer to Fig. 1-2, a kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position, including fuel oil groove 17th, heat conduction electric furnace 10 and refining furnace 14, the internal welding of fuel oil groove 17 is connected to radiating tube 16, and the two ends of radiating tube 16 are all run through The inwall of fuel oil groove 17 simultaneously extends to the outside of fuel oil groove 17, the S-type inside being arranged on fuel oil groove 17 of radiating tube 16, The contact surface that radiating tube 16 so can be increased with cooling pipe 5 connects, thus accelerating cooling-down effect, the recess clamping of radiating tube 16 There is cooling pipe 5, cooling pipe 5 is bimetallic tube, and the surface of interlayer intracavity is provided with silica gel, and the use of bimetallic tube can be with material-saving Cost-effective, and it is easy to heat exchange, by the reduction that can speed up temperature of smearing of silica gel, the quantity of pipe 5 of lowering the temperature is three Individual, and all it is threaded with stainless steel tube 4 between two neighboring cooling pipe 5, so that cooling pipe 5 is connected by stainless steel tube 4, this Sample is easy to pipe 5 internal liquid circulation flowing of lowering the temperature, and cooling pipe 5 welded top near fuel oil groove 17 inwall has water pipe 1, water Water circulating pump 2 is provided with pipe 1, the side of water circulating pump 2 is fixedly connected with water storage box 3, and one end of radiating tube 16 is fixedly connected There is refining furnace 14, the top of refining furnace 14 is fixedly connected with motor 7, and the bottom thread of motor 7 is connected with flabellum 6, and refining furnace It is fixedly connected with 14 side wall and be fixedly connected with refining chamber between support bar 12, and the support bar 12 being in same horizontal line 13, the entrance of refining furnace 14 is socketed with copper pipe 20, copper pipe 20 is provided with filling pump 15, and copper pipe 20 runs through refining chamber 13 Inwall, and extend to the outside of refining furnace 14.
One end of copper pipe 20 is connected with heat conduction electric furnace 10, and copper pipe 20 is provided with air vent 8 on the port of export, so can Avoid should be that internal pressure is excessive to cause the phenomenon of stove that rises, the inwall of heat conduction electric furnace 10 is welded with drainage tube 9, drainage tube 9 Threaded one end is connected with shunting lid 18, and the bottom welding of shunting lid 18 has a dibenzyl toluene tank 11, dibenzyl toluene tank 11 upper Surface surrounding offers and is provided through pod apertures 113, dibenzyl at Cooling Holes 112, and the axle center at dibenzyl toluene tank 11 top The bottom of base toluene tank 11 side offers discharging opening 111, by fuel oil groove 17 be internally provided with cooling pipe 5, and drop It is connected with each other by stainless steel tube 4 between warm pipe 5, by being provided with water pipe 1 at the top of cooling pipe 5, driven by water circulating pump 2 Water circulation in water storage box 3 carries out cooling process in cooling pipe 5, and the top of refining furnace 14 is provided with flabellum 6, in essence The inside of furnace 14 is provided with three refining chamber 13, once can carry out cooling process to material, set in the inside of heat conduction electric furnace 10 It is equipped with dibenzyl toluene tank 11, Cooling Holes 112 are provided with by the top in dibenzyl toluene tank 11 and pod apertures 113 can increase Plus the contact area of cooling object and dibenzyl toluene, effectively serve the effect of cooling, it is to avoid because can not be to system Inside is effectively lowered the temperature, thus reducing the problem of the qualification rate of product, discharging opening 111 is threaded with discharge nozzle 19, Discharge nozzle 19 runs through the side wall of heat conduction electric furnace 10 and extends to the outside of heat conduction electric furnace 10.
Operation principle:By radiating tube 16, material is sent in fuel oil groove 17, now opening water circulating pump 2 makes water-retention Case 3 internal water carries out cooling process by water pipe 1 and stainless steel tube 4 to the material of radiating tube 16, finally will by filling pump 15 Material after reason is transported to by copper pipe 20 and is processed again inside refining chamber 13, and the motor 7 at refining furnace 14 top Drive flabellum 6 to carry out radiating treatment to inside, finally material was entered dibenzyl toluene tank 11 and carry out final cooling process.
In sum:This is used for the dibenzyl toluene heat-conducting oil system of the hot equipment in high position, by fuel oil groove 17 It is internally provided with cooling pipe 5, and is connected with each other by stainless steel tube 4 between cooling pipe 5, by the top setting in cooling pipe 5 There is water pipe 1, driven by water circulating pump 2 water circulation in water storage box 3 to carry out cooling process in cooling pipe 5, and in refining furnace 14 top is provided with flabellum 6, is provided with three refining chamber 13 in the inside of refining furnace 14, can once material be carried out at cooling Reason, is internally provided with dibenzyl toluene tank 11 in heat conduction electric furnace 10, is provided with cold by the top in dibenzyl toluene tank 11 But hole 112 and pod apertures 113 can increase cooling object and the contact area of dibenzyl toluene, effectively serve the work of cooling With, it is to avoid because internal system effectively can not be lowered the temperature, thus reducing the problem of the qualification rate of product.
While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out with multiple changes in the case of without departing from principle of the present utility model and spirit, repair Change, replace and modification, scope of the present utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position, including fuel oil groove (17), heat conduction electric furnace (10) and refining furnace (14) it is characterised in that:The internal welding of described fuel oil groove (17) is connected to radiating tube (16), and radiating tube (16) two ends are all run through the inwall of fuel oil groove (17) and are extended to the outside of fuel oil groove (17), described radiating tube (16) Recess is connected with cooling pipe (5), and cooling pipe (5) welded top near fuel oil groove (17) inwall has water pipe (1), described Water circulating pump (2) is provided with water pipe (1), the side of described water circulating pump (2) is fixedly connected with water storage box (3), described radiating One end of pipe (16) is fixedly connected with refining furnace (14), and the top of described refining furnace (14) is fixedly connected with motor (7), described electricity The bottom thread of machine (7) is connected with and is fixedly connected with support bar (12) on flabellum (6), and the side wall of refining furnace (14), and is in It is fixedly connected with refining chamber (13), the entrance of described refining furnace (14) is socketed between support bar (12) in same horizontal line Copper pipe (20), described copper pipe (20) is provided with filling pump (15), and copper pipe (20) runs through the inwall of refining chamber (13), and extend Outside to refining furnace (14);
One end of described copper pipe (20) is connected with heat conduction electric furnace (10), and the inwall of described heat conduction electric furnace (10) is welded with drainage tube (9), the threaded one end of described drainage tube (9) is connected with shunting lid (18), and the bottom welding of described shunting lid (18) has dibenzyl Toluene tank (11), the upper surface surrounding of described dibenzyl toluene tank (11) offers Cooling Holes (112), and dibenzyl toluene tank (11) it is provided through pod apertures (113) at the axle center at top, the bottom of described dibenzyl toluene tank (11) side offers out Material mouth (111), described discharging opening (111) is threaded with discharge nozzle (19), and described discharge nozzle (19) runs through heat conduction electric furnace (10) side wall simultaneously extends to the outside of heat conduction electric furnace (10).
2. a kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position according to claim 1, its feature exists In:The S-type inside being arranged on fuel oil groove (17) of described radiating tube (16).
3. a kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position according to claim 1, its feature exists In:The quantity of described cooling pipe (5) is three, and is all threaded with stainless steel tube (4) between two neighboring cooling pipe (5).
4. a kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position according to claim 1, its feature exists In:Described copper pipe (20) is provided with air vent (8) on the port of export.
5. a kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position according to claim 1, its feature exists In:Described cooling pipe (5) is bimetallic tube, and the surface of interlayer intracavity is provided with silica gel.
CN201621023904.7U 2016-08-31 2016-08-31 A kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position Expired - Fee Related CN205991724U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201621023904.7U CN205991724U (en) 2016-08-31 2016-08-31 A kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201621023904.7U CN205991724U (en) 2016-08-31 2016-08-31 A kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position

Publications (1)

Publication Number Publication Date
CN205991724U true CN205991724U (en) 2017-03-01

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201621023904.7U Expired - Fee Related CN205991724U (en) 2016-08-31 2016-08-31 A kind of dibenzyl toluene heat-conducting oil system for the hot equipment in high position

Country Status (1)

Country Link
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CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20170301

Termination date: 20190831