CN211650751U - High-efficient gaseous combination formula continuous heating screw means - Google Patents

Abstract

The utility model discloses a high-efficiency gas combined continuous heating spiral device, which comprises a heating shell, a spiral heating structure and a heat conducting structure; heating the shell: the heating device comprises a heating shell, a material inlet, a gas inlet, a heat-conducting oil inlet, a heat-insulating shell and a heat-conducting oil outlet, wherein the right end of the heating shell is provided with the material inlet, the upper side of the material inlet is provided with the gas inlet, one side of the gas inlet is provided with the heat-conducting oil inlet, the lower side of the material inlet is provided with the gas outlet, the left end of the heating shell is provided with the material outlet, the lower; spiral heating structure: the spiral heating structure comprises a spiral heating inner pipe and a spiral heating outer pipe, the spiral heating outer pipe is positioned between the heating shell and the heat preservation shell, and the inner side of the spiral heating inner pipe is positioned at the inner side of the heat preservation shell; the heat conduction structure: the heat conduction structure comprises a heat conduction cavity, and the heat conduction cavity is internally provided with the inner side of the heating shell; the utility model discloses can carry out abundant utilization to gaseous heat, reduce the loss of the energy.

Description

High-efficient gaseous combination formula continuous heating screw means

Technical Field

The utility model relates to a gaseous spiral heating technical field specifically is a gaseous combination formula continuous heating screw means of high efficiency.

Background

Need heat the material at the in-process of production, current heating methods, the majority heats through the electricity, such heating methods, it is inhomogeneous to heat, lead to the material to be heated unevenly, influence the effect of heating, and current gas heating device, the conduction heat effect is poor, the use of most heating device's heat energy is disposable, the effective use rate of heat energy is low, heat required heat energy just increases a lot, influence the material heating effect, at the same material of heating, the heat of use is more, increase the manufacturing cost of enterprise.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a high-efficient gaseous combination formula continuous heating screw means, carry out real-time supervision to the temperature of heating, can carry out abundant utilization to gaseous heat, reduce the loss of the energy, practice thrift the manufacturing cost of enterprise, the heat conduction is effectual, can carry out even heating to the material, and is effectual to the material heating, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency gas combined continuous heating spiral device comprises a heating shell, a spiral heating structure and a heat conducting structure;

heating the shell: the heating device comprises a heating shell, a material inlet, a gas inlet, a heat-conducting oil inlet, a heat-insulating shell and a heat-conducting oil outlet, wherein the right end of the heating shell is provided with the material inlet, the upper side of the material inlet is provided with the gas inlet, one side of the gas inlet is provided with the heat-conducting oil inlet, the lower side of the material inlet is provided with the gas outlet, the left end of the heating shell is provided with the material outlet, the lower;

spiral heating structure: the spiral heating structure comprises a spiral heating inner pipe and a spiral heating outer pipe, the spiral heating outer pipe is positioned between the heating shell and the heat preservation shell, and the inner side of the spiral heating inner pipe is positioned at the inner side of the heat preservation shell;

the heat conduction structure: the heat conduction structure comprises a heat conduction cavity, the heat conduction cavity is internally provided with a heat conduction spiral fin, and the outer surface of the heat conduction cavity is provided with a heat conduction spiral fin;

wherein: still include temperature monitor and temperature sensor, temperature sensor is located between heat conduction cavity and the heating casing, temperature monitor is located the top of the surface of heat preservation casing, temperature sensor passes through the output of temperature monitor electricity connection external power source.

Furthermore, the spiral heating inner tube is provided with a confluence head, the spiral heating inner tube is conveniently connected with a gas inlet and a heat conduction oil inlet through the confluence head, more heat in high-temperature gas can be absorbed through the heat conduction oil, the heat conduction effect is better, and the spiral heating inner tube is connected with the gas inlet and the heat conduction oil inlet through the confluence head.

Further, the spiral heating inner tube is double-barrelled structure, the spiral heating inner tube comprises heating outer tube and heating inner tube, heats the conduction oil through the heating inner tube for heating efficiency is high, distributes away the heat of conduction oil through the heating outer tube, carries out even heating to the heat conduction cavity, and it is effectual to heat, and the spiral heating inner tube through converging the head respectively with conduction oil export and spiral heating outer union coupling, the one end and the gas outlet of spiral heating outer tube are connected.

Furthermore, the left end of the heat conduction cavity corresponds to the material outlet, the right end of the heat conduction cavity corresponds to the material inlet, and the material is uniformly heated through the heat conduction cavity, so that the heating effect is good, and the heating efficiency is improved.

Compared with the prior art, the beneficial effects of the utility model are that: this high-efficient gaseous combination formula continuous heating screw means has following benefit:

1. the utility model discloses on set up the spiral heating outer tube, can utilize the waste heat of spiral heating inner tube through the spiral heating outer tube, heat heating shell, reduce the waste of the energy, practice thrift manufacturing cost, distribute away the heat of conduction oil through the heating outer tube, carry out even heating to the heat conduction cavity, it is effectual to heat.

2. The utility model discloses on set up heat conduction helical fin, through heat conduction helical fin increase heated area, improve heating efficiency, can carry out even heating to the heat conduction cavity, reduce thermal loss through the heat preservation casing, improve the utilization ratio of the energy, can carry out real-time supervision to the temperature through temperature sensor, make things convenient for the staff to know the inside temperature of this device, conveniently operate.

3. The utility model discloses on set up the heat conduction cavity, carry out even heating to the material through the heat conduction cavity for the heating is effectual, improves heating efficiency, the utility model discloses carry out real-time supervision to the temperature of heating, can carry out abundant utilization to gaseous heat, reduce the loss of the energy, practice thrift the manufacturing cost of enterprise, the heat conduction is effectual, can carry out even heating to the material, and is effectual to the material heating.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic sectional side view of the present invention;

fig. 3 is a schematic view of the structure of the bus bar of the present invention.

In the figure: the device comprises a temperature display 1, a heat preservation shell 2, a gas inlet 3, a heat conduction oil inlet 4, a material inlet 5, a gas outlet 6, a heat conduction oil outlet 7, a material outlet 8, a spiral heating structure 9, a spiral heating inner tube 91, a spiral heating outer tube 92, a heating shell 10, a heat conduction structure 11, a heat conduction spiral fin 111, a heat conduction cavity 112, a temperature sensor 12, a heating outer tube 13, a converging head 14 and a heating inner tube 15.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1-3, the present invention provides a technical solution: a high-efficiency gas combined continuous heating spiral device comprises a heating shell 10, a spiral heating structure 9 and a heat conducting structure 11;

heating the housing 10: the right end of the heating shell 10 is provided with a material inlet 5, the upper side of the material inlet 5 is provided with a gas inlet 3, one side of the gas inlet 3 is provided with a heat conduction oil inlet 4, the lower side of the material inlet 5 is provided with a gas outlet 6, the left end of the heating shell 10 is provided with a material outlet 8, the lower side of the material outlet 8 is provided with a heat conduction oil outlet 7, the outer side of the heating shell 10 is provided with a heat preservation shell 2, heat loss is reduced through the heat preservation shell 2, and the utilization rate of energy is improved;

spiral heating structure 9: the spiral heating structure 9 comprises a spiral heating inner pipe 91 and a spiral heating outer pipe 92, the spiral heating outer pipe 92 can utilize the residual heat of the spiral heating inner pipe 91, the heating shell 10 is heated, the energy waste is reduced, the production cost is saved, the spiral heating inner pipe 91 is a double-pipe structure, the spiral heating inner pipe 91 is composed of a heating outer pipe 13 and a heating inner pipe 15, the heat-conducting oil is heated by the heating inner tube 15, so that the heating efficiency is high, the heat of the heat-conducting oil is dissipated by the heating outer tube 13, the heat conduction cavity 112 is uniformly heated, the heating effect is good, the spiral heating inner tube 91 is respectively connected with the heat conduction oil outlet 7 and the spiral heating outer tube 92 through the confluence head 14, one end of the spiral heating outer tube 92 is connected with the gas outlet 6, the spiral heating outer tube 92 is positioned between the heating shell 10 and the heat preservation shell 2, and the spiral heating inner tube 91 is positioned on the inner side of the heating shell 10;

the heat conduction structure 11: the heat conducting structure 11 comprises a heat conducting cavity 112, materials are uniformly heated through the heat conducting cavity 112, the heating effect is good, and the heating efficiency is improved, the left end of the heat conducting cavity 112 corresponds to the material outlet 8, the right end of the heat conducting cavity 112 corresponds to the material inlet 5, the materials are uniformly heated through the heat conducting cavity 112, the heating effect is good, the heating efficiency is improved, the heat conducting spiral fins 111 are arranged on the outer surface of the heat conducting cavity 112 and the inner side of the heating shell 10 in the heat conducting cavity 112, the heating area is increased through the heat conducting spiral fins 111, the heating efficiency is improved, and the heat conducting cavity 112 can be uniformly heated;

wherein: the utility model also comprises a temperature display 1 and a temperature sensor 12, the temperature sensor 12 is arranged between the heat conducting cavity 112 and the heating shell 10, the temperature display 1 is arranged above the outer surface of the heat insulating shell 2, the temperature can be monitored in real time through the temperature sensor 12, the working personnel can conveniently know the internal temperature of the device, the operation is convenient, the temperature sensor 12 is electrically connected with the output end of an external power supply through the temperature display 1, the spiral heating inner tube 91 is provided with a confluence head 14, the spiral heating inner tube 91 is conveniently connected with the gas inlet 3 and the heat conducting oil inlet 4 through the confluence head 14, more heat in high-temperature gas can be absorbed through the heat conducting oil, the heat conducting effect is better, the spiral heating inner tube 91 is connected with the gas inlet 3 and the heat conducting oil inlet 4 through the confluence head 14, the utility model can monitor the heating temperature in real time, and can fully utilize the heat of the, the loss of the energy is reduced, the production cost of enterprises is saved, the heat conduction effect is good, the materials can be uniformly heated, and the material heating effect is good.

When in use: high temperature gas enters into heating inner tube 15 through gas inlet 3, the conduction oil enters into heating outer tube 13 through conduction oil inlet 4, high temperature gas gives the conduction oil with heat transfer through heating inner tube 15, the conduction oil dispels the heat through heating outer tube 13, heat conduction helical fin 111 thermally equivalent, and give heat conduction cavity 112 with heat transfer, the material enters into heat conduction cavity 112 through material import 5, heat conduction cavity 112 heats the material evenly, temperature sensor 12 monitors the temperature in the heating shell 10 in real time, and show through temperature monitor 1, the preheating of heating inner tube 15 conveys spiral heating outer tube 92 to through converging head 14, spiral heating outer tube 92 heats heating shell 10, carry out furthest's utilization to preheating, reduce thermal loss through heat preservation shell 2, and energy is saved.

It should be noted that the specific model of the temperature sensor 12 disclosed in the present embodiment is PT100, and the operation of displaying the monitoring signal of PT100 through the temperature display 1 is performed by a method commonly used in the art.

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 (4)

1. The utility model provides a high-efficient gaseous combination formula continuous heating screw means which characterized in that: comprises a heating shell, a spiral heating structure and a heat conducting structure;

heating the shell: the heating device comprises a heating shell, a material inlet, a gas inlet, a heat-conducting oil inlet, a heat-insulating shell and a heat-conducting oil outlet, wherein the right end of the heating shell is provided with the material inlet, the upper side of the material inlet is provided with the gas inlet, one side of the gas inlet is provided with the heat-conducting oil inlet, the lower side of the material inlet is provided with the gas outlet, the left end of the heating shell is provided with the material outlet, the lower;

spiral heating structure: the spiral heating structure comprises a spiral heating inner pipe and a spiral heating outer pipe, the spiral heating outer pipe is positioned between the heating shell and the heat preservation shell, and the inner side of the spiral heating inner pipe is positioned at the inner side of the heat preservation shell;

the heat conduction structure: the heat conduction structure comprises a heat conduction cavity, the heat conduction cavity is internally provided with a heat conduction spiral fin, and the outer surface of the heat conduction cavity is provided with a heat conduction spiral fin;

wherein: still include temperature monitor and temperature sensor, temperature sensor is located between heat conduction cavity and the heating casing, temperature monitor is located the top of the surface of heat preservation casing, temperature sensor passes through the output of temperature monitor electricity connection external power source.

2. A high efficiency gas combination continuous heating screw apparatus as set forth in claim 1, wherein: the spiral heating inner pipe is provided with a confluence head, and the spiral heating inner pipe is connected with a gas inlet and a heat-conducting oil inlet through the confluence head.

3. A high efficiency gas combination continuous heating screw apparatus as set forth in claim 1, wherein: the spiral heating inner tube is of a double-tube structure and consists of an outer heating tube and an inner heating tube, the inner spiral heating tube is respectively connected with a heat conduction oil outlet and an outer spiral heating tube through a confluence head, and one end of the outer spiral heating tube is connected with a gas outlet.

4. A high efficiency gas combination continuous heating screw apparatus as set forth in claim 1, wherein: the left end of the heat conduction cavity corresponds to the material outlet, and the right end of the heat conduction cavity corresponds to the material inlet.

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