CN217957347U - Rapid heating energy-saving heating tube with multiple heating wires - Google Patents

Abstract

The utility model discloses a rapid heating energy-saving heating tube with a plurality of heating wires, which relates to a heating device, comprising a heating wire, an insulating heat conduction material and an inner heat conduction pipe, wherein a plurality of heating wire holes are arranged in the insulating heat conduction material, the heating wire is sequentially arranged in the heating wire holes, a conduit hole is arranged in the insulating heat conduction material, the conduit hole is arranged at one side of the heating wire hole, and a conduit is arranged in the conduit hole; the outer side of the inner heat conduction pipe is provided with an outer heat conduction pipe, the inner heat conduction pipe is arranged in the outer heat conduction pipe, a gap is formed between the outer wall of the inner heat conduction pipe and the inner wall of the outer heat conduction pipe, and the gap is filled with an insulating heat conduction material. The three heating wires of the heating tube of the utility model generate heat simultaneously, the heating efficiency is higher, the conduit and the heating wires are both arranged in the inner heat conducting tube, the heat can be effectively prevented from dissipating and the heating effect is better; the utility model discloses three heater simultaneous workings of heating tube, heating efficiency is higher, and three heaters share the work of generating heat, and life is longer.

Description

Rapid heating energy-saving heating tube with multiple heating wires

Technical Field

The utility model relates to a device that generates heat specifically is an energy-conserving heating tube of rapid heating with many heater.

Background

The patent is a prior patent with application number of CN202120484180.0, 20210305, entitled high-efficiency energy-saving heating tube, in which one heating wire is arranged at one side of a conduit, and only one heating wire is arranged, and after the heating wire is electrified, only one heating wire generates heat and is responsible for the heating work of the whole heating tube, thus resulting in low heating efficiency and short service life of the heating wire.

The application date is 20200508, the application number is CN202020742503.7, and the name is a prior patent publication of a high-efficiency energy-saving heating pipe, in the patent publication, a heating wire is spirally arranged on the outer side of a conduit, a heat conduction material is arranged between the heating wire and the conduit, the conduit is arranged in the heating wire and the heat conduction material in a penetrating way, only one heating wire is arranged, after the heating wire is electrified, only one heating wire generates heat and is responsible for the heating work of the whole heating pipe, so that the heating efficiency is low, and the service life of the heating wire is short; still another scheme in this patent publication, the heater has two, is the heliciform respectively and locates pipe one side, is equipped with the heat conduction material between heater and the pipe, and this scheme has two heaters to generate heat simultaneously, and two heaters are responsible for the work of generating heat of whole heating tube, and although the heating efficiency and the life of heater promote for above-mentioned two schemes to some extent, heating efficiency and life are still lower, still can not satisfy heating efficiency height, long service life's demand.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a have three heater simultaneous workings, heating efficiency is higher, the longer beneficial effect of life to solve the problem of proposing among the above-mentioned background art.

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

a rapid heating energy-saving heating pipe with a plurality of heating wires comprises the heating wires, insulating heat conduction materials and an inner heat conduction pipe, wherein the inner heat conduction pipe is hollow, the heating wires, the insulating heat conduction materials and the inner heat conduction pipe are sequentially arranged and connected from inside to outside, a plurality of heating wire holes are formed in the insulating heat conduction materials, the heating wires sequentially penetrate through the heating wire holes, each heating wire hole is independently arranged, the heating wires are separated by the insulating heat conduction materials, the heating wires and the insulating heat conduction materials are arranged in the inner heat conduction pipe, a guide pipe hole is formed in the insulating heat conduction materials, the guide pipe hole is formed in one side of each heating wire hole, and a guide pipe penetrates through the guide pipe hole; the outer side of the inner heat conduction pipe is provided with an outer heat conduction pipe, the outer heat conduction pipe is hollow, the inner heat conduction pipe is arranged in the outer heat conduction pipe, a gap is formed between the outer wall of the inner heat conduction pipe and the inner wall of the outer heat conduction pipe, and the gap is filled with an insulating heat conduction material.

As a further aspect of the present invention: the heating wire hole is three, the heating wire is equipped with three, the heating wire is located in proper order the heating wire is downthehole, the heating wire is the heliciform and locates in the heating wire is downthehole.

As a further aspect of the present invention: one end of the heating wire is connected with a lead, one end of the lead is welded with the heating wire, and the other end of the lead extends out of the inner heat conducting pipe.

As a further aspect of the present invention: the width of the gap is 1-5 mm, the gap is filled with an insulating heat conduction material, and the insulating heat conduction material is magnesium oxide or graphene or quartz sand.

As the utility model discloses further scheme again: the inner heat conducting pipe penetrates through the outer heat conducting pipe, and the outer diameter of the inner heat conducting pipe is smaller than the inner diameter of the outer heat conducting pipe.

As the utility model discloses further scheme again: the inner heat conducting pipe and the outer heat conducting pipe are made of aluminum, copper, stainless steel, iron, titanium, quartz, teflon or carbon steel.

As a further aspect of the present invention: the catheter comprises a catheter body, a first port and a second port, wherein the catheter body is hollow, the first port is arranged at one end of the catheter body, and the second port is arranged at the other end of the catheter body.

As a further aspect of the present invention: the heating wire is a nickel-chromium wire or an iron-chromium-aluminum wire or a carbon fiber wire or a tungsten wire.

Compared with the prior art, the beneficial effects of the utility model are that:

the heating wires of the heating tube of the utility model are provided with three heating wires, the three heating wires are all arranged in the heating wire holes of the heat conducting material, after being electrified, the three heating wires simultaneously generate heat, the heating efficiency is higher, the heat generated by the heating wires is transferred to the conduit through the heat conducting material, the conduit and the heating wires are all arranged in the inner heat conducting tube, the heat can be effectively prevented from being dissipated, and the heating effect is better; the utility model discloses three heater simultaneous working of heating tube, heating efficiency is higher, and three heater share the work of generating heat, and life is longer.

Drawings

Fig. 1 is a schematic structural view of the heating tube of the present invention.

Fig. 2 is a partial sectional view of the heat generating tube of fig. 1.

Fig. 3 is a partially enlarged view of a in fig. 2.

The following are marked in the figure:

1. a heater; 2. an insulating and heat conducting material; 3. an inner heat conductive pipe; 4. a heater hole; 5. a conduit hole; 6. a conduit; 7. an outer heat conducting pipe; 8. a wire;

61. a catheter body; 62. a first port; 63. a second port.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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.

Referring to fig. 1 to 3, in an embodiment of the present invention, a fast heating energy-saving heating tube with multiple heating wires includes a heating wire 1, an insulating heat conduction material 2 and an inner heat conduction tube 3, the inner heat conduction tube 3 is hollow, the heating wire 1, the insulating heat conduction material 2 and the inner heat conduction tube 3 are sequentially arranged and connected from inside to outside, a plurality of heating wire holes 4 are arranged in the insulating heat conduction material 2, the heating wire 1 sequentially penetrates through the heating wire holes 4, each heating wire hole 4 is independently arranged, the heating wire 1 is separated by the insulating heat conduction material 2, the heating wire 1 and the insulating heat conduction material 2 are both arranged in the inner heat conduction tube 3, a conduit hole 5 is arranged in the insulating heat conduction material 2, the conduit hole 5 is arranged on one side of the heating wire hole 4, a conduit 6 is arranged in the conduit hole 5, and the conduit 6 is fixedly connected in the conduit hole 5; the outer side of the inner heat conduction pipe 3 is provided with an outer heat conduction pipe 7, the outer heat conduction pipe 7 is hollow, the inner heat conduction pipe 3 is fixedly arranged in the outer heat conduction pipe 7, a gap is formed between the outer wall of the inner heat conduction pipe 3 and the inner wall of the outer heat conduction pipe 7, and the gap is filled with an insulating heat conduction material 2; further, the width of the gap is 1-5 mm, preferably 3mm, the gap is filled with an insulating and heat conducting material 2, and the insulating and heat conducting material 2 is magnesium oxide or graphene or quartz sand. The heating wire 1 of the heating tube of the utility model has three heating wires 1, the three heating wires 1 are all arranged in the heating wire holes 4 of the heat conducting material, after the power is on, the three heating wires 1 simultaneously generate heat, the heating efficiency is higher, the heat generated by the heating wire 1 is transferred to the conduit 6 through the heat conducting material, the conduit 6 and the heating wire 1 are both arranged in the inner heat conducting pipe 3, the heat can be effectively prevented from being dissipated, and the heating effect is better; the utility model discloses three heater 1 simultaneous workings of heating tube, heating efficiency is higher, and three heater 1 share the work of generating heat, and life is longer.

In a preferred embodiment of the present invention, the number of the heating wire holes 4 is three, three heating wires 1 are provided, heating is sequentially provided in the heating wire holes 4, and the heating wires 1 are spirally provided in the heating wire holes 4; furthermore, one end of the heating wire 1 is connected with a lead 8, one end of the lead 8 is welded with the heating wire 1, and the other end of the lead 8 extends out of the inner heat conduction pipe 3; further, the heating wire 1 is a nickel-chromium wire, an iron-chromium-aluminum wire, a carbon fiber wire or a tungsten wire.

The utility model discloses the heating tube is in practical application, according to actual need, heating wire 1 also can be 4 or 5 or 6 etc. the number of heating wire can be confirmed according to actual conditions promptly.

In a preferred embodiment of the present invention, the inner heat pipe 3 is inserted into the outer heat pipe 7, and the outer diameter of the inner heat pipe 3 is smaller than the inner diameter of the outer heat pipe 7; furthermore, the materials of the inner heat-conducting pipe 3 and the outer heat-conducting pipe 7 are aluminum, copper, stainless steel, iron, titanium, quartz, teflon or carbon steel with good heat conductivity; further, the shapes of the inner heat transfer tubes 3 and the outer heat transfer tubes 7 are the same, and the shapes of the inner heat transfer tubes 3 and the outer heat transfer tubes 7 are C-shaped, U-shaped, straight, or L-shaped.

In a preferred embodiment of the present invention, the conduit 6 comprises a conduit body 61, a first port 62 and a second port 63, the conduit body 61 is hollow, the first port 62 is disposed at one end of the conduit body 61, and the second port 63 is disposed at the other end of the conduit body 61.

The utility model discloses can be applied to fields such as kitchen range, electric water heater, when the utility model discloses be applied to the kitchen range, the first port 62 of pipe 6 feed liquid fuel, second port 63 gives vent to anger, and the concrete process is as follows, and heater 1 generates heat, and heater 1 conducts the heat to magnesium oxide, and magnesium oxide further conducts the heat to pipe 6 to heat the liquid fuel high temperature in pipe 6, and the liquid fuel in pipe 6 forms gaseous fuel after being heated by high temperature, and gaseous fuel comes out from second port 63 of pipe 6; when the utility model discloses when being applied to electric water heater, cold water is advanced to the first port 62 of pipe 6, and second port 63 goes out hot water, and specific process as follows, and heater 1 generates heat, and heater 1 gives magnesium oxide with the heat conduction, and magnesium oxide further gives pipe 6 with the heat conduction to with the cold water high temperature heating in the pipe 6, after the cold water in the pipe 6 was heated by high temperature, hot water came out from the second port 63 of pipe 6.

The heating wire 1 of the heating tube of the utility model has three heating wires 1, the three heating wires 1 are all arranged in the heating wire hole 4 of the heat conducting material, after the power is on, the three heating wires 1 simultaneously generate heat, the heating efficiency is higher, the heat generated by the heating wire 1 is transferred to the conduit 6 through the heat conducting material, the conduit 6 and the heating wire 1 are both arranged in the inner heat conducting pipe 3, the heat can be effectively prevented from dissipating and dissipating, and the heating effect is better; the utility model discloses three heater 1 simultaneous workings of heating tube, heating efficiency is higher, and three heater 1 share the work of generating heat, and life is longer.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (8)

1. A rapid heating energy-saving heating pipe with a plurality of heating wires is characterized by comprising the heating wires, an insulating heat conduction material and an inner heat conduction pipe, wherein the inner heat conduction pipe is hollow, the heating wires, the insulating heat conduction material and the inner heat conduction pipe are sequentially arranged and connected from inside to outside, a plurality of heating wire holes are formed in the insulating heat conduction material, the heating wires are sequentially arranged in the heating wire holes in a penetrating manner, each heating wire hole is independently arranged, the heating wires are arranged in a separated manner by the insulating heat conduction material, the heating wires and the insulating heat conduction material are both arranged in the inner heat conduction pipe, a conduit hole is formed in the insulating heat conduction material, the conduit hole is formed in one side of the heating wire hole, and a conduit is arranged in the conduit hole in a penetrating manner; the outer side of the inner heat conduction pipe is provided with an outer heat conduction pipe, the outer heat conduction pipe is hollow, the inner heat conduction pipe is arranged in the outer heat conduction pipe, a gap is formed between the outer wall of the inner heat conduction pipe and the inner wall of the outer heat conduction pipe, and the gap is filled with an insulating heat conduction material.

2. A rapid heating energy-saving heating tube having multiple heating wires according to claim 1, wherein the number of the heating wire holes is three, and there are three heating wires, and the heating wires are sequentially disposed in the heating wire holes, and the heating wires are spirally disposed in the heating wire holes.

3. The fast heating energy-saving heating tube with a plurality of heating wires as claimed in claim 1, wherein one end of the heating wire is connected with a conducting wire, one end of the conducting wire is welded with the heating wire, and the other end of the conducting wire extends out of the inner heat conducting tube.

4. The fast heating energy-saving heating tube with the plurality of heating wires according to claim 1, wherein the width of the gap is 1-5 mm, the gap is filled with an insulating and heat-conducting material, and the insulating and heat-conducting material is magnesium oxide or graphene or quartz sand.

5. The rapid heating energy-saving heating tube with a plurality of heating wires as claimed in claim 1, wherein the inner heat conducting tube is inserted into the outer heat conducting tube, and the outer diameter of the inner heat conducting tube is smaller than the inner diameter of the outer heat conducting tube.

6. The fast heating energy-saving heating tube with a plurality of heating wires as claimed in claim 1, wherein the inner heat conducting tube and the outer heat conducting tube are made of aluminum, copper, stainless steel, iron, titanium, quartz, teflon or carbon steel.

7. A rapid heating energy-saving heating tube with multiple heating wires as claimed in claim 1, wherein the conduit comprises a hollow conduit body, a first port and a second port, the first port is disposed at one end of the conduit body, and the second port is disposed at the other end of the conduit body.

8. The fast heating energy-saving heating tube with a plurality of heating wires as claimed in claim 1, wherein the heating wires are nickel-chromium wires or iron-chromium-aluminum wires or carbon fiber wires or tungsten wires.

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