CN210431930U

CN210431930U - Energy-saving heating pipe

Info

Publication number: CN210431930U
Application number: CN201921080652.5U
Authority: CN
Inventors: 黎永红
Original assignee: Shenzhen Fuhan Energy Saving Equipment Co Ltd
Current assignee: Shenzhen Fuhan Energy Saving Equipment Co Ltd
Priority date: 2019-07-10
Filing date: 2019-07-10
Publication date: 2020-04-28
Anticipated expiration: 2029-07-10

Abstract

The utility model provides an energy-conserving heating pipe, this heating pipe include electrothermal tube and fixing base, a serial communication port, the electrothermal tube includes electrothermal tube fixed part and electrothermal tube portion of generating heat, the electrothermal tube fixed part be located the electrothermal tube both ends and with the electrothermal tube in the middle of the electrothermal tube portion of generating heat an organic whole be connected, electrothermal tube portion of generating heat outer lane is fixed with the radiating fin that the spiral encircleed, including the heat dissipation lug on the radiating fin, the setting that just evenly interlocks is continuous respectively in the radiating lug both sides about the radiating fin, radiating fin all is provided with the heat dissipation recess at the opposite side that the heat dissipation lug corresponds. The heat radiating area of the heating pipe is greatly increased due to the arrangement of the heat radiating fins, the heat radiating convex blocks and the heat radiating grooves, so that the time is saved while the conversion efficiency of the product is increased and the heating temperature is raised more quickly, and the structure can make the heat energy of the product when being heated fully utilized, reduce the waste of the heat energy and relatively reduce the power consumption.

Description

Energy-saving heating pipe

Technical Field

The utility model belongs to the electrical heating field, in particular to heating pipe field.

Background

The existing heating tube is formed by filling an electric heating wire into a seamless metal tube (a carbon steel tube, a titanium tube, a stainless steel tube and a copper tube), filling magnesium oxide powder with good heat conductivity and insulativity into a gap part, then shrinking the tube, and then processing the tube into various shapes required by users. The heating device has the characteristics of simple structure, low cost, capability of meeting the common heating requirement, good mechanical strength, good adaptability to severe environment and the like. It can be used for heating various liquids and acid, alkali and salt, and is also suitable for heating and melting metals with low melting point (lead, zinc, tin and babbitt). There are some disadvantages, however: the conversion efficiency of the electric heating tube is low; slow heating and time wasting; heating cannot be fully utilized; large power consumption and waste of heat energy.

Disclosure of Invention

In order to solve the problems, the utility model aims to provide an energy-saving heating pipe which has high conversion efficiency, fast heating and time saving.

Another object of the utility model is to provide an energy-conserving heating pipe that heat energy obtained make full use of, power consumption is less relatively and reduce the heat energy waste when heating.

In order to achieve the above object, the technical solution of the present invention is as follows.

The utility model provides an energy-saving heating pipe, this heating pipe include electrothermal tube and fixing base, a serial communication port, the electrothermal tube includes electrothermal tube fixed part and electrothermal tube portion of generating heat, the electrothermal tube fixed part be located the electrothermal tube both ends and with electrothermal tube middle electrothermal tube portion of generating heat an organic whole be connected, electrothermal tube portion of generating heat outer lane is fixed with the radiating fin that the spiral encircleed, including the heat dissipation lug on the radiating fin, the setting that just evenly interlocks is continuous respectively in the radiating lug both sides about the radiating fin, radiating fin all is provided with the heat dissipation recess at the opposite side that the heat dissipation lug corresponds, the equal fixed connection of radiating lug and heat dissipation recess one end is at the portion of generating heat outer wall, the heat dissipation lug and the heat dissipation recess other end all. The heat radiating area of the heating pipe is greatly increased due to the arrangement of the heat radiating fins, the heat radiating convex blocks and the heat radiating grooves, so that the time is saved while the conversion efficiency of the product is increased and the heating temperature is raised more quickly, and the structure can make the heat energy of the product when being heated fully utilized, reduce the waste of the heat energy and relatively reduce the power consumption. The graphene is a two-dimensional material with the thickness of an atomic layer, is called monoatomic graphite, and has the characteristics of good strength, flexibility, electric conduction, heat conduction, optics and the like. It is almost completely transparent, only absorbs 2.3% of light, has a thermal conductivity as high as 5300W/mK, higher than that of carbon nanotube and diamond, and has an electron mobility exceeding 15000 cm 2/V.s at normal temperature, and higher than that of carbon nanotube or silicon crystal (monocrystailine silicon).

Further, the electrothermal tube fixing parts at the upper end and the lower end of the electrothermal tube are respectively fixed with an electrothermal tube fixing piece, the electrothermal tube fixing piece is integrally regular hexagon, fixing through holes matched with the electrothermal tube fixing parts are respectively arranged at six vertex angles of the electrothermal tube fixing piece, six small heat dissipation holes are formed in the middle of the six fixing through holes, and a large heat dissipation through hole is formed in the middle of the six small heat dissipation holes. The arrangement of the small heat dissipation holes and the large heat dissipation holes can increase the heat dissipation of the product and increase the heating performance.

Furthermore, two leads are led out from one end of the fixing part of the electric heating tube, and a heat insulation layer wraps the leads. The heat insulating layer is an existing heat insulating material used by an existing heating pipe, so that the conducting wire is safer, and the reliability and the service life of the product are further improved.

Further, the fixing base is integrally provided with a circular cavity in a cylindrical shape and at the center, six installation parts are arranged in the circular cavity, a circular through hole is formed in the installation part, isolation pads are arranged at the upper end and the lower end of the circular through hole, the isolation pads are fixedly connected with the circular through hole through screws, nuts and spring gaskets, and the wire is electrically connected to the screws. The isolation pad plays a role in heat insulation, so that the safety performance of the product is improved.

Further, be provided with two stationary blades on the screw, the stationary blade includes stationary blade clamping part and stationary blade through-hole, the stationary blade clamping part of two stationary blades all sets up on a screw, the stationary blade through-hole of two stationary blades set up respectively with by on two adjacent screws of the screw of centre gripping, the stationary blade passes through nut and spring washer fixed connection with the screw. The fixing sheet can strengthen the fixing strength between the screws, thereby further improving the overall stability of the product.

Furthermore, a shell is fixed on the fixing seat, the shell is integrally in a cylindrical shape, a cylindrical cavity is arranged in the shell and penetrates through the shell, and the electric heating tube fixing piece are both arranged in the cavity of the shell. The shell can play a role in protecting the electric heating tube of the product, and the service life of the product is prolonged.

The utility model has the advantages that: compared with the prior art, the utility model discloses in the middle of, radiating fin, heat dissipation lug and heat dissipation recess's setting, very big increase the heat radiating area of heating pipe for the time has also been practiced thrift when the conversion efficiency increase of this product, the heating heaies up more fast, and this structure can make the heat energy of this product when the heating obtain make full use of, has reduced the waste of heat energy, and power consumption is less a little relatively.

Drawings

Fig. 1 is a schematic view of an electric heating tube of an energy-saving heating tube of the present invention.

Fig. 2 is a schematic view of a part of the heat dissipation bump of the energy-saving heating tube of the present invention.

Fig. 3 is a schematic view of an electric heating tube fixing piece of the energy-saving heating tube of the present invention.

Fig. 4 is a schematic view of a fixing seat of an energy-saving heating pipe of the present invention.

Fig. 5 is a schematic view of a housing of an energy-saving heating pipe of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model provides an energy-conserving heating pipe, this heating pipe includes electrothermal tube 1 and fixing base 2, its characterized in that, electrothermal tube 1 includes electrothermal tube fixed part 11 and electrothermal tube portion of generating heat 12, electrothermal tube fixed part 11 be located electrothermal tube 1 both ends and with electrothermal tube 1 middle electrothermal tube portion of generating heat 12 an organic whole be connected, electrothermal tube portion of generating heat 12 outer lane is fixed with the radiating fin 13 that the spiral encircleed, including radiating lug 14 on the radiating fin, radiating lug 14 respectively continuous and evenly crisscross setting both sides about radiating fin 13, radiating fin 13 all is provided with radiating groove (not shown) at the opposite side that radiating lug 14 corresponds, radiating lug 14 and the equal fixed connection of radiating groove one end are in electrothermal tube portion of generating heat 12 outer wall, radiating lug 14 and the radiating groove other end all are located radiating fin 13 outward flange.

Further, the electric heating tube fixing parts 11 at the upper end and the lower end of the electric heating tube 1 are all fixed with electric heating tube fixing pieces 3, the electric heating tube fixing pieces 3 are integrally regular hexagons, fixing through holes 31 matched with the electric heating tube fixing parts 11 are respectively arranged at six vertex angles of the electric heating tube fixing pieces 3, six small heat dissipation holes 32 are arranged in the middle of the six fixing through holes 31, and large heat dissipation through holes 33 are arranged in the middle of the six small heat dissipation holes 32.

Furthermore, two wires are led out from one end of the electric heating tube fixing part 11, and a heat insulation layer is wrapped outside the wires.

Further, fixing base 2 is whole to be provided with circular cavity 21 for cylinder shape and center, be provided with six installation departments 22 in the circular cavity 21, be provided with circular through-hole (not shown) on the installation department 22, both ends all are provided with isolating pad 23 about the circular through-hole, isolating pad 23 passes through screw, nut and spring shim fixed connection with circular through-hole, the wire electricity is connected on the screw.

Further, be provided with two stationary blades 4 on the screw, the stationary blade includes stationary blade clamping part 41 and stationary blade through-hole 42, the stationary blade clamping part 41 of two stationary blades 4 all sets up on a screw, the stationary blade through-hole 42 of two stationary blades 4 set up respectively with by on two adjacent screws of the screw of centre gripping, stationary blade 4 passes through nut and spring washer fixed connection with the screw.

Further, a shell 5 is fixed on the fixing seat, the shell 5 is integrally in a cylindrical shape, a cylindrical cavity (not shown) is arranged in the shell and penetrates through the shell 5, and the electric heating tube 1 and the electric heating tube fixing piece 3 are both arranged in the shell cavity.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides an energy-conserving heating pipe, this heating pipe include electrothermal tube and fixing base, its characterized in that, the electrothermal tube includes electrothermal tube fixed part and electrothermal tube portion of generating heat, the electrothermal tube fixed part be located the electrothermal tube both ends and with the electrothermal tube in the middle of the electrothermal tube portion of generating heat an organic whole be connected, electrothermal tube portion of generating heat outer lane is fixed with the radiating fin that the spiral encircleed, including the heat dissipation lug on the radiating fin, the setting that the heat dissipation lug is continuous respectively and evenly crisscross is both sides about the radiating fin, the radiating fin all is provided with heat dissipation recess at the opposite side that the heat dissipation lug corresponds, the equal fixed connection of heat dissipation lug and heat dissipation recess one end is at the electrothermal tube portion of generating heat outer.

2. The energy-saving heating pipe according to claim 1, wherein the fixing portions of the electric heating pipe at the upper and lower ends of the electric heating pipe are respectively fixed with fixing pieces of the electric heating pipe, the fixing pieces of the electric heating pipe are regular hexagonal, the fixing holes adapted to the fixing portions of the electric heating pipe are respectively formed at six corners of the fixing pieces of the electric heating pipe, six small heat dissipation holes are formed in the middle of the six fixing holes, and a large heat dissipation hole is formed in the middle of the six small heat dissipation holes.

3. The energy-saving heating pipe of claim 1, wherein two wires are led out from one end of the fixing portion of the electric heating pipe, and the wires are wrapped with a heat insulation layer.

4. The energy-saving heating pipe of claim 3, wherein the fixing seat is cylindrical and has a circular cavity at the center, six installation parts are arranged in the circular cavity, a circular through hole is arranged on the installation parts, isolation pads are arranged at the upper end and the lower end of the circular through hole, the isolation pads are fixedly connected with the circular through hole through screws, nuts and spring washers, and the lead is electrically connected to the screws.

5. The energy-saving heating pipe according to claim 4, wherein the screw is provided with two fixing pieces, the fixing pieces comprise fixing piece clamping portions and fixing piece through holes, the fixing piece clamping portions of the two fixing pieces are both disposed on one screw, the fixing piece through holes of the two fixing pieces are respectively disposed on two adjacent screws of the clamped screw, and the fixing pieces are fixedly connected with the screws through nuts and spring washers.

6. The energy-saving heating pipe of claim 1, wherein the fixing seat is fixed with a housing, the housing is generally cylindrical, a cylindrical cavity is formed in the housing and penetrates through the housing, and the electric heating pipe fixing piece are both arranged in the housing cavity.