CN203357839U - Infrared nanometer energy-saving electric heating loop - Google Patents

Abstract

The utility model discloses an infrared namometer energy-saving electric heating loop. The infrared namometer energy-saving electric heating loop comprises a cylinder-shaped housing, an insulating layer and an aluminium alloy heat conducting layer; a ring-shaped groove is formed in the inner surface of the housing; the insulating layer and the aluminium alloy heat conducting layer are sequentially arranged in the ring-shaped groove; a plurality of grooves are formed in the inner surface of the insulating layer; nanometer infrared heating tubes are arranged in the grooves; a high-temperature radiation-proof coating layer is coated outside the housing. According to the utility model, an infrared radiation heating manner is realized by using the nanometer infrared heating tubes, so that on one hand, energy conservation is realized, and on the other hand, the temperature can be controlled relatively precisely; by adopting the insulating layer and the high-temperature radiation-proof coating layer, heat energy is effectively prevented from being lost to the external production environment, so that the temperature of the housing is very low, influence on the work environment is low, and a protective effect is realized; through the matching of the aluminium alloy heat conducting layer and the housing, the nanometer infrared heating tubes and the insulating layer are totally wrapped, so that the nanometer infrared heating tubes and the insulating layer have low probability of being damaged.

Description

A kind of infrared nanometer energy-saving electrothermal ring

Technical field

The utility model relates to the electric-heating technology field produced for plastic cement, is specifically related to a kind of infrared nanometer energy-saving electrothermal ring.

Background technology

At present, the heat-generating pipe of machine is produced in injection moulding, adopt resistance heating, energising is long heat time heating time, and rapid heat dissipation causes power consumption high, and the nanometer electrical heating circle is that the Double-side heating single face is heated, the caloric value of another side almost all is dispersed in external environment and has slatterned, and makes the excess Temperature in workshop, has increased the cost of cooling; Though be the conservation measures that some producer has adopted Electromagnetic Heating, because Electromagnetic Heating exists heating too fast, to dispel the heat slow, temperature is controlled inaccurate, and trouble is installed, and easily burns out, and causes production easily to go out substandard products, electromagnetic radiation etc.

The utility model content

For solving the problems of the technologies described above, we have proposed a kind of infrared nanometer energy-saving electrothermal ring, its purpose: simple in structure, easy for installation, and energy-conserving and environment-protective, little on the working environment impact.

For achieving the above object, the technical solution of the utility model is as follows:

A kind of infrared nanometer energy-saving electrothermal ring, comprise shell, heat-insulation layer and aluminium alloy heat-conducting layer, described shell is cylindrical shape, the inner surface of shell is provided with annular groove, be provided with successively heat-insulation layer and aluminium alloy heat-conducting layer in annular groove, the inner surface of heat-insulation layer is provided with several grooves, is provided with the nanometer infrared heating tube in groove, and shell scribbles high temperature radiation shielding coating layer outward.

Preferably, the nanometer infrared heating tube is along the axial setting of shell.

Preferably, the material of shell is stainless steel.

Preferably, heat-insulation layer is the mineral wool heat-insulation layer.

Preferably, the inner surface of heat-insulation layer is laid with the silver reflecting layer of one deck.

Preferably, shell is comprised of two halves, the same side phase hinge of two halves, and another side is connected by buckle.

By technique scheme, the utility model replaces the mode of heating of existing resistance heating and Electromagnetic Heating by the mode of nanometer infrared heating tube infrared radiation heating, save the energy on the one hand, controls more accurately on the other hand temperature.Adopt heat-insulation layer and high temperature radiation shielding coating layer, can more effectively prevent that heat energy dissipation is in extraneous production environment, thereby the temperature of shell is very low, thereby reaches protective effect.By the cooperation of aluminium alloy heat-conducting layer and shell, nanometer infrared heating tube and heat-insulation layer are wrapped fully, make nanometer infrared heating tube and heat-insulation layer not easily damaged, longer service life.Simple in structure, easy for installation, energy-conserving and environment-protective, little on the working environment impact, long service life.

The accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, below will the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The structural representation that Fig. 1 is a kind of infrared nanometer energy-saving electrothermal ring disclosed in the utility model;

The schematic top plan view that Fig. 2 is a kind of infrared nanometer energy-saving electrothermal ring disclosed in the utility model.

Numeral and the represented corresponding component title of letter in figure:

1. shell 11. high temperature radiation shielding coating layer 12. buckle 2. heat-insulation layer 21. groove 211. nanometer infrared heating tube 3. silver reflecting layer of aluminium alloy heat-conducting layer 4.

The specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making under the creative work prerequisite the every other embodiment obtained, and all belong to the scope of the utility model protection.

Below in conjunction with schematic diagram, the specific embodiment of the present utility model is described in further detail.

As depicted in figs. 1 and 2, a kind of infrared nanometer energy-saving electrothermal ring, comprise shell 1, heat-insulation layer 2 and aluminium alloy heat-conducting layer 3, described shell 1 is cylindrical shape, the inner surface of shell 1 is provided with annular groove (not marking in figure), be provided with successively heat-insulation layer 2 and aluminium alloy heat-conducting layer 3 in annular groove (not marking in figure), the inner surface of heat-insulation layer 2 is provided with several grooves 21, be provided with nanometer infrared heating tube 211 in groove 21, the mode of heating that replaces existing resistance heating and Electromagnetic Heating by the mode of nanometer infrared heating tube 211 infrared radiation heating, save on the one hand the energy, control more accurately on the other hand temperature, by the cooperation of aluminium alloy heat-conducting layer 3 and shell 1, nanometer infrared heating tube 211 and heat-insulation layer 2 are wrapped fully, make nanometer infrared heating tube 211 and heat-insulation layer 2 not easily damaged, longer service life.

Nanometer infrared heating tube 211 is along the axial setting of shell 1, and convenient fixing assembled and maintenance.

The material of shell 1 is stainless steel, makes the difficult wearing and tearing of shell 1, increases service life.

Heat-insulation layer 2 is mineral wool heat-insulation layers, and shell 1 is outer scribbles high temperature radiation shielding coating layer 11, can more effectively prevent that heat energy dissipation is in extraneous production environment, thereby the temperature of shell 1 is very low, thereby reaches protective effect.

The inner surface of heat-insulation layer 2 is laid with the silver reflecting layer 4 of one deck, the infrared ray that nanometer infrared heating tube 211 sends passes to heat energy to process raw material, the infrared ray that not processed raw material absorbs is mapped to the inner surface in the silver reflecting layer 4 of opposite side, and the infrared ray after being reflected by silver reflecting layer 4 is again to the conduction heat energy that processes raw material.

Shell 1 is comprised of two halves, the same side phase hinge of two halves, and another side is connected by buckle 12, is easy for installation and removal.

Operation principle:

After installing, switch on power, nanometer infrared heating tube 211 is started working.The electric conversion efficiency of nanometer infrared heating tube 211 is high, and adopts the heat radiation mode, and heat energy can unidirectionally be transmitted to and process raw material, and thermal inertia is little, the satisfied temperature required precision.The infrared ray that nanometer infrared heating tube 211 sends passes to heat energy to process raw material, and the infrared ray that not processed raw material absorbs is mapped to the inner surface in the silver reflecting layer 4 of opposite side, and the infrared ray after being reflected by silver reflecting layer 4 is again to the conduction heat energy that processes raw material.Mineral wool heat-insulation layer 2 and high temperature radiation shielding coating layer 11 are kept at heat energy in the inner space of shell 1, and only have in the environment of small part heat energy dissipation outside shell 1.During work, the hull-skin temperature of shell 1 approximately only has 45 degree to 70 degree, can the Protection personnel exempt to be burned on the one hand, reduces on the other hand the pressure to the production environment cooling.

Be exactly more than a kind of design feature and operation principle of infrared nanometer energy-saving electrothermal ring, its advantage: simple and practical, the operation simple and convenient; Only have in the environment of small part heat energy dissipation outside shell; can the Protection personnel exempt to be burned on the one hand; reduce on the other hand the pressure to the production environment cooling; environmental protection and energy saving; reduced production cost; reduce the negative effect of working environment to the staff, increased staff's enthusiasm for production.

Above-described is only preferred embodiment of the present utility model; it should be pointed out that for the person of ordinary skill of the art, under the prerequisite that does not break away from the utility model creation design; can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (6)

1. an infrared nanometer energy-saving electrothermal ring, comprise shell (1), heat-insulation layer (2) and aluminium alloy heat-conducting layer (3), described shell (1) is cylindrical shape, the inner surface of shell (1) is provided with annular groove, be provided with successively heat-insulation layer (2) and aluminium alloy heat-conducting layer (3) in annular groove, it is characterized in that, the inner surface of heat-insulation layer (2) is provided with several grooves (21), be provided with nanometer infrared heating tube (211) in groove (21), the outer high temperature radiation shielding coating layer (11) that scribbles of shell (1).

2. a kind of infrared nanometer energy-saving electrothermal ring according to claim 1, is characterized in that, nanometer infrared heating tube (211) is along the axial setting of shell (1).

3. a kind of infrared nanometer energy-saving electrothermal ring according to claim 2, is characterized in that, the material of shell (1) is stainless steel.

4. a kind of infrared nanometer energy-saving electrothermal ring according to claim 3, is characterized in that, heat-insulation layer (2) is the mineral wool heat-insulation layer.

5. a kind of infrared nanometer energy-saving electrothermal ring according to claim 4, is characterized in that, the inner surface of heat-insulation layer (2) is laid with the silver reflecting layer of one deck (4).

6. a kind of infrared nanometer energy-saving electrothermal ring according to claim 5, is characterized in that, shell (1) is comprised of two halves, the same side phase hinge of two halves, and another side is connected by buckle (12).

Images