CN203611457U - Temperature-controllable optical energy electric heat brick - Google Patents

Abstract

The utility model discloses a temperature-controllable optical energy electric heat brick which is characterized by comprising a porcelain seat, a shell, a heat insulation layer arranged in the shell, a temperature control device, a reflecting cover and a heat radiation assembly, wherein the porcelain seat is mounted on the shell; the reflecting cover is arranged between the heat insulation layer and the heat radiation assembly; the heat radiation assembly comprises a light wave pipe, a light wave pipe installation positioning mechanism and an optical energy radiant panel; the optical energy radiant panel and the reflecting cover are connected to form a cavity for mounting the light wave pipe; the temperature control device is electrically connected with the light wave pipe; a lead is drawn out from the porcelain seat. The temperature-controllable optical energy electric heat brick is simple in structure, temperature-controllable, high in infrared conversion rate, energy-saving and environmentally friendly.

Description

A kind of controllable temperature luminous energy electric heating brick

Technical field

The utility model relates to electric-heating technology field, more specifically relates to a kind of controllable temperature luminous energy electric heating brick.

Background technology

Instant food is just universal in a large number in market, and the Packing Machine of easily manufactured packaging for foodstuff is more and more application also.The more use ceramic electric heating brick heating of Packing Machine at present, is placed on sinter molding in Ceramic Tiles by alloy heat generating silk.Ceramic electric heating brick has stable work in work, low-cost advantage, but also exists obviously not enough simultaneously: 1, start that to reach heat-stable time long; 2, the thermal efficiency is low; 3, anti-suddenly cold and hot ability, cracky explosion.Because its shortcoming is more, be not suitable with already the needs of current efficient, energy-saving and environmental protection.

Summary of the invention

The purpose of this utility model is exactly the deficiency in order to solve prior art and the one that provides is simple in structure, the controllable temperature luminous energy electric heating brick of efficient, energy-saving and environmental protection.

The utility model is to adopt following technical solution to realize above-mentioned purpose: a kind of controllable temperature luminous energy electric heating brick, it is characterized in that, it comprises porcelain seat, the thermal insulation layer of shell and interior setting thereof, attemperating unit, reflector and heat radiation assembly, porcelain seat is arranged on shell, reflector is arranged between thermal insulation layer and heat radiation assembly, heat radiation assembly comprises optical wave tube, optical wave tube is installed detent mechanism and light ray radiation plate, light ray radiation plate is connected and forms the cavity of installation optical wave tube with reflector, attemperating unit is electrically connected with optical wave tube, and leadedly draw from porcelain seat, wherein, the heat energy overwhelming majority that thermal insulation layer can produce heat radiation assembly passes to heating object, greatly improve the thermal efficiency.

As further illustrating of such scheme, the sidewall of described shell is provided with shell fastener, and the sidepiece of light ray radiation plate upwards turns down and is fixed in shell fastener.

Described optical wave tube is installed detent mechanism and is comprised optical wave tube fixed head, optical wave tube geometrical clamp, and optical wave tube is arranged between the optical wave tube fixed head of both sides, and optical wave tube geometrical clamp is arranged on optical wave tube fixed head; Reflector is made up of top reflecting plate and lateral reflection plate, and lateral reflection plate, optical wave tube fixed head intert into intersecting parallels structure mutually.

Described attemperating unit is arranged in thermal insulation layer, and porcelain seat is provided with the porcelain seat hole corresponding with the lead-in wire of attemperating unit.

Described optical wave tube adopts U-shaped optical wave tube, and the pin of U-shaped optical wave tube inserts the optical wave tube fixed head of a side, and the U-shaped end of the other end is inserted in optical wave tube geometrical clamp, and inserts opposite side optical wave tube fixed head and fix.

Described U-shaped optical wave tube is U-shaped red halide torch or carbon fiber electric heating tube.

Described light ray radiation plate is provided with cellular mesh, surface recombination far infrared coating.

The beneficial effect that the utility model adopts above-mentioned technical solution to reach is:

The utility model adopts, by attemperating unit, temperature signal is converted to the signal of telecommunication, can regulate and control according to actual needs luminous energy electric heating brick temperature, relatively has clear superiority with traditional ceramic electric heating brick, specific as follows:

1, the fast 3-5 of thermal response second;

2, spectrum concentrates on the nearly mid infrared region of 1.5 μ-13.5 μ;

3, red external conversion rate≤95%;

4, radiation intensity is apparently higher than ceramic electric heating brick more than 20 ℃;

5, energy-conservation 30%;

6, anti-suddenly cold and hot is strong, and when hot, cold water sputter is not split not quick-fried;

7, single controllable temperature;

8, stable performance, long service life.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation;

Fig. 2 is heat radiation assembly structure schematic diagram of the present utility model;

Fig. 3 is the partial enlarged drawing of Fig. 1.

Description of reference numerals: 1, porcelain seat 2, shell 3, thermal insulation layer 4, attemperating unit 5, reflector 5-1, top reflecting plate 5-2, lateral reflection plate 6, heat radiation assembly 6-1, optical wave tube 6-2, optical wave tube are installed detent mechanism 6-21, optical wave tube fixed head 6-22, optical wave tube geometrical clamp 6-3, light ray radiation plate 7, shell fastener.

The specific embodiment

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

As shown in Figure 1-Figure 3, a kind of controllable temperature luminous energy of the utility model electric heating brick, it comprises thermal insulation layer 3, attemperating unit 4, reflector 5 and the heat radiation assembly 6 of porcelain seat 1, shell 2 and interior setting thereof, and porcelain seat 1 is arranged on shell 2 tops, with fixed screw by porcelain seat and shell locking; Heat radiation assembly is drawn porcelain seat 1, reflector 5 is arranged between thermal insulation layer 3 and heat radiation assembly 6, heat radiation assembly 6 comprises optical wave tube 6-1, optical wave tube installation detent mechanism 6-2 and light ray radiation plate 6-3, light ray radiation plate 6-3 is connected and forms the cavity of installation optical wave tube with reflector 5, attemperating unit 4 is electrically connected with optical wave tube 6-1, and leadedly draws from porcelain seat.The sidewall of shell is provided with shell fastener 7, and the sidepiece of light ray radiation plate upwards turns down and is fixed in shell fastener.Optical wave tube is installed detent mechanism 6-2 and is comprised optical wave tube fixed head 6-21, optical wave tube geometrical clamp 6-22, and optical wave tube 6-1 is arranged between the optical wave tube fixed head 6-21 of both sides, and optical wave tube geometrical clamp 6-22 is arranged on optical wave tube fixed head 6-21; Reflector 5 is made up of top reflecting plate 5-1 and lateral reflection plate 5-2, and lateral reflection plate 5-2, optical wave tube fixed head 6-21 intert into intersecting parallels structure mutually.

Attemperating unit 4 is arranged in thermal insulation layer 3, and porcelain seat 1 is provided with the porcelain seat hole corresponding with the lead-in wire of attemperating unit.By attemperating unit 4, temperature signal is converted to the signal of telecommunication, can regulates and controls according to actual needs luminous energy electric heating brick temperature.

In the present embodiment, optical wave tube 6-1 adopts U-shaped optical wave tube, and the pin of U-shaped optical wave tube inserts the optical wave tube fixed head of a side, and the U-shaped end of the other end is inserted in optical wave tube geometrical clamp 6-22, and inserts opposite side optical wave tube fixed head and fix.General U-shaped red halide torch or the carbon fiber electric heating tube of adopting of U-shaped optical wave tube.

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, do not departing under the prerequisite of the utility model creation design; can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (7)

1. a controllable temperature luminous energy electric heating brick, it is characterized in that, it comprises thermal insulation layer, attemperating unit, reflector and the heat radiation assembly of porcelain seat, shell and interior setting thereof, porcelain seat is arranged on shell, reflector is arranged between thermal insulation layer and heat radiation assembly, and heat radiation assembly comprises optical wave tube, optical wave tube installation detent mechanism and light ray radiation plate, and light ray radiation plate is connected and forms the cavity of installation optical wave tube with reflector, attemperating unit is electrically connected with optical wave tube, and leadedly draws from porcelain seat.

2. a kind of controllable temperature luminous energy electric heating brick according to claim 1, is characterized in that, the sidewall of described shell is provided with shell fastener, and the sidepiece of light ray radiation plate upwards turns down and is fixed in shell fastener.

3. a kind of controllable temperature luminous energy electric heating brick according to claim 1, it is characterized in that, described optical wave tube is installed detent mechanism and is comprised optical wave tube fixed head, optical wave tube geometrical clamp, and optical wave tube is arranged between the optical wave tube fixed head of both sides, and optical wave tube geometrical clamp is arranged on optical wave tube fixed head; Reflector is made up of top reflecting plate and lateral reflection plate, and lateral reflection plate, optical wave tube fixed head intert into intersecting parallels structure mutually.

4. a kind of controllable temperature luminous energy electric heating brick according to claim 1, is characterized in that, described attemperating unit is arranged in thermal insulation layer, and porcelain seat is provided with the porcelain seat hole corresponding with the lead-in wire of attemperating unit.

5. a kind of controllable temperature luminous energy electric heating brick according to claim 1, it is characterized in that, described optical wave tube adopts U-shaped optical wave tube, and the pin of U-shaped optical wave tube inserts the optical wave tube fixed head of a side, the U-shaped end of the other end is inserted in optical wave tube geometrical clamp, and inserts opposite side optical wave tube fixed head and fix.

6. a kind of controllable temperature luminous energy electric heating brick according to claim 5, is characterized in that, described U-shaped optical wave tube is U-shaped red halide torch or carbon fiber electric heating tube.

7. a kind of controllable temperature luminous energy electric heating brick according to claim 1, is characterized in that, described light ray radiation plate is provided with cellular mesh, surface recombination far infrared coating.

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