CN2503913Y - Far infrared transmitter - Google Patents

Abstract

The utility model relates to a far infrared emitting device, which comprises an emitting device main body, a burner, a heat generating part, a heat eliminating part. The emitting device main body is formed by a plurality of connected frames, the two ends of the heat generating pipeline which is supported by the frames are connected with the burner and the heat generating part of the chimney, and the heat eliminating part is formed by a plurality of emitters which are contacted with the outer side of the heat generating pipeline and fixed on the frames. The emitting device can be used during the movement of the burner, so as to prevent the service efficiency from reducing, and the emitting device can be used continuously.

Description

Far infrared transmitter

Technical field

This utility model relates to far infrared transmitter, relate to such far infrared transmitter specifically, it by framework, be contained in that heat-generating pipe two ends on the said frame are connected with the heat generating components of burner and chimney, a plurality of emitter is fixed on the framework and forms with the contacted thermal component in the above-mentioned heat-generating pipe outside.

Background technology

Far infrared transmitter known to us is on chassis movably, emitters such as hornblend are piled up with the method for laying bricks, the chassis that moves of piling up above-mentioned emitter is put into kiln, be heated to uniform temperature, indoor the immigration of the emitter of above-mentioned heating with guide rail by the chassis that moves, the people who has a bath is taking a shower from the emitter liberated heat.

But aforesaid radiological unit; because pyritous emitter directly is exposed; when moving, chassis catches fire and the security incident of user through regular meeting; not only emitter fully the heating just can not use; and heat loss is arranged when moving heated emitter, efficient reduces, and must interrupt using during the emitter cooling; heat again, the shortcoming that can not use is continuously arranged.

For continuous use, when adopting many chassis of piling up emitter to be used alternatingly, though can use continuously, but need broad space, the direct heating emitter can only use high-rank fuel, and unit price improves, chassis to pile up emitter on the whole, bring problems such as prices of raw and semifnished materials increase.

Content of the present utility model

This utility model proposes in order to improve the above-mentioned problem that existed in the past, its objective is the fixed launcher that setting need not chassis be moved, the danger that security incident takes place during use prevents trouble before it happens, discharger just can use in the time of the burner action, efficient reduces in preventing to use, and provides the far infrared transmitter that can use continuously.

In order to achieve the above object, from technical elements, this utility model is a far infrared transmitter, this far infrared transmitter by the discharger main body, it connecting the burner be contained in the heat-generating pipe two ends on the said frame, and the heat generating components of chimney, a plurality of emitter are fixed on the framework and the thermal component that contacts with the above-mentioned heating pipeline outside is formed.

Utilize far infrared transmitter of the present utility model, need not move by chassis, be arranged to fixed discharger, security incident is prevented trouble before it happens, can use discharger in the time of the burner action, the efficient that causes when preventing to use reduces, fixed discharger can use continuously, occupation space minimum during use, the action required personnel are minimum during use, the indirect emitter, can not limit the character of fuel, prevent that unit price from improving, be arranged to emitter is only piled up in the outside of heating pipeline to have the effect that the mounting cost of preventing increases.

Brief Description Of Drawings

Fig. 1 adopts the sketch of far infrared transmitter of the present utility model for expression.

Fig. 2 does not install the sketch of the far infrared transmitter of this utility model expelling plate for expression.

Fig. 3 a, b adopt the side and the planar structure chart of this utility model discharger for expression.

Fig. 4 adopts the cross-section structure of the main installation position of discharger burner of the present utility model for expression.

Fig. 5 a, b adopt the outside drawing and the heating pipeline sketch of the discharger of other embodiment of this utility model for expression.Label declaration

110 frameworks, 120 through holes

210 heating pipeline 220b burners

220d heat exchanger plate 310 open spaces

320 expelling plates

Below in conjunction with accompanying drawing embodiment of the present utility model is elaborated.

Fig. 1 adopts far infrared transmitter sketch of the present utility model for expression, Fig. 2 does not install the far infrared transmitter sketch of expelling plate of the present utility model for expression, Fig. 4 is the diagram of the burner installation position main cross sections structure of employing this utility model discharger, and this utility model is made up of discharger main body 100 and heat generating components 200, thermal component 300.

Above-mentioned discharger main body 100 inboard frameworks 110 for formation supporting surface S interconnect and are integral, and keep certain shape, and a plurality of through holes 120 are arranged on the said frame 110.

Being located at the heat generating components 200 of said frame 110 inboards, is that device 220 that produces heat and chimney 230 are connected crooked heating pipeline 210 two ends, links into an integrated entity, and forms certain stream, supports by support rack 240.

Above-mentioned heating pipeline 210 is made helically coiled.

Above-mentioned electro-heat equipment 220 is made up of the burner 220b, arched girder (girder) 220c and the heat exchanger plate 220d that makes of bioceramic material that are connected heating pipeline 210 1 ends with ring flange 220a.

Above-mentioned beam 220c is the one that is formed by a plurality of steps, and heat exchanger plate 220d internal diameter is made to a direction and expanded the form of opening.

Thermal component 300 is arranged to and above-mentioned heating pipeline 210 outer side contacts, the structure of thermal component 300 is, the open space 310 that forms in the said frame 110 is piled up on supporting surface S by a lot of expelling plate 320 sidewards, emitter 330 is placed in the through hole 120 of said frame 110, and is fixing respectively expelling plate 320 again.

Effect of the present utility model to such formation describes below.

, medial support face S is made of one to shown in Figure 5 as Fig. 1, allows a plurality of frameworks 110 interconnect, make the discharger main body 100 of hexahedron, cylinder, the polygon prism bodily form, the people of use be sitting in it around the heat of taking a shower and shedding.

Discharger main body 100 inboards that be made up of the framework 110 of above-mentioned a plurality of connections this moment, be provided with the heating pipeline of making of stainless steel material 210, as shown in Figure 4 and Figure 5, above-mentioned heating pipeline 210 is arranged to the position of a plurality of bendings, makes it consistent with the profile of main body 100, dispels the heat to above-mentioned discharger main body 100 outsides, change stream simultaneously, when in heating pipeline 210, passing through high temperature air, the evolution of heat, and be dispersed into its outside.

One end of above-mentioned heating pipeline 210 connects electro-heat equipment 220, and the other end connects chimney 230, and the heat that spreads out of from the burner 220b of electro-heat equipment 220 is carried out heat exchange in the time of by heating pipeline 210, and the burning gases of said burner 220b are discharged by chimney.

Above-mentioned electro-heat equipment 220 is made up of the heat exchanger plate 220d of burner 220b, beam 220c and a side, be completing combustion in burner 220b, burner 220b is connected a side of heating pipeline 210 with ring flange, do not limit the kind of fuel, can correspondingly select for use to be fit to the burner that various fuel are used.

Above-mentioned heat exchanger plate 220d adopts ceramic material to make, and makes to expand along flame direction of advance diameter in internal diameter one side simultaneously and opens, and utilizes accumulative heat to make that unburned fuel is gasified totally among the burner 220b, in heating pipeline 210 internal combustion.

Above-mentioned beam 220c plays effect identical with heat exchanger plate and effect with there being the ceramic material of step to make.

Pile up a plurality of expelling plates 320, utilize the supporting surface S of said frame 110 to support, closely contact the expelling plate 320 of the bioceramic material that the heat transferred of heating pipeline 210 forms with natural serpentinite, hornblend and germanium high temperature sintering with the heating pipeline 210 that is located at framework 110 inboards.

This moment, above-mentioned expelling plate 320 and emitter 330 were made of the general bioceramic material of emitting far-infrared material, when the heat that utilizes heating pipeline 210 to disperse heats, launched far infrared.

Claims (5)

1. far infrared transmitter is characterized by: the framework (110) that forms supporting surface (S) is interconnected to certain shape, and a plurality of through holes (120) are arranged on said frame (110), constitutes the discharger main body (100) of one like this; On the heating pipeline (210) of the inboard bending that forms certain stream of said frame (110), connect electro-heat equipment (220) and chimney (230) respectively and the heat generating components (200) of formation one; Pile up a plurality of expelling plates (320) on the supporting surface (S) of the framework (110) outside above-mentioned heating pipeline (210), make open space (320) sealing between framework (110), and in through hole (120), place emitter (330), constitute thermal component (300).

2. far infrared transmitter as claimed in claim 1 is characterized by: the framework (110) of piling up above-mentioned expelling plate (320) is made the hexagonal cylindricality, is provided with the heating pipeline (210) of helically coiled in its inboard.

3. far infrared transmitter as claimed in claim 1 is characterized by: above-mentioned electro-heat equipment (220) is made up of the burner (220b), beam (220c) and the heat exchanger plate (220d) that are connected heating pipeline (210) with ring flange (220a).

4. as claim 1 or 3 described far infrared transmitters, it is characterized by: above-mentioned heat exchanger plate (220d) is made with bioceramic material, makes in the inboard along gas flow direction and expands the stream of opening.

5. as claim 1 or 3 described far infrared transmitters, it is characterized by: above-mentioned beam (220c) is made with the bioceramic material with step.

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