CN102149226B - Infrared electromagnetic wave heater - Google Patents

Abstract

The invention discloses an infrared electromagnetic wave heater and relates to a heater, which solves the problems that the existing heater has low electricity energy utilization rate and is inconvenient to use. The infrared electromagnetic wave heater comprises a box body which is an opening box body, a plurality of infrared blackbody radiation electromagnetic heat conductance pipes arranged at the opening surface of the box body, and a power distribution controller connected with a power group line of the infrared blackbody radiation electromagnetic heat conductance pipes, wherein the opening box body consists of a first side plate, a second side plate, a top plate, a bottom plate, and a back plate; the first side plate is provided with a plurality of side plate convex strips; the second side plate is provided with a plurality of side plate grooves matched with the side plate convex strips; the top plate is provided with a plurality of top plate convex strips; the bottom plate is provided with a plurality of bottom plate grooves matched with the top plate convex strips; the back plate is provided with a rotary suspension bracket. The heater is energy saving; and the position of the heater is conveniently adjusted according to the rotation of the suspension bracket to reach better effect of drying treatment. The heater is manufactured into a portable box body shape, and a plurality of box bodies can be freely combined into a group heater according to the using demands, so as to facilitate the sufficient utilization of the heater.

Description

Electromagnetic infrared wave heating device

Technical field

The present invention relates to industrial heating, drying drying equipment (hereinafter referred to as heat drying device), refer in particular to a kind of industrial electromagnetic infrared wave heating device.

Background technology

At present, the scope of application of heat drying device is very universal, not only relates to the normal industry such as application, plastic cement, chemical industry, pharmacy, grinding tool abrasive material, building materials, food, weaving, welding, storage battery, papermaking, also relates to the manufacturing industry of all kinds of automotive.

The industry competition manufacturing heat drying device is also therefore and very fierce.Current, how to reduce the product cost of heat drying device, improve product competitiveness, it is the key problem that faces of each enterprise in the industry, and can consume in a steady stream in production cost and occupy significant proportion, therefore, saving energy resource consumption is efficiently effectively reduce enterprise product production cost, the main target of enhancing competitiveness.

Conventional heat drying device is thermal source mainly with fuel oil, fire coal, Resistant heating, its shortcoming is that equipment is complicated, most equipment need assemble high-power air supplying and exhausting system, unreasonable structure, and heat-energy losses is serious, utilization rate of electrical is low, consume energy and blowdown is many, energy waste is serious.In addition, traditional heat drying device is generally all arranged in a frame, if when will will carry out drying process to the surrounding of jobbie, the constantly object of mobile dried process, the position of continuous mobile heat drying device, use very inconvenient, and the effect of the dry process of impact.In addition, because user is according to the size of field of employment, need the heat drying device being equipped with different size heating power, once place change, new equipment must be added again, cause waste.

Summary of the invention

The object of the invention is, in order to overcome prior art Problems existing, to provide a kind of energy savings, being conducive to environmental protection and the Multifunction infrared electromagnetic wave heating device that can carry out position adjustments and arbitrarily combinationally use as required.

The object of the invention is to be achieved through the following technical solutions:

A kind of electromagnetic infrared wave heating device, comprising:

Casing 100, the opening box body be made up of the first side plate 110, second side plate 120, top board 130, base plate 140, rear plate 150; First side plate 110 is provided with several side plate raised lines 111, second side plate 120 is provided with and several side plate grooves 121 that several side plate raised line 111 positions are symmetrical, quantity is identical on the first side plate 110, and the length of side plate raised line 111 is less than the length of side plate groove 121; Top board 130 is provided with several top board raised lines 131, and base plate 140 is provided with and several several bottom plate grooves that top board raised line 131 position is symmetrical, quantity is identical on top board 130, and the length of top board raised line 131 is less than the length of bottom plate groove; Rear plate 150 is fixed with hook 151;

Suspended scaffold 300, comprising: hanger 310, hanger 310 is arranged a circular shaft 311, is also provided with installing hole; First cantilever 320, its one end is placed on circular shaft 311, and the other end is fixed with a suspension circular shaft 330; Second cantilever 340, its one end is placed on suspension circular shaft 330, and the other end fixes one piece of link plate 350; Described link plate 350 is provided with hanging hole 351, and link plate 350 is hung on the hook 151 of the rear plate 150 of described casing 100 by hanging hole 351; The two ends of suspension circular shaft 330 and the position between the first cantilever 320 and the second cantilever 340 are provided with the block 331 that diameter is greater than this suspension circular shaft 330;

Several infrared blackbody radiation electromagnetic heat conductive pipe 10, is arranged on the opening surface of casing 100, and one end of the power pack line 16 of each infrared blackbody radiation electromagnetic heat conductive pipe 10 is drawn outside casing 100;

Distribution controller 200, several mains switches 210 that built-in quantity is identical with infrared blackbody radiation electromagnetic heat conductive pipe 10, one end of each mains switch 210 all connects one for plug 220, and the other end draws the connection of the power pack line 16 outside casing 100 with an infrared blackbody radiation electromagnetic heat conductive pipe 10 respectively.

Described first side plate 110 arranges several through wires hole.

The structure of described infrared blackbody radiation electromagnetic heat conductive pipe 10 is:

Infrared blackbody radiation electromagnetic heat conductive pipe 11, be the infrared ray electric magnetic conductance heat pipe that a kind of resistance wire containing nanosize metal oxide forms, its two ends are packed by insulating ceramics assembly 13;

Heat energy back plate 12, be installed on a support 14, insulating ceramics assembly 13 is fixedly installed on heat energy back plate 12;

Described power pack line 16, by splicing ear 15, one end is drawn outside casing 100 through the through wires hole on described casing 100, and the other end connects the resistance wire of described infrared blackbody radiation electromagnetic heat conductive pipe 10.

Described heater is assembled into colony's heater, and its structure is:

Colony's heater is assembled into by n electromagnetic infrared wave heating device, n is the positive integer of > 1, or the top board raised line 131 bottom plate groove of a casing being above embedded at a casing below superposes assembled, or on the side plate raised line 111 side plate groove 121 of the casing in the left side being embedded at the casing in the right side, left and right is assembled;

When casing n >=3 of assembling, or described superposition is assembled, or described left and right is assembled, or described superposition is simultaneously assembled assembled with left and right;

Distributor frame 400, put n distribution controller 200, it comprises:

M resettlement groove 410, m is >=positive integer of n, the distribution controller 200 of an each casing 100 of correspondence is settled in each resettlement groove 410, each resettlement groove 410 arranges a supply socket 420, the described of each distribution controller inserts in corresponding supply socket 420 for plug 220, and each supply socket 420 is all always connected for plug 430 with one.

Described total plug 430 that supplies is connected with a total distribution controller 500, and total distribution controller 500 adopts a PLC 510.

Described PLC 510 connects a display unit 520 and a warning device 530.

Beneficial effect of the present invention:

Electromagnetic infrared wave heating device of the present invention is than the heat drying device synthesis energy saving more than 50% of traditional heating mode (fire coal, fuel oil, combustion gas and common electric heating), use safety, reliable, easy for installation, quick, easy to maintenance, significantly reduce Enterprise Integrated operation cost, and there is the advantages such as effects of energy saving and emission reduction is remarkable, be conducive to environmental protection.Heater of the present invention has several functions: on after panel box, be provided with suspended scaffold, by suspended scaffold, this device is installed on indoor wall, and pass through the rotation of suspended scaffold and fold, regulate the position of heater easily, to carry out drying process from different perspectives to the object of dried process, substantially increase the effect of dry process; In addition, this device makes portable box shape, and user, can the multiple casing of combination in any according to the size of field of employment, forms colony's heater, is conducive to making full use of of equipment, has saved production cost.This device can be widely used in the industries such as application, plastic cement, chemical industry, pharmacy, grinding tool abrasive material, building materials, food, weaving, welding, storage battery, papermaking, Rail car manufacture.

For further illustrating above-mentioned purpose of the present invention, design feature and effect, below with reference to accompanying drawing, the present invention is described in detail.

Accompanying drawing explanation

Fig. 1 is the structural representation of electromagnetic infrared wave heating device of the present invention;

Fig. 2 is the structural representation of Fig. 1 middle infrared (Mid-IR) blackbody radiation electromagnetic heat conductive pipe;

Fig. 3 is the back side panel schematic diagram of casing in Fig. 1;

Fig. 4 is one of the embodiment of multiple electromagnetic infrared wave heating device colonies of the present invention use schematic diagram;

Fig. 5 is two schematic diagrames of the embodiment that multiple electromagnetic infrared wave heating device colony of the present invention uses.

Embodiment

Accompanying drawing below in conjunction with embodiment is described in detail to the specific embodiment of the present invention.

See Fig. 1, Fig. 3, heater structure of the present invention is as follows:

Casing 100, by the first side plate 110, second side plate 120, top board 130, base plate 140, the opening box body that rear plate 150 forms, first side plate 110 is provided with several side plate raised lines 111 (the present embodiment is 2), second side plate 120 is provided with several side plate raised line 111 positions on the first side plate 110 symmetrical, several side plate grooves 121 that quantity is identical, the length of side plate raised line 111 is less than the length of side plate groove 121, top board 130 is provided with several top board raised lines 131 (the present embodiment is 2), base plate 140 is provided with several top board raised line 131 positions on top board 130 symmetrical, several bottom plate grooves (not shown) that quantity is identical, the length of top board raised line 131 is less than the length of bottom plate groove.First side plate 110 arranges several through wires hole, for the power pack line threading of following infrared blackbody radiation electromagnetic heat conductive pipe 10.Rear plate 150 is fixed with hook 151.The casing 100 of this device, according to the size of field of employment, can be used alone; Also can be assembled into colony's heater by n (n is the positive integer of > 1) individual electromagnetic infrared wave heating device to use, when colony uses, can combination in any use (bottom plate groove of a casing is above embedded on the top board raised line 131 of a casing below, namely superposes assembled use up and down) up and down; Also left and right combination in any (being embedded at by the side plate groove 121 of the casing in the left side on the side plate raised line 111 of the casing in the right side, i.e. the assembled use in left and right) can be used; When casing n >=3 of assembling, employing same method, both can superpose assembled up and down or left and right is assembled, also can combine up and down and use together, form colony's heater, be conducive to making full use of of equipment.

Suspended scaffold 300, comprising: hanger 310, hanger 310 is arranged a circular shaft 311, is also provided with installing hole (suspended scaffold 300 is fixed on indoor wall by the interior bolt of installing hole); First cantilever 320, its one end is placed on circular shaft 311, and the other end is fixed with a suspension circular shaft 330; Second cantilever 340, its one end is placed on suspension circular shaft 330, and the other end fixes one piece of link plate 350, and link plate 350 is provided with hanging hole 351, and link plate 350 is hung on the hook 151 of the rear plate 150 of described casing 100 by hanging hole 351; The two ends of suspension circular shaft 330 and the position between the first cantilever 320 and the second cantilever 340 are provided with the block 331 that diameter is greater than this suspension circular shaft 330.During use, casing 100 is suspended on indoor wall by suspended scaffold 300, and all around can be moved in certain distance around the rotation of suspension circular shaft 330 around the rotation of circular shaft 311 and the second cantilever 340 by the first cantilever 320, process to carry out drying from different perspectives to the object of dried process.

Several infrared blackbody radiation electromagnetic heat conductive pipe 10 (the present embodiment adopts 5), be arranged on the opening surface of casing 100, as shown in Figure 2, the structure of infrared blackbody radiation electromagnetic heat conductive pipe 10 is: infrared blackbody radiation electromagnetic heat conductive pipe 11, be the infrared ray electric magnetic conductance heat pipe that a kind of resistance wire containing nanosize metal oxide forms, its two ends are packed by insulating ceramics assembly 13; Heat energy back plate 12, be installed on a support 14, insulating ceramics assembly 13 is fixedly installed on heat energy back plate 12; Power pack line 16, by splicing ear 15, one end is drawn outside casing 100 through the through wires hole on casing 100, and the other end connects the resistance wire of described infrared blackbody radiation electromagnetic heat conductive pipe 10.Infrared blackbody radiation electromagnetic heat conductive pipe 10 can make heating-up temperature bring up to 1300 DEG C (heating-up temperatures of general electromagnetism heat pipe 600 DEG C-800 DEG C), the raising of base temperature can cause the high radiance of 4 powers, the high temperature energy passed through is changed into microwave section hyperthermia radiation energy by it, with hot photon beam to service area orientation conveying, its wavelength is from visible 0.32 micron to 200 microns far infrared section, form very uniform radiation field, there are less than 1300 DEG C high temperature excited vibrational radiation characteristics.

Distribution controller 200, several mains switches 210 that built-in quantity is identical with infrared blackbody radiation electromagnetic heat conductive pipe 10, one end of each mains switch 210 all connects one for plug 220, the one end of the power pack line 16 that the other end of each mains switch 210 is drawn outside casing 100 with an infrared blackbody radiation electromagnetic heat conductive pipe 10 is respectively connected, i.e. the corresponding mains switch 210 of each infrared blackbody radiation electromagnetic heat conductive pipe 10.

See one of the embodiment that Fig. 4, Fig. 4 are multiple electromagnetic infrared wave heating device colonies of the present invention use schematic diagram.

In the present embodiment, colony's heater (the present embodiment is 6: 101-106) is assembled into by n (n is the positive integer of > 1) individual electromagnetic infrared wave heating device, n casing (100) can be superposed assembled or left and right and be bolted together by colony's heater as mentioned above up and down, also an interval colony can be had each other to use (the present embodiment has an interval each other), because each electromagnetic infrared wave heating device has a distribution controller 200, (the present embodiment is 6, be denoted as: 201-206), now just need a unified distributor frame 400 of putting n distribution controller, it comprises: the m positive integer of n (m is >=) individual resettlement groove 410, the distribution controller of an each casing of correspondence is settled in each resettlement groove 410, each resettlement groove 410 arranges a supply socket 420, the plug 220 that supplies of each distribution controller inserts in corresponding supply socket 420, each supply socket 420 is all always connected for plug 430 with one.

See two schematic diagrames that Fig. 5, Fig. 5 are the embodiment that multiple electromagnetic infrared wave heating device colony of the present invention uses.

When the requirement of dried process is higher, above-mentioned total plug 430 that supplies is connected with a total distribution controller 500, total distribution controller 500 adopts a PLC 510, by heating-up temperature, the heating time of the automatic control n electromagnetic infrared wave heating device of PLC 510, for easy to use, PLC 510 connects a display unit 520 and a warning device 530, shows the relevant data of heating and carries out sound and light alarm to over range heating.

This device can be placed on separately local arbitrarily use; Also can be suspended on separately on wall and use (now can within the specific limits adjusting position); Also colony can use, form colony's heater, assembled or left and right can be superposed when colony heater uses up and down and to be bolted together use (as mentioned above), also can have an interval use between monomer.In a word, heater of the present invention, due to its structure uniqueness, can select arbitrarily the mode of storing with the need during use, very practical.

Those of ordinary skill in the art will be appreciated that, above embodiment is only used to object of the present invention is described, and be not used as limitation of the invention, as long as in essential scope of the present invention, the change of the above embodiment, modification all will be dropped in the scope of claim of the present invention.

Claims (3)

1. an electromagnetic infrared wave heating device, is characterized in that comprising:

Casing (100), the opening box body be made up of the first side plate (110), the second side plate (120), top board (130), base plate (140), rear plate (150); First side plate (110) is provided with several side plate raised line (111) and several through wires holes, second side plate (120) is provided with several side plate grooves (121) symmetrical with several side plate raised line (111) positions on the first side plate (110), that quantity is identical, and the length of side plate raised line (111) is less than the length of side plate groove (121); Top board (130) is provided with several top board raised lines (131), base plate (140) is provided with and several several bottom plate grooves that top board raised line (131) position is symmetrical, quantity is identical on top board (130), and the length of top board raised line (131) is less than the length of bottom plate groove; Rear plate (150) is fixed with hook (151);

Suspended scaffold (300), comprising: hanger (310), hanger (310) is arranged a circular shaft (311), is also provided with installing hole; First cantilever (320), its one end is placed on circular shaft (311), and the other end is fixed with suspension circular shaft (330); Second cantilever (340), its one end is placed in suspension circular shaft (330), and the other end fixes one piece of link plate (350); Described link plate (350) is provided with hanging hole (351), and link plate (350) is hung on the hook (151) of described casing (100) plate (150) afterwards by hanging hole (351); The two ends of suspension circular shaft (330) and the position between the first cantilever (320) and the second cantilever (340) are provided with the block (331) that diameter is greater than this suspension circular shaft (330);

Several infrared blackbody radiation electromagnetic heat conductive pipe (10), be arranged on the opening surface of casing (100), casing (100) is drawn outward in one end of the power pack line (16) of each infrared blackbody radiation electromagnetic heat conductive pipe (10); The structure of described infrared blackbody radiation electromagnetic heat conductive pipe (10) is:

Infrared blackbody radiation electromagnetic heat conductive pipe (11), be the infrared ray electric magnetic conductance heat pipe that a kind of resistance wire containing nanosize metal oxide forms, its two ends are packed by insulating ceramics assembly (13);

Heat energy back plate (12), be installed on a support (14), insulating ceramics assembly (13) is fixedly installed on heat energy back plate (12);

Described power pack line (16), by splicing ear (15), casing (100) is drawn outward through the through wires hole on described casing (100) in one end, and the other end connects the resistance wire of described infrared blackbody radiation electromagnetic heat conductive pipe (10);

Distribution controller (200), several mains switches (210) that built-in quantity is identical with infrared blackbody radiation electromagnetic heat conductive pipe (10), one end of each mains switch (210) all connects one for plug (220), and the other end draws the connection of casing (100) power pack line (16) outward with an infrared blackbody radiation electromagnetic heat conductive pipe (10) respectively;

Described heater is assembled into colony's heater, and its structure is:

Colony's heater is assembled into by n electromagnetic infrared wave heating device, n is the positive integer of > 1, or the upper superposition of the top board raised line (131) bottom plate groove of a casing being above embedded at a casing is below assembled, or the upper left and right of the side plate raised line (111) the side plate groove (121) of the casing in the left side being embedded at the casing in the right side is assembled;

When casing n >=3 of assembling, or described superposition is assembled, or described left and right is assembled, or described superposition is simultaneously assembled assembled with left and right;

Distributor frame (400), put n distribution controller (200), it comprises:

M resettlement groove (410), m is >=positive integer of n, the distribution controller (200) of an each casing of correspondence (100) is settled in each resettlement groove (410), each resettlement groove (410) arranges a supply socket (420), the described of each distribution controller inserts in corresponding supply socket (420) for plug (220), and each supply socket (420) is all always connected for plug (430) with one.

2. electromagnetic infrared wave heating device as claimed in claim 1, is characterized in that:

Described total plug (430) that supplies is connected with a total distribution controller (500), and total distribution controller (500) adopts a PLC (510).

3. electromagnetic infrared wave heating device as claimed in claim 2, is characterized in that:

Described PLC (510) connects a display unit (520) and a warning device (530).