CN208887107U - A kind of high-efficiency hot-blast machine expanding heat dissipation range - Google Patents

Abstract

The utility model discloses the high-efficiency hot-blast machines that one kind can expand heat dissipation range, including air-heater ontology, the side of the air-heater ontology is equipped with ventilation duct, it is opened up in the top inner wall of the ventilation duct fluted, the same guide rod is welded on the two sides inner wall of the groove, rectangular opening is offered in the top inner wall of the groove, sliding panel is slidably connected on the outer wall of the guide rod, through-hole is offered on the sliding panel, one end of the guide rod runs through through-hole and extends to the side of sliding panel, is arranged with tension spring on the outer wall of the guide rod.The utility model structure is simple, under the cooperation of driving motor and torsional spring, rotor plate can be made to carry out reciprocally swinging, and the hot gas that deflector can blow out air-heater ontology is guided on rotor plate, so that rotor plate can change the direction of the hot gas of air-heater ontology blowout, and then heat dissipation range is expanded, and radiating efficiency is accelerated, it is easy to use.

Description

A kind of high-efficiency hot-blast machine expanding heat dissipation range

Technical field

The utility model relates to air-heater technical fields, more particularly to a kind of high-efficiency hot-blast machine that can expand heat dissipation range.

Background technique

Notification number is that the utility model of CN207622263U discloses a kind of air-heater, including air inlet, casing, air blower And air outlet；Air inlet is set to casing side；Air outlet is placed in the casing other side, and dust removal filter is arranged in air inlet； Air blower is set to casing internal, and casing internal air blower is provided with first heater；Casing further includes heat preservation parietal layer, casing Radiation protective layer is arranged in inner wall.The first heater of the utility model provides heat, dedusting for providing heat for air blower Filter provides clean air；The preferred insulating rubber of heat preservation parietal layer, insulation adhesive tape, ceramic fibre that casing includes etc., reach guarantor The effect of temperature；Radiation protective layer is preferably tinfoil paper layer, prevents the loss of radiations heat energy, and then plays the role of heat preservation.

But the air outlet of the air-heater be it is fixed, then a direction can only be heated, radiating efficiency is slow, only suitable For local heating, it can not achieve heating on a large scale and require, so it is proposed that a kind of High Efficiency Thermal that can expand heat dissipation range Blower, to solve the problems, such as above-mentioned be previously mentioned.

Utility model content

Purpose of the utility model is to solve disadvantages existing in the prior art, and the one kind proposed can expand heat dissipation The high-efficiency hot-blast machine of range.

To achieve the goals above, the utility model adopts the technical scheme that

A kind of high-efficiency hot-blast machine expanding heat dissipation range, including air-heater ontology, the side of the air-heater ontology are set There is ventilation duct, open up fluted in the top inner wall of the ventilation duct, is welded with same lead on the two sides inner wall of the groove Bar offers rectangular opening in the top inner wall of the groove, sliding panel, the sliding is slidably connected on the outer wall of the guide rod Through-hole is offered on plate, one end of the guide rod runs through through-hole and extends to the side of sliding panel, covers on the outer wall of the guide rod Equipped with tension spring, side of the both ends of the tension spring respectively with the side inner wall of groove and sliding panel is mutually welded, the sliding panel Top runs through rectangular opening and extends to the top of ventilation duct, and the two sides of the sliding panel are slided with the two sides inner wall of rectangular opening respectively Connection, a lateral roof of the sliding panel is welded with arc panel, driving motor is fixedly installed at the top of the ventilation duct, described Ball rod is vertically welded on the output shaft of driving motor, one end of the ball rod is in contact with the side of arc panel, described Be symmetrically welded with column in the top inner wall of ventilation duct, the column is located at the side of groove, two columns it is close to each other one Side is rotatably connected to the same rotor plate, and the top side of the rotor plate is welded with triangular plate, the bottom of the sliding panel It is in contact at the top of triangular plate.

Preferably, rectangular cover is fixedly installed at the top of the ventilation duct, the driving motor and sliding panel are respectively positioned on square In shape cover.

Preferably, deflector is fixedly installed in the top inner wall of the ventilation duct, the deflector is located at the one of groove Side.

Preferably, the bottom of the driving motor is welded with fixed plate, and the corner location of the fixed plate offers spiral shell Keyhole, the bolt hole internal screw thread are connected with bolt, and the driving motor is fixedly mounted on ventilation duct by bolt hole and bolt Top.

Preferably, linear bearing is welded on the inner wall of the through-hole, one end of the guide rod through linear bearing and is prolonged The side of sliding panel is extended to, and guide rod is slidably connected with linear bearing.

Preferably, the two sides of the rotor plate are welded with shaft, one end that two shafts are located remotely from each other respectively with two Column side rotation connection close to each other, is arranged with torsional spring on the outer wall of the shaft, the both ends of the torsional spring respectively with turn It is mutually welded with the side of column the side of movable plate.

Compared with prior art, the utility model has the beneficial effects that driving motor can drive ball rod in arc panel On slided, ball rod can be detached from arc panel, then tension spring can pull sliding panel to carry out sliding on triangular plate and can band Dynamic triangular plate is rotated, and triangular plate can drive rotor plate to be rotated, while can make torsional spring deformation occurs, ball rod Again arc panel can be contacted and squeezed with arc panel, then ball rod can drive sliding panel to carry out transverse shifting, then sliding panel meeting The reverse slide on triangular plate, torsional spring can be such that rotor plate resets, then under the cooperation of driving motor and torsional spring, can make to turn Movable plate carries out reciprocally swinging, and the hot gas that deflector can blow out air-heater ontology is guided on rotor plate.

The utility model structure is simple, under the cooperation of driving motor and torsional spring, rotor plate can be made to carry out reciprocally swinging, And the hot gas that deflector can blow out air-heater ontology is guided on rotor plate, so that rotor plate can change air-heater ontology The direction of the hot gas of blowout, and then heat dissipation range is expanded, radiating efficiency is accelerated, it is easy to use.

Detailed description of the invention

Fig. 1 be the utility model proposes one kind can expand heat dissipation range high-efficiency hot-blast machine structural schematic diagram；

Fig. 2 be the utility model proposes one kind can expand heat dissipation range high-efficiency hot-blast machine part A enlarged drawing；

Fig. 3 be the utility model proposes one kind can expand heat dissipation range high-efficiency hot-blast machine ventilation duct top view；

Fig. 4 be the utility model proposes one kind can expand heat dissipation range high-efficiency hot-blast machine rotor plate bottom view；

Fig. 5 be the utility model proposes one kind can expand heat dissipation range high-efficiency hot-blast machine sliding panel top view.

In figure: 1 air-heater ontology, 2 rotor plates, 3 ventilation ducts, 4 deflectors, 5 grooves, 6 tension springs, 7 guide rods, 8 driving motors, 9 ball rods, 10 arc panels, 11 sliding panels, 12 rectangular covers, 13 triangular plates, 14 columns, 15 rectangular openings, 16 torsional springs, 17 shafts.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-5, a kind of high-efficiency hot-blast machine expanding heat dissipation range, including air-heater ontology 1, air-heater ontology 1 Side be equipped with ventilation duct 3, open up fluted 5 in the top inner wall of ventilation duct 3, be welded on the two sides inner wall of groove 5 same A guide rod 7 offers rectangular opening 15 in the top inner wall of groove 5, sliding panel 11 is slidably connected on the outer wall of guide rod 7, slides Through-hole is offered on plate 11, one end of guide rod 7 runs through through-hole and extends to the side of sliding panel 11, is arranged on the outer wall of guide rod 7 There is tension spring 6, side of the both ends of tension spring 6 respectively with the side inner wall of groove 5 and sliding panel 11 is mutually welded, the top of sliding panel 11 Through rectangular opening 15 and the top of ventilation duct 3 is extended to, the two sides of sliding panel 11 are slided with the two sides inner wall of rectangular opening 15 respectively Connection, a lateral roof of sliding panel 11 are welded with arc panel 10, and the top of ventilation duct 3 is fixedly installed with driving motor 8, driving electricity Ball rod 9 is vertically welded on the output shaft of machine 8, one end of ball rod 9 is in contact with the side of arc panel 10, ventilation duct 3 Column 14 is symmetrically welded in top inner wall, column 14 is located at the side of groove 5, the side rotation close to each other of two columns 14 It is connected with the same rotor plate 2, the top side of rotor plate 2 is welded with triangular plate 13, the bottom of sliding panel 11 and triangle The top of plate 13 is in contact, and driving motor 8 can drive ball rod 9 to be slided on arc panel 10, and ball rod 9 can be detached from arc Shape plate 10, then tension spring 6 can pull sliding panel 11 to be slided on triangular plate 13 and will drive 13 turns of triangular plate Dynamic, triangular plate 13 can drive rotor plate 2 to be rotated, while can make torsional spring 16 deformation occurs, ball rod 9 can again with arc Shape plate 10 contacts and squeezes arc panel 10, then ball rod 9 can drive sliding panel 11 to carry out transverse shifting, then the meeting of sliding panel 11 exists Reverse slide on triangular plate 13, torsional spring 16 can be such that rotor plate 2 resets, then, can under the cooperation of driving motor 8 and torsional spring 16 So that rotor plate 2 carries out reciprocally swinging, and the hot gas that air-heater ontology 1 is blown out can be guided on rotor plate 2 by deflector 4, The utility model structure is simple, under the cooperation of driving motor 8 and torsional spring 16, rotor plate 2 can be made to carry out reciprocally swinging, and lead The hot gas that air-heater ontology 1 is blown out can be guided on rotor plate 2 by flowing plate 4, so that rotor plate 2 can change air-heater ontology The direction of the hot gas of 1 blowout, and then expands heat dissipation range, accelerates radiating efficiency, easy to use, wherein driving motor 8 Model 2IK10RGN-C/2GN 10K.

In the utility model, the top of ventilation duct 3 is fixedly installed with rectangular cover 12, driving motor 8 and the equal position of sliding panel 11 In in rectangular cover 12, being fixedly installed with deflector 4 in the top inner wall of ventilation duct 3, deflector 4 is located at the side of groove 5, driving The bottom of motor 8 is welded with fixed plate, and the corner location of fixed plate offers bolt hole, and bolt hole internal screw thread is connected with spiral shell Bolt, driving motor 8 are fixedly mounted on the top of ventilation duct 3 by bolt hole and bolt, are welded with linear axis on the inner wall of through-hole It holds, one end of guide rod 7 runs through linear bearing and extends to the side of sliding panel 11, and guide rod 7 is slidably connected with linear bearing, turns The two sides of movable plate 2 are welded with shaft 17, and one end that two shafts 17 are located remotely from each other is close to each other with two columns 14 respectively Side rotation connection, is arranged with torsional spring 16 on the outer wall of shaft 17, the both ends of torsional spring 16 respectively with the side of rotor plate 2 and column 14 side is mutually welded, and driving motor 8 can drive ball rod 9 to be slided on arc panel 10, and ball rod 9 can be detached from arc Plate 10, then tension spring 6 can pull sliding panel 11 to be slided on triangular plate 13 and will drive triangular plate 13 and be rotated, Triangular plate 13 can drive rotor plate 2 to be rotated, while can make torsional spring 16 deformation occurs, ball rod 9 can again with arc Plate 10 contacts and squeezes arc panel 10, then ball rod 9 can drive sliding panel 11 to carry out transverse shifting, then sliding panel 11 can be three Reverse slide on angular plate 13, torsional spring 16 can be such that rotor plate 2 resets, then, can be under the cooperation of driving motor 8 and torsional spring 16 Rotor plate 2 is set to carry out reciprocally swinging, and the hot gas that air-heater ontology 1 is blown out can be guided on rotor plate 2 by deflector 4, this Utility model structure is simple, under the cooperation of driving motor 8 and torsional spring 16, rotor plate 2 can be made to carry out reciprocally swinging, and water conservancy diversion The hot gas that air-heater ontology 1 is blown out can be guided on rotor plate 2 by plate 4, so that rotor plate 2 can change air-heater ontology 1 The direction of the hot gas of blowout, and then heat dissipation range is expanded, radiating efficiency is accelerated, it is easy to use.

Working principle: when in use, start driving motor 8, driving motor 8 drives ball rod 9 to be rotated, ball rod 9 It is slided on arc panel 10, ball rod 9 can be detached from arc panel 10, then tension spring 6 will pull sliding panel 11 and carry out on guide rod 7 It slides laterally, sliding panel 10 is slided on triangular plate 13 and will drive triangular plate 13 and rotated, triangular plate 13 Rotor plate 2 is driven to be rotated, then rotor plate 2 will drive shaft 17 and be rotated, while can make torsional spring 16 deformation occurs, bulb Bar 9 can contact with arc panel 10 again and squeeze arc panel 10, then ball rod 9 drives arc panel 10 to carry out transverse shifting, arc Plate 10 drives sliding panel 11 to carry out transverse shifting, then sliding panel 11 can on triangular plate 13 reverse slide, then torsional spring 16 can be with Rotor plate 2 is resetted, then under the cooperation of driving motor 8 and torsional spring 16, rotor plate 2 can be made to carry out reciprocally swinging, and water conservancy diversion The hot gas that air-heater ontology 1 is blown out can be guided on rotor plate 2 by plate 4, so that rotor plate 2 can change air-heater ontology 1 The direction of the hot gas of blowout, and then heat dissipation range is expanded, radiating efficiency is accelerated, it is easy to use.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. one kind can expand the high-efficiency hot-blast machine of heat dissipation range, including air-heater ontology (1), and the one of the air-heater ontology (1) Side is equipped with ventilation duct (3), which is characterized in that opens up fluted (5) in the top inner wall of the ventilation duct (3), the groove (5) Two sides inner wall on be welded with the same guide rod (7), offered rectangular opening (15) in the top inner wall of the groove (5), it is described It is slidably connected on the outer wall of guide rod (7) sliding panel (11), through-hole is offered on the sliding panel (11), the guide rod (7) One end runs through through-hole and extends to the side of sliding panel (11), is arranged with tension spring (6), the drawing on the outer wall of the guide rod (7) Side of the both ends of spring (6) respectively with the side inner wall of groove (5) and sliding panel (11) is mutually welded, the top of the sliding panel (11) Portion is through rectangular opening (15) and extends to the tops of ventilation duct (3), the two sides of the sliding panel (11) respectively with rectangular opening (15) Two sides inner wall be slidably connected, a lateral roof of the sliding panel (11) is welded with arc panel (10), the top of the ventilation duct (3) Portion is fixedly installed with driving motor (8), is vertically welded with ball rod (9), the bulb on the output shaft of the driving motor (8) One end of bar (9) is in contact with the side of arc panel (10), is symmetrically welded with column in the top inner wall of the ventilation duct (3) (14), the column (14) is located at the side of groove (5), and two column (14) sides close to each other are rotatably connected to same The top side of rotor plate (2), the rotor plate (2) is welded with triangular plate (13), the bottom and three of the sliding panel (11) It is in contact at the top of angular plate (13).

2. the high-efficiency hot-blast machine that one kind according to claim 1 can expand heat dissipation range, which is characterized in that the ventilation duct (3) it is fixedly installed at the top of rectangular cover (12), the driving motor (8) and sliding panel (11) are respectively positioned in rectangular cover (12).

3. the high-efficiency hot-blast machine that one kind according to claim 1 can expand heat dissipation range, which is characterized in that the ventilation duct (3) it is fixedly installed in top inner wall deflector (4), the deflector (4) is located at the side of groove (5).

4. the high-efficiency hot-blast machine that one kind according to claim 1 can expand heat dissipation range, which is characterized in that the driving electricity The bottom of machine (8) is welded with fixed plate, and the corner location of the fixed plate offers bolt hole, and the bolt hole internal screw thread connects It is connected to bolt, the driving motor (8) is fixedly mounted on the top of ventilation duct (3) by bolt hole and bolt.

5. the high-efficiency hot-blast machine that one kind according to claim 1 can expand heat dissipation range, which is characterized in that the through-hole Linear bearing is welded on inner wall, one end of the guide rod (7) runs through linear bearing and extends to the side of sliding panel (11), and Guide rod (7) is slidably connected with linear bearing.

6. the high-efficiency hot-blast machine that one kind according to claim 1 can expand heat dissipation range, which is characterized in that the rotor plate (2) two sides are welded with shaft (17), and one end that two shafts (17) are located remotely from each other mutually is leaned on two columns (14) respectively Close side rotation connection is arranged with torsional spring (16) on the outer wall of the shaft (17), the both ends of the torsional spring (16) respectively with It is mutually welded with the side of column (14) side of rotor plate (2).