CN217950725U - High-temperature fan with heat insulation layer for industrial production - Google Patents

Abstract

The utility model discloses a take high temperature fan for industrial production of heat preservation, the on-line screen storage device comprises a base, all be equipped with elasticity shock attenuation post in the recess that the terminal surface right side of base was equipped with, the top level of elasticity shock attenuation post is equipped with the shock attenuation fixing base, the inside cavity that is equipped with of shock attenuation fixing base carries to heat preservation to heat preservation chamber, thereby can provide relative heating heat when the fan needs the export hot-blast, and then need not to utilize hot plate and heater continuous heating to waste the problem of electric energy, when the wind that gets into the fan needs to heat simultaneously, take the heat of heat preservation intracavity portion recovery out through starting miniature aspiration pump and carry to heat output pipeline inside, then carry out the effect of the heating that mixes to the wind intraduct of air-out and carry out stage with the heat of fan inside, and under the condition that the temperature is not enough, can carry out the heating of stage through heater and hot plate to the heat of continuous recovery, thereby can guarantee that the thermal temperature keeps unchangeable under the condition continuous output.

Description

High-temperature fan with heat insulation layer for industrial production

Technical Field

The utility model belongs to the technical field of fan equipment, concretely relates to take high temperature fan for industrial production of heat preservation.

Background

The fan is a driven fluid machine which increases the pressure of gas and discharges the gas by means of input mechanical energy. The temperature of the supplied air is sometimes required in the work, for example, the supplied air is hot air, when the temperature difference between the environment where the fan is located and the environment where the fan is located is large, in order to keep the temperature of the supplied air from being affected by the environment temperature, an insulating layer is generally required to be arranged on the surface of the fan, the conventional insulating layer is a bracket, and the insulating layer made of a metal material is welded on the shell of the fan to slow down the temperature loss in the fan, when the temperature of the supplied air is higher than the temperature outside the shell, the temperature of the hot air can be continuously dissipated outwards from the shell, and the conventional insulating layer only slows down the heat energy loss.

Therefore, the insulation structure of the fan with the notice number of "CN208858648U" comprises a fan shell, wherein the insulation structure comprises: the metal frame is welded on the outer side of the fan shell, and a closed cavity is formed between the frame and the fan shell; the heating component is arranged in the metal frame and is attached to the outer side of the fan shell; and the heat-insulating layer is attached to the inner side of the metal frame, and a preset gap is reserved between the heat-insulating layer and the heating component.

Although the heat-insulating structure of the fan can heat the fan shell through the heating components arranged in the metal frame outside the fan shell to preheat the shell, and the temperature outside the shell is slightly higher than or equal to the temperature of the supplied air, the heat-insulating structure of the fan still has the following obvious defects in the use process: above-mentioned insulation construction's setting is single only and utilizes the heating wire to preheat the wind that gets into and whole heating, and to the relatively large amount of electric energy of consumption of wind heating, thereby the work use cost and the energy-concerving and environment-protective nature of fan have been increased, simultaneously at above-mentioned device because not set up buffering shock-absorbing structure in fan working process, can make the problem of whole vibration appear in the fan, thereby vibration time is longer and lead to the component that the fan installation is fixed to appear not hard up phenomenon, and then lead to the whole emergence of fan to drop reduction factor of safety.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a take high temperature fan for industrial production of heat preservation to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a take high temperature blower for industrial production of heat preservation, includes the base, all be equipped with the elasticity shock attenuation post in the recess that the terminal surface right side of base was equipped with, the top level of elasticity shock attenuation post is equipped with the shock attenuation fixing base, the inside cavity that is equipped with of shock attenuation fixing base, the inside micro aspiration pump that is equipped with of cavity, the output of micro aspiration pump is connected with heat output pipeline, the top of shock attenuation fixing base is fixed with the heat preservation heating cabinet, the inside left side of heat preservation heating cabinet is equipped with the heater, the right side of heater forms through the baffle and is equipped with heat preservation chamber, the inside upper and lower end in heat preservation chamber is equipped with the hot plate respectively, the top of heat preservation heating cabinet is equipped with the guard box, the inside of guard box is installed the motor through the backing plate, the outside left side of guard box is equipped with heat adsorption component, heat adsorption component's right side intercommunication has heat discharge pipe spare, the left side of guard box is equipped with the fan casing, the inside of fan casing is equipped with the fan blade body, the left side of fan casing is equipped with the air intake, the bottom of fan casing is equipped with out the tuber pipe, the upper end right flank is connected with the air inlet pipeline.

The heat adsorption component comprises an adsorption pipeline, a circular installation screen plate is arranged inside the adsorption pipeline, a micro motor is arranged on the right side of the circular installation screen plate, a rotating shaft of the micro motor extends to the left side of the circular installation screen plate and is uniformly provided with a rotating blade, one end of a heat discharge pipe fitting arranged on the right side of the heat adsorption component is communicated with the right side of the top of the heat preservation heating box, when the motor generates high heat in the working process of the fan, the micro motor is started to drive the rotating blade to rotate, the rotating blade rotates to enable the adsorption pipeline to generate suction, and therefore heat inside a heat preservation cavity is adsorbed to the inside of the adsorption pipeline and is conveyed to the heat discharge pipe fitting through the circular installation screen plate arranged, and then the heat preservation cavity is conveyed to preserve heat preservation, so that relative heating heat can be provided when the fan needs to output hot air, and further the problem that electricity is wasted by continuously heating through a heating plate and a heater is solved.

The heat output pipeline of the right side intercommunication of miniature aspiration pump runs through the right side outside that extends to the shock attenuation fixing base and communicates with the right side of going out the tuber pipe, and the delivery pipe that the right-hand member of miniature aspiration pump was equipped with runs through and extends to inside the heat preservation intracavity, when the wind that gets into the fan needs to heat, take out the heat of the inside recovery of heat preservation tank through starting miniature aspiration pump and carry to inside the heat output pipeline, then carry to the inside wind with the fan of going out the air-out intraduct and carry out the effect of the heating that mixes, and can carry out the heating in stage to the heat of continuously retrieving through heater and hot plate, thereby can guarantee that thermal temperature keeps unchangeable condition output.

The utility model discloses a fan shell, including fan casing, air-out pipe, fan inlet, air inlet pipe, blast furnace, fan casing, fan, be equipped with the kuppe on the inside right side wall of fan casing, the air intake inboard that goes out the air pipe is equipped with the dust filter, this messenger inhales to the inside wind of fan casing accessible kuppe makes quick messenger carry respectively to the air-supply line and goes out the tuber pipe in, and carry the inside of being carried to the air-supply line to can cool down radiating effect to its inside motor, make the heat blow to inside the heat adsorption component when cold wind gets into in addition, and then can accelerate the heat adsorption component to thermal extraction recovery efficiency, reach the effective heat preservation effect to the heat simultaneously.

The fan blade body is characterized in that one end of a rotating shaft of the fan blade body penetrates through the inside extending to the protective box and is connected with the rotating shaft of the motor in a transmission mode through a coupling, the rotating shaft drives the fan blade body to rotate through the coupling by starting the motor, and outside air is filtered by the arranged dust filter plate and then is input into the fan shell, so that the problem that the fan blade body is seriously abraded due to the fact that impurities existing in the air are mixed can be avoided.

The heat output pipeline's inside is equipped with the insulating layer, the inner wall of insulating layer is equipped with the heat preservation, and this heat output to the inside in-process of heat output pipeline of retrieving can effectively avoid the problem that the temperature drops at the in-process of heat output to through the setting of insulating layer, can guarantee that the heat can not spread to the outside at the in-process assurance temperature of transmission, effectively improve heat output pipeline to thermal heat preservation effect.

The utility model discloses a technological effect and advantage: this take high temperature fan for industrial production of heat preservation, when the motor produced higher heat and makes in fan working process, start micro motor and drive the rotating vane and rotate, and rotating vane's rotation makes and adsorbs the intraduct suction that produces, thereby make the heat of heat preservation intracavity portion adsorbed to the inside circular installation otter board of adsorbing pipeline and carry to the intake stack through setting up, then carry to heat preservation chamber and keep warm, thereby can provide relative heating heat when the fan needs the export hot-blast, and then need not to utilize hot plate and heater sustained heating to waste the problem of electric energy, simultaneously when the wind that gets into the fan needs to heat, through starting miniature aspiration pump take the heat of heat preservation intracavity portion recovery out and carry to the inside heat output pipeline, then carry to the inside effect of carrying out the heating of mixing with the wind of fan of play tuber pipe, and under the condition that the temperature is not enough, can carry out the heating of stage to the heat of sustaining recovery through heater and hot plate, thereby can guarantee that the temperature of heat keeps under the unchangeable condition lasting export.

The air sucked into the fan shell can be quickly conveyed into the heat discharge pipe fitting and the air outlet pipe respectively through the diversion cover, and the air conveyed to the air inlet pipeline is conveyed into the protection box, so that the cooling and heat dissipation effects on the motor inside the protection box can be realized, the heat is blown into the heat adsorption component while cold air enters, the heat extraction and recovery efficiency of the heat adsorption component on the heat can be accelerated, the effective heat preservation effect on the heat is achieved, the problem of temperature reduction in the heat output process can be effectively avoided in the process of outputting the recovered heat to the heat output pipeline, and through the arrangement of the heat insulation layer, can guarantee that the heat can not spread to the outside at the in-process assurance temperature of transmission, effectively improve heat output pipeline to thermal heat preservation effect, then through the elastic damping post 2 with the cooperation each other of shock attenuation fixing base 3 under, can reduce the vibration of its production itself at the in-process of fan work, reduce the holistic rocking of fan, thereby can guarantee the stability of this fan, and then solved in the fan working process because do not set up buffering shock-absorbing structure, can make the fan whole problem of vibration appear, thereby vibration time is longer and lead to the component of fan installation fixed not hard up phenomenon to appear, and then lead to the whole problem that takes place to drop reduction factor of safety of fan.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a front sectional view of the adsorption pipeline of the present invention;

fig. 3 is a side sectional view of the heat output pipeline of the present invention.

In the figure: 1. a base; 2. an elastic shock-absorbing column; 3. a shock-absorbing fixing seat; 4. a cavity; 5. a micro air pump; 6. a heat preservation heating box; 7. a heater; 8. a thermal insulation cavity; 9. heating plates; 10. a protective box; 11. a motor; 12. a heat adsorption component; 13. heat removal tubing; 14. a fan housing; 15. the fan blade body; 16. an air inlet; 17. an air outlet pipe; 18. an air inlet pipeline; 19. an adsorption pipeline; 20. circularly installing a screen plate; 21. a micro motor; 22. a rotating blade; 23. a pod; 24. a dust filter plate; 25. a heat output pipe; 26. a thermal insulation layer; 27. and (7) an insulating layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a take high temperature fan for industrial production of heat preservation, which comprises a base 1, all be equipped with elasticity shock column 2 in the recess that base 1's terminal surface right side was equipped with, and elasticity shock column 2 carries out the effect of outrigger for cup jointing the flexible form of elasticity to motor 11, the top level of elasticity shock column 2 is equipped with shock attenuation fixing base 3, play the effect to the outrigger of heat preservation heating cabinet 6 and protective housing 10, shock attenuation fixing base 3 inside is equipped with cavity 4, be convenient for miniature aspiration pump 5 set up the installation, the inside of cavity 4 is equipped with miniature aspiration pump 5, and miniature aspiration pump 5's output is connected with heat output pipeline 25, the realization is to retrieving thermal output, heat output pipeline 25's inside is equipped with insulating layer 26, the inner wall of insulating layer 26 is equipped with heat preservation 27, the improvement is to thermal insulation performance.

The top of shock attenuation fixing base 3 is fixed with heat preservation heating cabinet 6, the realization is carried out heat preservation recycle to the thermal recovery of motor 11, the inside left side of heat preservation heating cabinet 6 is equipped with heater 7, and the right side of heater 7 is formed through the baffle and is equipped with heat preservation chamber 8, the realization is carried out the effect that the discontinuity was heated to the inside heat in heat preservation chamber 8, the input/output trachea that miniature aspiration pump 5's right-hand member was equipped with runs through and extends to heat preservation chamber 8 inside, the inside upper and lower end in heat preservation chamber 8 is equipped with hot plate 9 respectively, realize that inside thermal heating keeps the heat can not take place great change, the top of heat preservation heating cabinet 6 is equipped with protecting box 10, the realization is to motor 11's guard action, the security and the life of motor 11 are improved.

Motor 11 is installed through the backing plate in the inside of protective housing 10, and motor 11 is the motor 11 of positive and negative rotation, the outside left side of protective housing 10 is equipped with heat adsorption component 12, heat adsorption component 12 includes adsorption pipeline 19, be convenient for carry out absorbent effect to the heat of protective housing 10 inside, adsorption pipeline 19's inside is equipped with circular installation otter board 20, the realization carries out filterable effect to the impurity that exists in the heat, the right side installation of circular installation otter board 20 is equipped with micro motor 21, and micro motor 21's pivot extends to the left side of circular installation otter board 20 and evenly is equipped with rotating vane 22, the realization is retrieved thermal suction, the one end of heat discharge pipe fitting 13 that heat adsorption component 12's right side was established communicates with the top right side of heat preservation heating cabinet 6.

Heat adsorption component 12's right side intercommunication has heat discharge pipe fitting 13, the realization is retrieved the effect of keeping warm in the use of adsorbing thermal discharge, the one end of heat discharge pipe fitting 13 and the top right side intercommunication of heat preservation heating cabinet 6 that heat adsorption component 12's right side was established, the left side of guard box 10 is equipped with fan casing 14, the realization is to fan blade body 15 guard action, avoid the foreign matter to get into and lead to the cracked problem of striking to appear in fan blade body 15, be equipped with kuppe 23 on the inside right side wall of fan casing 14, improve the amount of wind and the flow velocity of entering.

The inside of fan casing 14 is equipped with fan blade body 15, the pivot one end of fan blade body 15 runs through and extends to be connected between the pivot of coupling and motor 11 to the inside of guard box 10, the left side of fan casing 14 is equipped with air intake 16, the bottom of fan casing 14 is equipped with out tuber pipe 17, be convenient for to the discharge of inspiratory gas, the air inlet port inboard of going out tuber pipe 17 is equipped with dust filter 24, the heat output pipeline 25 of the right side intercommunication of miniature aspiration pump 5 runs through and extends to the right side outside of shock attenuation fixing base 3 and with the right side intercommunication of going out tuber pipe 17, the upper end right flank of fan casing 14 is connected with air inlet pipeline 18, the realization is carried thermal recovery.

Specifically, when the fan is used, when the motor 11 generates high heat in the working process of the fan, the micro motor 21 is started to drive the rotating blade 22 to rotate, and the rotating blade 22 rotates to generate suction in the adsorption pipeline 19, so that the heat inside the heat insulation cavity 8 is adsorbed to the inside of the adsorption pipeline 19 and is conveyed to the air inlet pipeline 18 through the circular installation screen plate 20 arranged, and then is conveyed to the heat insulation cavity 8 to be insulated, so that the relative heating heat can be provided when the fan needs to output hot air, and further the problem of electric energy waste caused by continuous heating by the heating plate 9 and the heater 7 is not needed, meanwhile, when the air entering the fan needs to be heated, the heat recovered inside the heat insulation cavity 8 is pumped out and conveyed to the inside of the heat output pipeline 25 by starting the micro air pump 5, and then is conveyed to the inside of the air outlet pipe 17 and the inside of the fan to perform mixed heating effect, and under the condition of insufficient temperature, the heat recovered continuously can be heated by the heating plate 7 and the heating plate 9, so that the temperature of the heat can be kept unchanged and can be continuously output.

Inhale to 14 inside wind accessible kuppe of fan casing 23 quick make it carry respectively to heat discharge pipe fitting 13 and play tuber pipe 17 in, and carry the inside of being carried to heat discharge pipe fitting 13 to protection box 10 to the wind, thereby can carry out the radiating effect of cooling to its inside motor 11, and make the heat blow to heat adsorption component 12 inside when cold wind gets into, and then can accelerate heat adsorption component 12 to thermal extraction recovery efficiency, reach the effective heat preservation effect to the heat simultaneously, in the heat output of retrieving to the inside in-process of heat output pipeline 25, can effectively avoid the problem that the temperature descends appearing in the in-process of heat output, and through the setting of insulating layer 26, can guarantee the heat can not spread to the outside at the in-process assurance temperature of transmission, effectively improve heat output pipeline 25 to thermal heat preservation effect.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (6)

1. The utility model provides a take high temperature blower for industrial production of heat preservation, includes base (1), its characterized in that: the fan is characterized in that elastic shock absorption columns (2) are arranged in grooves formed in the right side of the end face of the base (1), shock absorption fixing seats (3) are horizontally arranged at the tops of the elastic shock absorption columns (2), cavities (4) are arranged inside the shock absorption fixing seats (3), micro air pumps (5) are arranged inside the cavities (4), the output ends of the micro air pumps (5) are connected with heat output pipelines (25), heat preservation heating boxes (6) are fixed to the top ends of the shock absorption fixing seats (3), heaters (7) are arranged on the left sides inside the heat preservation heating boxes (6), heat preservation cavities (8) are formed in the right sides of the heaters (7) through partition plates, heating plates (9) are respectively arranged at the upper ends and the lower ends of the inside of the heat preservation cavities (8), protective boxes (10) are arranged at the tops of the heat preservation heating boxes (6), motors (11) are installed inside the protective boxes (10) through backing plates, heat absorption components (12) are arranged on the left sides of the outside of the protective boxes (10), the heat absorption components (12) are communicated with heat discharge pipe fittings (13), fan shells (14) are arranged on the left sides of the fan bodies (14), and fan bodies (16) are arranged on the left sides of the fan bodies (14), the heat insulation device is characterized in that an air outlet pipe (17) is arranged at the bottom of the fan shell (14), an air inlet pipeline (18) is connected to the right side face of the upper end of the fan shell (14), and the other end of the air inlet pipeline (18) penetrates through the inner portion of the heat insulation cavity (8) and extends to the inner portion of the heat insulation cavity.

2. The high-temperature fan with the heat-insulating layer for industrial production according to claim 1, characterized in that: heat adsorption component (12) is including adsorbing pipeline (19), the inside of adsorbing pipeline (19) is equipped with circular installation otter board (20), the right side installation of circular installation otter board (20) is equipped with micro motor (21), the left side that the pivot of micro motor (21) extends to circular installation otter board (20) evenly is equipped with rotating vane (22), the one end of the heat discharge pipe spare (13) that the right side of heat adsorption component (12) was established communicates with the top right side of heat preservation heating cabinet (6).

3. The high-temperature fan with the heat-insulating layer for industrial production according to claim 1, characterized in that: the heat output pipeline (25) of the right side intercommunication of miniature air pump (5) runs through and extends to the outside of the right side of shock attenuation fixing base (3) and with the right side intercommunication of air-out pipe (17), and the input/output trachea that the right-hand member of miniature air pump (5) was equipped with runs through and extends to inside heat preservation chamber (8).

4. The high-temperature fan with the heat-insulating layer for industrial production according to claim 1, characterized in that: the fan is characterized in that a guide cover (23) is arranged on the right side wall inside the fan shell (14), and a dust filter plate (24) is arranged on the inner side of an air inlet port of the air outlet pipe (17).

5. The high-temperature fan with the heat-insulating layer for industrial production according to claim 1, characterized in that: one end of a rotating shaft of the fan blade body (15) penetrates through the protective box (10) and extends into the protective box to be connected with the rotating shaft of the motor (11) through a coupling in a transmission mode.

6. The high-temperature fan with the heat insulation layer for industrial production as claimed in claim 1, wherein: the heat output pipeline (25) is internally provided with a heat insulation layer (26), and the inner wall of the heat insulation layer (26) is provided with a heat insulation layer (27).

Images