CN207378927U - A kind of heater - Google Patents
A kind of heater Download PDFInfo
- Publication number
- CN207378927U CN207378927U CN201721371232.3U CN201721371232U CN207378927U CN 207378927 U CN207378927 U CN 207378927U CN 201721371232 U CN201721371232 U CN 201721371232U CN 207378927 U CN207378927 U CN 207378927U
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- air
- wind
- feeding blades
- air draught
- heating member
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Abstract
The utility model discloses a kind of heaters, its key points of the technical solution are that include heating member, fan page body, motor and guide assembly, fan page body includes mounting ring, wind feeding blades, air draught blade and connection ring, wind feeding blades and air draught blade are both provided with several, and annular array is on the outboard sidewalls of connection ring respectively, wind feeding blades and air draught blade are set into incline structure, and the two inclined direction is opposite;Guide assembly includes the blast pipe and discharge pipe of coaxial arrangement, discharge pipe, which includes one end and is conducted to the heat space other end to be added, turns on air-out passage to wind feeding blades, and blast pipe, which includes one end and is conducted to the heat space other end to be added, turns on air intake passage to air draught blade;The fan page body wind that wind feeding blades drives in rotation process enters heat space to be added through air-out passage, while air draught vanes air intake passage sucks the air in heat space to be added.The heater can effectively promote the heating efficiency to closed heat space to be added.
Description
Technical field
The utility model is related to heating equipment technical field, more specifically, it relates to a kind of heater.
Background technology
Heater refers to the electric appliance for reaching heating effect, and heat space to be added can be allowed to be in a constant temperature, delay
Slowly constantly raised state, application range are very extensive.Existing heater will be sent out usually using the fan page under rotation status
The heat that heated filament generates is sent into heat space to be added, although the structure can make the wind blown out at the air outlet of heater with heat
Amount, but the air inlet of heater is located at the air outlet other end of heater, therefore existing heater enters the wind the other end for one end
Outlet air;And for closed heat space to be added when needing heating, it is necessary to which lasting dry into it, however warm wind is being blown into
Since warm wind is blown into the resistance being subject to when in closed heat space to be added, heat is only capable of at the air outlet of heater to be added
It is slowly spread in heat space, slow so as to cause temperature rise effect, which not only increases the energy consumption of heater, while heats effect
Fruit is bad, for this purpose, many manufacturers and knowledgeable people are developed and developed, but there has been no comparatively ideal heater faces so far
Generation.
Utility model content
In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of heater, the heater energy
The enough heating efficiency effectively promoted to closed heat space to be added.
To achieve the above object, the utility model provides following technical solution:A kind of heater, include heating member,
Fan page body and motor for driving fan page body and the guiding group for guiding wind that fan page body drives when rotating
Part, the fan page body includes the mounting ring for being connected with motor output end and the heat for heating member to be generated is sent
Enter the wind feeding blades of heat space to be added and air draught blade, Yi Jilian for the air in heat space to be added to be sent to heating member
The connection ring being connected between wind feeding blades and air draught blade, the wind feeding blades and air draught blade are both provided with several, and
In on the outboard sidewalls of connection ring, the wind feeding blades and air draught blade are set annular array into incline structure respectively, and
The two inclined direction is opposite;Fan page body wind feeding blades and air draught blade guiding wind direction in rotation process is opposite;The guiding
Component includes the blast pipe and discharge pipe of coaxial arrangement, and the discharge pipe includes one end and is conducted to the heat space other end to be added
Turn on the air-out passage to wind feeding blades, the blast pipe, which includes one end and is conducted to the heat space other end to be added, to be turned on to air draught
The air intake passage of blade;The fan page body wind that wind feeding blades drives in rotation process enters heat space to be added through air-out passage,
Air draught vanes air intake passage sucks the air in heat space to be added simultaneously.
The utility model is further arranged to:The guide assembly, fan page body, heating member, motor are from top to bottom successively
Spread configuration, the output terminal of the motor are connected with the shaft after heating member for being connected with mounting ring;Motor is by turning
Axis is driven in fan page body rotation process, and wind feeding blades drives the heat of heating member one side to enter sky to be heated through air-out passage
Between, while air draught vanes air intake passage sucks wind in heat space to be added to heating member.
The utility model is further arranged to:The guide assembly, heating member, fan page body, motor are from top to bottom successively
Spread configuration, motor are driven in fan page body rotation process, what wind feeding blades drove blow air over after heating member through air-out passage into
Enter heat space to be added, while the wind that air draught vanes air intake passage is sucked in heat space to be added passes through heating member.
The utility model is further arranged to:The mounting ring, wind feeding blades, connection ring and air draught blade from the inside to the outside according to
Secondary setting, for the wind feeding blades annular array on the madial wall of connection ring, company is fixed in described wind feeding blades one end with mounting ring
It connects, the other end is fixedly connected with the madial wall of connection ring, and the air draught blade annular array is on the outer circumferential wall of connection ring;
The discharge pipe is located in blast pipe, and the air-out passage is arranged in discharge pipe, the side wall of the air intake passage include into
The madial wall of air hose and the lateral wall of discharge pipe.
The utility model is further arranged to:The wind feeding blades turns forward setting along clockwise direction, when motor band
When dynamic mounting ring rotates counterclockwise, wind feeding blades can drive the air positioned at heating member one side to blow to opposite side;The air draught
Blade turns forward setting in the counterclockwise direction, and when motor drives mounting ring to rotate counterclockwise, air draught blade can drive one
The air of side is blowed to positioned at the one side of heating member.
The utility model is further arranged to:The wind feeding blades turns forward setting in the counterclockwise direction, when motor band
When dynamic mounting ring rotates clockwise, wind feeding blades can drive the air positioned at heating member one side to blow to opposite side;The air draught
Blade turns forward setting along clockwise direction, and when motor drives mounting ring to rotate clockwise, air draught blade can drive one
The air of side is blowed to positioned at the one side of heating member.
The utility model is further arranged to:The mounting ring, air draught blade, connection ring and wind feeding blades from the inside to the outside according to
Secondary setting, for the air draught blade annular array on the madial wall of connection ring, company is fixed in described air draught blade one end with mounting ring
It connects, the other end is fixedly connected with the madial wall of connection ring, and the wind feeding blades annular array is on the outer circumferential wall of connection ring;
The blast pipe is located in discharge pipe, and the air intake passage is arranged in blast pipe, the side wall of the air-out passage include into
The lateral wall of air hose and the madial wall of discharge pipe.
The utility model is further arranged to:The wind feeding blades turns forward setting along clockwise direction, when motor band
When dynamic mounting ring rotates counterclockwise, wind feeding blades can drive the air positioned at heating member one side to blow to opposite side;The air draught
Blade turns forward setting in the counterclockwise direction, and when motor drives mounting ring to rotate counterclockwise, air draught blade can drive one
The air of side is blowed to positioned at the one side of heating member.
The utility model is further arranged to:The wind feeding blades turns forward setting in the counterclockwise direction, when motor band
When dynamic mounting ring rotates clockwise, wind feeding blades can drive the air positioned at heating member one side to blow to opposite side;The air draught
Blade turns forward setting along clockwise direction, and when motor drives mounting ring to rotate clockwise, air draught blade can drive one
The air of side is blowed to positioned at the one side of heating member.
The utility model is further arranged to:When discharge pipe is located in blast pipe, the discharge pipe is towards fan page body
One end the seal pipe of oriented connection ring extension is set, the other end sets the extension of extension in oriented space to be heated, described
The end face of seal pipe and the end clearance of connection ring are set;When blast pipe is located in discharge pipe, the blast pipe is towards fan page
One end of body sets the seal pipe of oriented connection ring extension, and the other end sets the extension extended in oriented space to be heated,
The end face of the seal pipe and the end clearance of connection ring are set.
In conclusion the utility model has the advantages that:Motor is driven in fan page body rotation process, therein
The heat that heating member generates can be sent by air-out passage in heat space to be added by wind feeding blades, while air draught blade can also lead to
It crosses air intake passage and the air on heat space internal heater periphery to be added is drawn to heating member, i.e., a fan page is driven by a motor
It rotates and realizes to treat and dry simultaneously in heating space and air draught, heater is enable to make closed heat space to be added in use
Air circulation is enough generated, resistance suffered when wind feeding blades is dried into heat space to be added can be effectively reduced or remitted, be conducive to send
Air blade drives heat quickly to be spread in heat space to be added, therefore the structure not only effectively increases temperature rise effect, improves
Heat up efficiency, while decreases the energy consumption of heater, can contribute for energy conservation and environmental protection.And the setting of discharge pipe can make
The heat transfer that heating member generates is in heat space to be added, while the setting of blast pipe can make the air quilt in heat space to be added
Heating member is drawn to, therefore the air inlet of separation heater and the work of air outlet can be played by the setting of discharge pipe and blast pipe
With, the heat that heating member generates is avoided just to be drawn to heating member by air draught blade before being blowed by wind feeding blades to heat space to be added,
So as to be unfavorable for being rapidly heated for heat space to be added, the heating-up time of heat space to be added is extended, reduces the heating of heater
Efficiency.
Description of the drawings
Fig. 1 is the dimensional structure diagram of heater in embodiment one;
Fig. 2 is the cross-sectional view of fan page body and guide assembly in embodiment three;
Fig. 3 is the dimensional structure diagram of fan page body in embodiment three;
Fig. 4 is the dimensional structure diagram of heater.
Reference numeral:1st, fan page body;11st, mounting ring;111st, spliced eye;112nd, plane;12nd, wind feeding blades;13rd, connect
Ring;14th, air draught blade;2nd, guide assembly;21st, blast pipe;211st, air intake passage;22nd, discharge pipe;221st, air-out passage;23rd, it is close
Tube sealing;3rd, heating member;4th, motor.
Specific embodiment
With reference to the accompanying drawings and examples, the utility model is further described.Wherein identical parts phase
Same reference numeral represents.It should be noted that word "front", "rear" used in the following description, "left", "right", " on " and
" under " referring to direction in attached drawing, word " bottom surface " and " top surface ", " interior " and " outer " are referred respectively to towards or away from specific
The direction at component geometry center.
With reference to shown in Fig. 1-4, a kind of heater includes heating member 3, fan page body 1 and for driving fan page body 1
Motor 4 and for guiding the guide assembly 2 of wind that fan page body 1 drives when rotating, electric heating can be used in wherein heating member 3
Silk is powered i.e. heatable;Fan page body 1 includes mounting ring 11 for being connected with 4 output terminal of motor and for by heating member
3 heats generated are sent into the wind feeding blades 12 of heat space to be added and for the air in heat space to be added to be sent to heating member 3
Air draught blade 14 and the connection ring 13 being connected between wind feeding blades 12 and air draught blade 14, wind feeding blades 12 and air draught leaf
Piece 14 is both provided with several, and annular array is on the outboard sidewalls of connection ring 13 respectively, wind feeding blades 12 and air draught leaf
Piece 14 is set into incline structure, and the two inclined direction is opposite;Fan page body 1 wind feeding blades 12 and suction in rotation process
Air blade 14 guides wind direction on the contrary, therefore the heat that heating member 3 generates can be sent into heat space to be added by wind feeding blades 12, together
When air draught blade 14 also the air on heat space internal heater periphery to be added can be drawn to heating member 3, be conducive in heat space to be added
Air pressure balance.
Also, guide assembly 2 includes the blast pipe 21 of coaxial arrangement and discharge pipe 22, and discharge pipe 22, which includes one end, leads
It passes to the heat space other end to be added and turns on air-out passage 221 to wind feeding blades 12, blast pipe 21, which includes one end and is conducted to, to be treated
The heating space other end turns on the air intake passage 211 to air draught blade 14;12 band of wind feeding blades in rotation process of fan page body 1
Dynamic wind enters heat space to be added through air-out passage 221, while air draught blade 14 is sucked through air intake passage 211 in heat space to be added
Air.
Therefore the heater of said structure is in motor 4 drives 1 rotation process of fan page body, 12 energy of wind feeding blades therein
It is enough to be sent into the heat that heating member 3 generates in heat space to be added by air-out passage 221, at the same air draught blade 14 also can by into
The air on heat space internal heater periphery to be added is drawn to heating member 3 by wind passage 211, i.e., drives a fan by a motor 4
Page, which rotates, to be realized to treat and dries simultaneously in heating space and air draught, and heater is made to make closed heat space to be added in use
Air circulation can be generated, can effectively reduce or remit resistance suffered when wind feeding blades 12 is dried into heat space to be added, favorably
In wind feeding blades 12 heat is driven quickly to be spread in heat space to be added, therefore the structure not only effectively increases temperature rise effect,
Heating efficiency is improved, while decreases the energy consumption of heater, can be contributed for energy conservation and environmental protection.
And the setting of discharge pipe 22 can make the heat transfer that heating member 3 generates be entered the wind simultaneously in heat space to be added
The setting of pipe 21 can make the air in heat space to be added be attracted to heating member 3, therefore pass through discharge pipe 22 and blast pipe 21
The air inlet and air outlet that can play the role of separating heater are set, avoid the heat that heating member 3 generates by wind feeding blades
12 blow to just heating member 3 is drawn to by air draught blade 14 before heat space to be added, so as to be unfavorable for the quick liter of heat space to be added
Temperature extends the heating-up time of heat space to be added, reduces the heating efficiency of heater.
Each component wherein in heater includes detailed description below:
Embodiment one:Guide assembly 2, fan page body 1, heating member 3, motor 4 are arranged in order setting, motor 4 from top to bottom
Output terminal be connected with after heating member 3 for the shaft that is connected with mounting ring 11;Motor 4 drives fan page body by shaft
In 1 rotation process, wind feeding blades 12 drives the heat of 3 one side of heating member to enter heat space to be added through air-out passage 221, inhales simultaneously
Air blade 14 sucks wind in heat space to be added to heating member 3 through air intake passage 211.
Embodiment two:Guide assembly 2, heating member 3, fan page body 1, motor 4 are arranged in order setting, motor 4 from top to bottom
It drives in 1 rotation process of fan page body, through air-out passage 221 into be added after what wind feeding blades 12 drove blow air over heating member 3
Heat space, while the wind that air draught blade 14 is sucked through air intake passage 211 in heat space to be added passes through heating member 3.
Above two embodiment drives fan page body 1 in rotation process by motor 4, wind feeding blades 12 therein
The heat that heating member 3 generates can be sent by air-out passage 221 in heat space to be added, while air draught blade 14 can also pass through
The air on heat space internal heater periphery to be added is drawn to heating member 3 by air intake passage 211, can effectively reduce or remit wind feeding blades 12 to
Resistance suffered during blowing in heat space to be added is conducive to heater and realizes fast lifting temperature to closed heat space to be added
Degree.
Wherein fan page body 1 includes detailed description below:
Embodiment three:Mounting ring 11, wind feeding blades 12, connection ring 13 and air draught blade 14 are set gradually from the inside to the outside, are sent
12 annular array of air blade is on the madial wall of connection ring 13, and 12 one end of wind feeding blades is fixedly connected with mounting ring 11, the other end
It is fixedly connected with the madial wall of connection ring 13,14 annular array of air draught blade is on the outer circumferential wall of connection ring 13;Discharge pipe
22 are located in blast pipe 21, and air-out passage 221 is arranged in discharge pipe 22, and the side wall of air intake passage 211 includes blast pipe 21
Madial wall and discharge pipe 22 lateral wall.
Wind feeding blades 12 turns forward setting along clockwise direction, when motor 4 drives mounting ring 11 to rotate counterclockwise, send
Air blade 12 can drive the air positioned at 3 one side of heating member to blow to opposite side;Air draught blade 14 turns forward in the counterclockwise direction
Tiltedly set, when motor 4 drive mounting ring 11 counterclockwise rotate when, air draught blade 14 can drive the air of one side blow to positioned at plus
The one side of warmware 3.
Example IV:Mounting ring 11, wind feeding blades 12, connection ring 13 and air draught blade 14 are set gradually from the inside to the outside, are sent
12 annular array of air blade is on the madial wall of connection ring 13, and 12 one end of wind feeding blades is fixedly connected with mounting ring 11, the other end
It is fixedly connected with the madial wall of connection ring 13,14 annular array of air draught blade is on the outer circumferential wall of connection ring 13;Discharge pipe
22 are located in blast pipe 21, and air-out passage 221 is arranged in discharge pipe 22, and the side wall of air intake passage 211 includes blast pipe 21
Madial wall and discharge pipe 22 lateral wall.
Wind feeding blades 12 turns forward setting in the counterclockwise direction, when motor 4 drives mounting ring 11 to rotate clockwise, send
Air blade 12 can drive the air positioned at 3 one side of heating member to blow to opposite side;Air draught blade 14 turns forward along clockwise direction
Tiltedly set, when motor 4 drive mounting ring 11 rotate clockwise when, air draught blade 14 can drive the air of one side blow to positioned at plus
The one side of warmware 3.
Embodiment five:Mounting ring 11, air draught blade 14, connection ring 13 and wind feeding blades 12 are set gradually from the inside to the outside, are inhaled
14 annular array of air blade is on the madial wall of connection ring 13, and 14 one end of air draught blade is fixedly connected with mounting ring 11, the other end
It is fixedly connected with the madial wall of connection ring 13,12 annular array of wind feeding blades is on the outer circumferential wall of connection ring 13;Blast pipe
21 are located in discharge pipe 22, and air intake passage 211 is arranged in blast pipe 21, and the side wall of air-out passage 221 includes blast pipe 21
Lateral wall and discharge pipe 22 madial wall.
Wind feeding blades 12 turns forward setting along clockwise direction, when motor 4 drives mounting ring 11 to rotate counterclockwise, send
Air blade 12 can drive the air positioned at 3 one side of heating member to blow to opposite side;Air draught blade 14 turns forward in the counterclockwise direction
Tiltedly set, when motor 4 drive mounting ring 11 counterclockwise rotate when, air draught blade 14 can drive the air of one side blow to positioned at plus
The one side of warmware 3.
Embodiment six:Mounting ring 11, air draught blade 14, connection ring 13 and wind feeding blades 12 are set gradually from the inside to the outside, are inhaled
14 annular array of air blade is on the madial wall of connection ring 13, and 14 one end of air draught blade is fixedly connected with mounting ring 11, the other end
It is fixedly connected with the madial wall of connection ring 13,12 annular array of wind feeding blades is on the outer circumferential wall of connection ring 13;Blast pipe
21 are located in discharge pipe 22, and air intake passage 211 is arranged in blast pipe 21, and the side wall of air-out passage 221 includes blast pipe 21
Lateral wall and discharge pipe 22 madial wall.
Wind feeding blades 12 turns forward setting in the counterclockwise direction, when motor 4 drives mounting ring 11 to rotate clockwise, send
Air blade 12 can drive the air positioned at 3 one side of heating member to blow to opposite side;Air draught blade 14 turns forward along clockwise direction
Tiltedly set, when motor 4 drive mounting ring 11 rotate clockwise when, air draught blade 14 can drive the air of one side blow to positioned at plus
The one side of warmware 3.
Above-mentioned four kinds of embodiments drive fan page body 1 in rotation process by motor 4, wind feeding blades 12 therein
The heat that heating member 3 generates can be sent by air-out passage 221 in heat space to be added, while air draught blade 14 can also pass through
The air on heat space internal heater periphery to be added is drawn to heating member 3 by air intake passage 211, can effectively reduce or remit wind feeding blades 12 to
Resistance suffered during blowing in heat space to be added is conducive to heater and realizes fast lifting temperature to closed heat space to be added
Degree, and the setting of discharge pipe 22 and blast pipe 21 can also play the role of the air inlet and air outlet that separate heater, energy
The heat that heating member 3 generates enough is avoided just to be drawn to heat by air draught blade 14 before being blowed to heat space to be added by wind feeding blades 12
Part 3, so as to further improve the heating efficiency of heat space to be added.
In addition, when discharge pipe 22 is located in blast pipe 21, discharge pipe 22 sets oriented company towards one end of fan page body 1
Connect the seal pipe 23 of the extension of ring 13, the other end sets the extension of extension in oriented space to be heated, the end face of seal pipe 23 and
The end clearance of connection ring 13 is set;Or, when blast pipe 21 is located in discharge pipe 22, blast pipe 21 is towards fan page body 1
One end sets the seal pipe 23 that oriented connection ring 13 extends, and the other end sets the extension extended in oriented space to be heated, close
The end face of tube sealing 23 is set with the end clearance of connection ring 13.Seal pipe 23 is provided with beneficial to the air inlet for improving separation heater
The effect of mouth and air outlet, effectively deduction and exemption influence the heating efficiency of heater due to air inlet and the air outlet conducting of heater.
And when extension connects discharge pipe 22, extension may extend into heat space to be added, preferably extend over to positioned at the another of heater
One side, the heat that such heater generates can be sent in heat space to be added through discharge pipe 22 and extension away from heater
One side, and the air on 21 sorption of blast pipe heat space internal heater periphery to be added are conducive to improve the efficiency of heating surface of heater;Instead
It is identical, extension connection blast pipe 21 when, extension also may extend into heat space to be added, preferably extend over to positioned at heater
Opposite side, and discharge pipe 22 can be located at the periphery of heater, and the heat that such heater generates be sent to through discharge pipe 22
Close to the periphery of heater in heat space to be added, and blast pipe 21 can be sucked in heat space to be added by extension away from heating
The air of device one side is conducive to improve the efficiency of heating surface of heater.
Wherein, mounting ring 11 includes the spliced eye 111 of 4 output terminal grafting of power supply machine, spliced eye 111 and fan page body 1
It is coaxially disposed, is provided with to transfer the plane 112 of 4 output terminal torsion of motor on the madial wall of spliced eye 111, is provided with plane
112 111 cross section of spliced eye is set into D character form structures.Fan page is being driven after in the output terminal insertion spliced eye 111 of motor 4
In 1 rotation process of body, 4 torsion of motor can not be transferred for 4 output terminal of motor is avoided to skid in spliced eye 111, is added flat
Face 112 enables the output terminal of the motor 4 fan page body 1 therein in rotation process to rotate therewith, and is conducive to improve fan page sheet
The slow-roll stabilization degree of body 1.
Also, fan page body 1 into a single integrated structure can also be set, and can greatly improve the overall construction intensity of fan page body 1,
And it is convenient for disassembly and assembly, be conducive to improve disassembly efficiency, easy access.
It the above is only the preferred embodiment of the utility model, the scope of protection of the utility model is not limited merely to above-mentioned
Embodiment, all technical solutions belonged under the utility model thinking belong to the scope of protection of the utility model.It should be pointed out that pair
For those skilled in the art, several improvements and modifications under the premise of the utility model principle is not departed from,
These improvements and modifications also should be regarded as the scope of protection of the utility model.
Claims (10)
1. a kind of heater, include heating member (3), fan page body (1) and for drive the motor of fan page body (1) (4),
With for guiding the guide assembly (2) of wind that fan page body (1) drives when rotating, it is characterized in that:Fan page body (1) bag
Include the mounting ring (11) that is useful for being connected with motor (4) output terminal and the heat for heating member (3) to be generated be sent into it is to be heated
The wind feeding blades (12) in space and for the air in heat space to be added is sent to the air draught blade (14) of heating member (3) and
The connection ring (13) being connected between wind feeding blades (12) and air draught blade (14), the wind feeding blades (12) and air draught blade
(14) several are both provided with, and annular array is on the outboard sidewalls of connection ring (13) respectively, the wind feeding blades (12)
It is set with air draught blade (14) into incline structure, and the two inclined direction is opposite;Fan page body (1) is sent in rotation process
Air blade (12) and air draught blade (14) guiding wind direction are opposite;
The guide assembly (2) includes the blast pipe (21) of coaxial arrangement and discharge pipe (22), and the discharge pipe (22) includes
There is one end to be conducted to the heat space other end to be added and turn on air-out passage (221) to wind feeding blades (12), the blast pipe (21)
Include one end and be conducted to the heat space other end to be added and turn on air intake passage (211) to air draught blade (14);Fan page body (1)
The wind that wind feeding blades (12) drives in rotation process enters heat space to be added, while air draught blade through air-out passage (221)
(14) air in heat space to be added is sucked through air intake passage (211).
2. a kind of heater according to claim 1, it is characterized in that:The guide assembly (2), fan page body (1), heating
Part (3), motor (4) are arranged in order setting from top to bottom, and the output terminal of the motor (4) is connected with to be used afterwards through heating member (3)
In the shaft being connected with mounting ring (11);Motor (4) is driven by shaft in fan page body (1) rotation process, wind feeding blades
(12) drive heating member (3) one side heat through air-out passage (221) enter heat space to be added, while air draught blade (14) through into
Wind passage (211) sucks wind in heat space to be added to heating member (3).
3. a kind of heater according to claim 1, it is characterized in that:The guide assembly (2), heating member (3), fan page sheet
Body (1), motor (4) are arranged in order setting from top to bottom, and motor (4) is driven in fan page body (1) rotation process, wind feeding blades
(12) drive blow air over heating member (3) by air-out passage (221) enter heat space to be added, while air draught blade (14) through into
The wind that wind passage (211) is sucked in heat space to be added passes through heating member (3).
4. a kind of heater according to any one in claim 1-3, it is characterized in that:The mounting ring (11), air-supply
Blade (12), connection ring (13) and air draught blade (14) are set gradually from the inside to the outside, wind feeding blades (12) annular array in
On the madial wall of connection ring (13), described wind feeding blades (12) one end is fixedly connected with mounting ring (11), the other end and connection ring
(13) madial wall is fixedly connected, and air draught blade (14) annular array is on the outer circumferential wall of connection ring (13);
The discharge pipe (22) is located in blast pipe (21), and the air-out passage (221) is arranged in discharge pipe (22), it is described into
The side wall of wind passage (211) includes the madial wall of blast pipe (21) and the lateral wall of discharge pipe (22).
5. a kind of heater according to claim 4, it is characterized in that:The wind feeding blades (12) is along clockwise direction forward
It is obliquely installed, when motor (4) drives mounting ring (11) to rotate counterclockwise, wind feeding blades (12) can be driven positioned at heating member
(3) air of one side blows to opposite side;
The air draught blade (14) turns forward setting in the counterclockwise direction, when motor (4) drives mounting ring (11) to revolve counterclockwise
When turning, air draught blade (14) can drive the air of one side to blow to positioned at the one side of heating member (3).
6. a kind of heater according to claim 4, it is characterized in that:The wind feeding blades (12) is in the counterclockwise direction forward
It is obliquely installed, when motor (4) drives mounting ring (11) to rotate clockwise, wind feeding blades (12) can be driven positioned at heating member
(3) air of one side blows to opposite side;
The air draught blade (14) turns forward setting along clockwise direction, when motor (4) drives mounting ring (11) to revolve clockwise
When turning, air draught blade (14) can drive the air of one side to blow to positioned at the one side of heating member (3).
7. a kind of heater according to any one in claim 1-3, it is characterized in that:The mounting ring (11), air draught
Blade (14), connection ring (13) and wind feeding blades (12) are set gradually from the inside to the outside, air draught blade (14) annular array in
On the madial wall of connection ring (13), described air draught blade (14) one end is fixedly connected with mounting ring (11), the other end and connection ring
(13) madial wall is fixedly connected, and wind feeding blades (12) annular array is on the outer circumferential wall of connection ring (13);
The blast pipe (21) is located in discharge pipe (22), and the air intake passage (211) is arranged in blast pipe (21), it is described go out
The side wall of wind passage (221) includes the lateral wall of blast pipe (21) and the madial wall of discharge pipe (22).
8. a kind of heater according to claim 7, it is characterized in that:The wind feeding blades (12) is along clockwise direction forward
It is obliquely installed, when motor (4) drives mounting ring (11) to rotate counterclockwise, wind feeding blades (12) can be driven positioned at heating member
(3) air of one side blows to opposite side;
The air draught blade (14) turns forward setting in the counterclockwise direction, when motor (4) drives mounting ring (11) to revolve counterclockwise
When turning, air draught blade (14) can drive the air of one side to blow to positioned at the one side of heating member (3).
9. a kind of heater according to claim 7, it is characterized in that:The wind feeding blades (12) is in the counterclockwise direction forward
It is obliquely installed, when motor (4) drives mounting ring (11) to rotate clockwise, wind feeding blades (12) can be driven positioned at heating member
(3) air of one side blows to opposite side;
The air draught blade (14) turns forward setting along clockwise direction, when motor (4) drives mounting ring (11) to revolve clockwise
When turning, air draught blade (14) can drive the air of one side to blow to positioned at the one side of heating member (3).
10. a kind of heater according to claim 2, it is characterized in that:When discharge pipe (22) be located at blast pipe (21) it is interior when,
The discharge pipe (22) sets the seal pipe (23) of oriented connection ring (13) extension, the other end towards one end of fan page body (1)
The extension extended in oriented space to be heated is set, and the end face and the end clearance of connection ring (13) of the seal pipe (23) are set
It puts;
When blast pipe (21) be located at discharge pipe (22) it is interior when, one end of blast pipe (21) towards the fan page body (1) is provided with
The seal pipe (23) extended to connection ring (13), the other end set the extension extended in oriented space to be heated, the sealing
The end face of (23) is managed to set with the end clearance of connection ring (13).
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107655061A (en) * | 2017-10-20 | 2018-02-02 | 温州临界科技有限公司 | A kind of heater |
CN110486937A (en) * | 2019-08-23 | 2019-11-22 | 东台宏仁气体有限公司 | A kind of nitrogen heating device |
-
2017
- 2017-10-20 CN CN201721371232.3U patent/CN207378927U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107655061A (en) * | 2017-10-20 | 2018-02-02 | 温州临界科技有限公司 | A kind of heater |
CN110486937A (en) * | 2019-08-23 | 2019-11-22 | 东台宏仁气体有限公司 | A kind of nitrogen heating device |
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