CN105091066A - Heating radiator - Google Patents

Abstract

The invention discloses a heating radiator. The heating radiator comprises a housing, a heat conducting panel, a heat conducting tray, heat supply plates, heating pipes, a machine head cover and fans, wherein a semi-open space is formed through the housing in an enclosing manner; a closed cavity is formed through the heat conducting panel, the machine head cover and the housing in an enclosing and matched manner; air inlet holes are formed in the machine head cover; air holes are formed in the heat conducting panel; and the heat conducting tray and the heat supply plates are sequentially arranged in the space formed by the heat conducting panel and the housing. According to the heating radiator, when the heating function is required, the fans work to suck external low-temperature air into the heating radiator; as the apertures of the air holes in the heat conducting panel are relatively small, and the laminated structure of the heat conducting panel, the heat conducting tray and the heat supply plates is arranged, the flowing distance of air in the heating radiator is increased, the flowing time of air in the heating radiator is prolonged, and accordingly, the heating efficiency is high; and heating elements in the heating pipes are made of carbon fibers, and outer pipes are made of a quartz and glass lead material or stainless steel, so that the heating efficiency and the calorific value can be improved.

Description

Radiator

Technical field

The present invention relates to heating device technology area, particularly relate to radiator.

Background technology

Existing electric heater adopts electrothermal tube directly to heat outside air, and cause radiator cost high, heating efficiency is low, the large and complex structure of power consumption.

In view of this, special proposition the present invention.

Summary of the invention

The invention provides a kind of radiator, to solve, existing heating sheet structure is complicated, cost is high, heating efficiency is low and the problem that power consumption is large.

In order to solve the problem, the invention discloses a kind of radiator, comprise shell, heat conduction panel, heat conduction pallet, heating plate, heating tube, nose cover, fan.

Shell encloses and forms semi-open space, heat conduction panel and nose cover coordinate with shell and enclose formation enclosed cavity, nose cover is provided with the air admission hole entering this enclosed cavity for outside air, heat conduction panel is provided with and flow to extraneous air-vent for the air in this enclosed cavity, air-vent on air admission hole on nose cover and heat conduction panel is positioned at the not ipsilateral of this enclosed cavity, heat conduction pallet is disposed with in the space that heat conduction panel and shell are formed, heating plate, form heat conduction panel, heat conduction pallet, heating plate, the structure that shell stacks gradually, the gap for air flowing is provided with between heating plate and shell, the space of flowing for air is provided with between heating plate and heat conduction pallet, heating tube is provided with and heating tube and heat conduction pallet are fixed between heat conduction pallet and heat conduction panel, heat conduction panel, heat conduction pallet, heating plate is provided with air-vent, heat conduction panel, air-vent position on heat conduction pallet is corresponding and the former vent diameter is less than the latter's vent diameter, fan is positioned at heat conduction pallet, heating plate side, and the space that fan outlet is formed towards heating plate and shell, nose cover hides fan.Air-vent on heating tube and heat conduction pallet is spaced line by line, adjacent rows heating tube center is provided with a line air-vent, heating tube comprises outer tube and is located at the calandria of outer tube, calandria is carbon fibre material, and calandria is helicoidal structure, outer tube is that quartz adds the plumbous material of glass or stainless steel.

Alternatively, shell encloses and forms rectangular grooved, one end of groove top and groove is open, nose cover is positioned at one end of groove and closes this end, air admission hole on nose cover is positioned at this end, heat conduction panel enclosed slot top, heating plate comprises the first heating plate and the second heating plate, both stacked settings and the gap had between the two for air flowing, form heat conduction panel, heat conduction pallet, first heating plate, second heating plate, the structure that the housing parts forming bottom land stacks gradually, there is between second heating plate and the housing parts forming bottom land the gap of flowing for air, there is between first heating plate and heat conduction pallet the gap of flowing for air, fan outlet is towards the gap between the second heating plate and the housing parts forming bottom land.

Alternatively, the first heating plate is provided with air-vent in the one end near fan, and the second heating plate is provided with air-vent in the one end away from fan.

Alternatively, first heating plate comprises base plate and is arranged at the wing plate facing plate both sides directly, wing plate makes the first heating plate entirety in grooved higher than base plate, air-vent is located on base plate, second heating plate is same with the first heating plate to be arranged, and the first heating plate wing plate height is less than the second heating plate wing plate height, the wing plate of the first heating plate overlays on the wing plate of the second heating plate, forms the gap of flowing for air at the base plate of the first heating plate and the floor piece of the second heating plate.

Alternatively, heat conduction pallet is provided with multiple groove, and groove backs down to be put, heating tube is fixed with in groove, the cell wall top of adjacent grooves connects, and the part that this connects adjacent slot walls is provided with air-vent, and adjacent grooves and the first heating plate enclose the gap in flowing for air.

Alternatively, portion is provided with the base plate that brace summer supports the second heating plate in the enclosure, has the gap of flowing for air between brace summer and the housing parts forming bottom land.

Alternatively, cover top portion has the bound edge bent to the inside, and heat conduction panel, heat conduction pallet, the first heating plate, the second heating plate, nose cover are limited in shell by the edge of bound edge compacting heat conduction panel, heat conduction pallet, the first heating plate, the second heating plate, nose cover.

Alternatively, heat conduction pallet is provided with four grooves, and adjacent grooves and the first heating plate enclose three gaps of flowing for air, and fan is provided with three, and its air outlet is corresponding described three gaps for air flowing respectively.

Alternatively, nose cover is provided with control panel and temperature sensor, message handler, and fan, control panel and temperature sensor are all electrically connected with message handler, and control panel comprises display screen, button and remote control induction installation.

Alternatively, calandria is specially graphite selenium.

The present invention has following beneficial effect:

Radiator of the present invention, air-vent on heating tube and heat conduction pallet is spaced line by line, adjacent rows heating tube center is provided with a line air-vent, the heat that heating tube is produced can effectively distribute and not accumulate in radiator, heating tube comprises outer tube and is located at the calandria of outer tube, and calandria is carbon fibre material, and calandria is helicoidal structure, outer tube is that quartz adds the plumbous material of glass or stainless steel, can improve heating efficiency and caloric value.When needs heating function, fan work, by the air admission hole of nose cover by extraneous Cryogenic air inhalation machine skull, and then by fan, Cryogenic air is blown into the gap being provided with between heating plate and shell and flowing for air, air-vent on heating plate flow to the space supplying air to flow between heating plate and heat conduction pallet below heating plate, air-vent again on heat conduction pallet flow to above heat conduction pallet below heat conduction pallet, air is in flow process, due to the heat effect of heating tube, Cryogenic air temperature is increased gradually and becomes high temperature air, finally flow to radiator outside from the air-vent heat conduction panel.Because the air-vent aperture on heat conduction panel is less and be provided with the stepped construction of heat conduction panel, heat conduction pallet, heating plate, thus make air flow distance in radiator increase, flowing time is longer, thus Cryogenic air temperature can be improved quickly.Heating sheet structure of the present invention is simple, cost is low, heating efficiency is higher and effectively can reduce power consumption.

Accompanying drawing explanation

By reading hereafter detailed description of the preferred embodiment, various other advantage and benefit will become cheer and bright for those of ordinary skill in the art.Accompanying drawing only for illustrating the object of preferred embodiment, and does not think limitation of the present invention.And in whole accompanying drawing, represent identical parts by identical reference symbol.In the accompanying drawings:

Fig. 1 is the structural representation of radiator of the present invention;

Fig. 2 is the right view of Fig. 1.

Fig. 3 is the A-A direction view of Fig. 1.

Fig. 4 is the structural representation of shell.

Fig. 5 is the B-B direction view of Fig. 4.

Fig. 6 is the structural representation of heat conduction panel.

Fig. 7 is the structural representation of heat conduction pallet.

Fig. 8 is that schematic diagram is looked on a left side of Fig. 7.

Fig. 9 is the structural representation of the first heating plate.

Figure 10 is that schematic diagram is looked on a left side of Fig. 9.

Figure 11 is the structural representation of the second heating plate.

Figure 12 is that schematic diagram is looked on a left side of Figure 11.

Figure 13 is the structural representation of head.

Figure 14 is the C-C direction view of Figure 13.

Figure 15 is the scheme of installation of heating tube on heat conduction pallet.

1, shell 11, bound edge 12, brace summer 2, heat conduction panel 21, air-vent 3, heat conduction pallet 31, wing plate 32, air-vent 33, heating tube seat 4, first heating plate 41, wing plate 42, air-vent 5, second heating plate 51, wing plate 52, air-vent 6, nose cover 61, wing plate 62, gripper shoe 63, fan 64, display floater 65, air admission hole 7, gap 83, heating tube 81, first gap 82, second, third space.

Detailed description of the invention

Hereinafter also describe the present invention in detail with reference to accompanying drawing in conjunction with the embodiments.It should be noted that, when not conflicting, the embodiment in the present invention and the feature in embodiment can combine mutually.

Composition graphs 1 to 15, radiator of the present invention, comprises shell, heat conduction panel, heat conduction pallet, heating plate, heating tube, nose cover, fan.

Shell encloses and forms semi-open space, heat conduction panel and nose cover coordinate with shell and enclose formation enclosed cavity, nose cover is provided with the air admission hole entering this enclosed cavity for outside air, heat conduction panel is provided with and flow to extraneous air-vent for the air in this enclosed cavity, air-vent on air admission hole on nose cover and heat conduction panel is positioned at the not ipsilateral of this enclosed cavity, heat conduction pallet is disposed with in the space that heat conduction panel and shell are formed, heating plate, form heat conduction panel, heat conduction pallet, heating plate, the structure that shell stacks gradually, the gap for air flowing is provided with between heating plate and shell, the space of flowing for air is provided with between heating plate and heat conduction pallet, heating tube is provided with and heating tube and heat conduction pallet are fixed between heat conduction pallet and heat conduction panel, heat conduction panel, heat conduction pallet, heating plate is provided with air-vent, heat conduction panel, air-vent position on heat conduction pallet is corresponding and the former vent diameter is less than the latter's vent diameter.

Air-vent on heating tube and heat conduction pallet is spaced line by line, adjacent rows heating tube center is provided with a line air-vent, heating tube comprises outer tube and is located at the calandria of outer tube, calandria is carbon fibre material, and calandria is helicoidal structure, outer tube is that quartz adds the plumbous material of glass or stainless steel.

Calandria is specially graphite selenium, and its advantage is, caloric value is large, energy-conservation, is 5-8 times of traditional electrical heat pipe heat production; Far infrared is utilized to carry out heat transfer.

Optimum 2 meters of the length of the calandria often in row heating tube.Outer tube is the plumbous material of quartz+glass or stainless steel, and its advantage is that heat transfer is fast, and matter is hard and light.

Fan is positioned at heat conduction pallet, heating plate side, and the space that fan outlet is formed towards heating plate and shell, nose cover hides fan.

Nose cover is provided with control panel and temperature sensor, message handler, and fan, control panel, heating tube and temperature sensor are all electrically connected with message handler, and control panel comprises display screen, button and remote control induction installation.Detect ambient temperature by temperature sensor, reach impose a condition time feedback signal to message handler, message handler generation instruction makes fan and heating tube work.

In the present embodiment, shell encloses and forms rectangular grooved, and one end of groove top and groove is open, and nose cover is positioned at one end of groove and closes this end, and the air admission hole on nose cover is positioned at this end, and for preventing nose cover from from then on making a clean sweep of out, nose cover and shell are connected by screw.

Heat conduction panel enclosed slot top, heating plate comprises the first heating plate and the second heating plate, both stacked settings and have between the two for air flowing gap i.e. the second gap 82.The structure that formation heat conduction panel, heat conduction pallet, the first heating plate, the second heating plate, the housing parts forming bottom land stack gradually.

Cover top portion has the bound edge bent to the inside, the edge of bound edge compacting heat conduction panel, the wing plate 41 at the first heating plate edge suppressed by the wing plate 31 of the edge compacting heat conduction tray edge of heat conduction panel, wing plate 31, the wing plate 51 at the second heating plate edge suppressed by first heating plate wing plate 41, the edge of press skull is gone back in bound edge compacting, heat conduction panel, heat conduction pallet, the first heating plate, the second heating plate, nose cover is limited in shell.

Portion is provided with the base plate that brace summer supports the second heating plate in the enclosure, there is between brace summer and the housing parts forming bottom land the gap of flowing for air, make that there is between the second heating plate and the housing parts forming bottom land gap i.e. first gap 81 of flowing for air, have the gap and third space 83 of flowing for air between first heating plate and heat conduction pallet, fan outlet is towards the gap between the second heating plate and the housing parts forming bottom land.

The one side open that nose cover contacts with the housing parts forming bottom land, in order to suitably increase contact area, arranges wing plate 61 in this face of nose cover.

Can be arranged on nose cover to make fan, and the air outlet of fan can towards the gap between the second heating plate and the housing parts forming bottom land, in nose cover, be provided with gripper shoe 62, the spacing between gripper shoe and the housing parts forming bottom land and the height of fan match.Fan can be arranged on nose cover, air outlet position can be made again to meet the demands.

First heating plate comprises base plate and is arranged at the wing plate facing plate both sides directly, and wing plate makes the first heating plate entirety in grooved higher than base plate, and air-vent is located on base plate.

Second heating plate is same with the first heating plate to be arranged, and the first heating plate wing plate height is less than the second heating plate wing plate height, the wing plate of the first heating plate overlays on the wing plate of the second heating plate, forms the gap of flowing for air at the base plate of the first heating plate and the floor piece of the second heating plate.

First heating plate is provided with air-vent in the one end near fan, and the second heating plate is provided with air-vent in the one end away from fan.

This kind of vibrational power flow, can be made the gap of Cryogenic air between the second heating plate and the housing parts forming bottom land, then be risen to above the second heating plate by the air-vent on the second heating plate.Then flow through for the gap that air flows between the first heating plate and the second heating plate, then risen to above the first heating plate by the air-vent on the first heating plate.Air, through the flowing of S shape, adds the flow distance of air in radiator and flowing time, makes to improve the efficiency of heating surface of air.

Heat conduction pallet is provided with multiple groove, and groove backs down to be put, and is fixed with heating tube in groove, and the cell wall top of adjacent grooves connects, and the part that this connects adjacent slot walls is provided with air-vent, and adjacent grooves and the first heating plate enclose the gap in flowing for air.In the present embodiment, heat conduction pallet is provided with four grooves, and adjacent grooves and the first heating plate enclose three gaps of flowing for air, and fan is provided with three, and its air outlet is corresponding described three gaps for air flowing respectively.

Radiator of the present invention, air-vent on heating tube and heat conduction pallet is spaced line by line, adjacent rows heating tube center is provided with a line air-vent, the heat that heating tube is produced can effectively distribute and not accumulate in radiator, heating tube comprises outer tube and is located at the calandria of outer tube, and calandria is carbon fibre material, and calandria is helicoidal structure, outer tube is that quartz adds the plumbous material of glass or stainless steel, can improve heating efficiency and caloric value.When needs heating function, fan work, by the air admission hole of nose cover by extraneous Cryogenic air inhalation machine skull, and then by fan, Cryogenic air is blown into the gap being provided with between heating plate and shell and flowing for air, air-vent on heating plate flow to the space supplying air to flow between heating plate and heat conduction pallet below heating plate, air-vent again on heat conduction pallet flow to above heat conduction pallet below heat conduction pallet, air is in flow process, due to the heat effect of heating tube, Cryogenic air temperature is increased gradually and becomes high temperature air, finally flow to radiator outside from the air-vent heat conduction panel.Because the air-vent aperture on heat conduction panel is less and be provided with the stepped construction of heat conduction panel, heat conduction pallet, heating plate, thus make air flow distance in radiator increase, flowing time is longer, thus Cryogenic air temperature can be improved quickly.Heating sheet structure of the present invention is simple, cost is low, heating efficiency is higher and effectively can reduce power consumption.

Last it is noted that above embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (10)

1. a radiator, is characterized in that, comprises shell, heat conduction panel, heat conduction pallet, heating plate, heating tube, nose cover, fan,

Shell encloses and forms semi-open space, heat conduction panel and nose cover coordinate with shell and enclose formation enclosed cavity, nose cover is provided with the air admission hole entering this enclosed cavity for outside air, heat conduction panel is provided with and flow to extraneous air-vent for the air in this enclosed cavity, air-vent on air admission hole on nose cover and heat conduction panel is positioned at the not ipsilateral of this enclosed cavity, heat conduction pallet is disposed with in the space that heat conduction panel and shell are formed, heating plate, form heat conduction panel, heat conduction pallet, heating plate, the structure that shell stacks gradually, the gap for air flowing is provided with between heating plate and shell, the space of flowing for air is provided with between heating plate and heat conduction pallet, heating tube is provided with and heating tube and heat conduction pallet are fixed between heat conduction pallet and heat conduction panel, heat conduction panel, heat conduction pallet, heating plate is provided with air-vent, heat conduction panel, air-vent position on heat conduction pallet is corresponding and the former vent diameter is less than the latter's vent diameter,

Fan is positioned at heat conduction pallet, heating plate side, and the space that fan outlet is formed towards heating plate and shell, nose cover hides fan,

Air-vent on heating tube and heat conduction pallet is spaced line by line, and adjacent rows heating tube center is provided with a line air-vent,

Heating tube comprises outer tube and is located at the calandria of outer tube, and calandria is carbon fibre material, and calandria is helicoidal structure, and outer tube is that quartz adds the plumbous material of glass or stainless steel.

2. radiator according to claim 1, it is characterized in that: shell encloses and forms rectangular grooved, one end of groove top and groove is open, nose cover is positioned at one end of groove and closes this end, air admission hole on nose cover is positioned at this end, heat conduction panel enclosed slot top, heating plate comprises the first heating plate and the second heating plate, both stacked settings and the gap had between the two for air flowing, form heat conduction panel, heat conduction pallet, first heating plate, second heating plate, the structure that the housing parts forming bottom land stacks gradually, there is between second heating plate and the housing parts forming bottom land the gap of flowing for air, there is between first heating plate and heat conduction pallet the gap of flowing for air, fan outlet is towards the gap between the second heating plate and the housing parts forming bottom land.

3. radiator according to claim 1, is characterized in that: the first heating plate is provided with air-vent in the one end near fan, and the second heating plate is provided with air-vent in the one end away from fan.

4. radiator according to claim 2, is characterized in that: the first heating plate comprises base plate and is arranged at the wing plate facing plate both sides directly, and wing plate makes the first heating plate entirety in grooved higher than base plate, and air-vent is located on base plate,

Second heating plate is same with the first heating plate to be arranged, and the first heating plate wing plate height is less than the second heating plate wing plate height, the wing plate of the first heating plate overlays on the wing plate of the second heating plate, forms the gap of flowing for air at the base plate of the first heating plate and the floor piece of the second heating plate.

5. radiator according to claim 2, it is characterized in that: heat conduction pallet is provided with multiple groove, groove backs down to be put, heating tube is fixed with in groove, the cell wall top of adjacent grooves connects, the part that this connects adjacent slot walls is provided with air-vent, and adjacent grooves and the first heating plate enclose the gap in flowing for air.

6. radiator according to claim 2, is characterized in that: portion is provided with the base plate that brace summer supports the second heating plate in the enclosure, has the gap of flowing for air between brace summer and the housing parts forming bottom land.

7. radiator according to claim 2, it is characterized in that: cover top portion has the bound edge bent to the inside, heat conduction panel, heat conduction pallet, the first heating plate, the second heating plate, nose cover are limited in shell by the edge of bound edge compacting heat conduction panel, heat conduction pallet, the first heating plate, the second heating plate, nose cover.

8. radiator according to claim 5, it is characterized in that: heat conduction pallet is provided with four grooves, adjacent grooves and the first heating plate enclose three gaps of flowing for air, and fan is provided with three, and its air outlet is corresponding described three gaps for air flowing respectively.

9. the radiator according to any one of claim 1-8, it is characterized in that: on nose cover, be provided with control panel and temperature sensor, message handler, fan, control panel and temperature sensor are all electrically connected with message handler, and control panel comprises display screen, button and remote control induction installation.

10. the radiator according to any one of claim 1-8, is characterized in that: calandria is specially graphite selenium.