CN205079317U - A cooling fin structure for generating heat tubular heater - Google Patents

Abstract

The utility model relates to a cooling fin structure for generating heat tubular heater, including the radiator and locating the heating tube on this radiator, the shaping has the mounting hole of following radiator length direction and arranging on the radiator, and the heating tube is planted in this mounting hole, one side of radiator has the trip of arranging along radiator length direction, correspond, the opposite side of radiator have with adjacent radiator on the trip draw -in groove that cooperatees and be connected. The utility model discloses the straight forming has and to hide mounting hole wherein with the heating tube on the radiator, with heating tube the plant security of not only having ensured the heat dissipation layer structure in the mounting hole, the steadiness that has improved the heat dissipation layer structure during assembly, can prevent also that covers such as dust is on the heating tube and influence the effect of generating heat, simultaneously, because accessible trip and draw -in groove shirk the formula and connect between the two adjacent radiators, this assembly and connection for the heat dissipation layer structure provides very big facility, additionally, the utility model discloses simple structure, be convenient for production and manufacturing.

Description

For the heat radiating fin structure of the tube heater that generates heat

Technical field

The utility model relates to warming tool technical field, specifically refers to a kind of heat radiating fin structure for the tube heater that generates heat.

Background technology

At present, market there is the multiple equipment for heating of house, the heat-generating pipe that common heating system generally at least includes heat dissipating layer and is arranged on heat dissipating layer, heat-generating pipe mostly is and directly contacts with air, such structure is not only assembled firm not, and because indoor are comparatively dry, in air, lint thing is more, adopts the heating system of said structure to there is larger potential safety hazard.

In order to solve the problem, Authorization Notice No. is that the Chinese utility model patent " the packaging radiator of a kind of compound " (application number: CN201420214360.7) of CN203837088U discloses a kind of structure, comprise radiating piece, and radiating piece protected and is fixedly mounted on the protecting tube of radiating piece both sides, fixedly run through in radiating piece and protecting tube and heat pipe is installed, heat pipe and radiating piece, the top of protecting tube is installed with return main, bottom is installed with influent stream supervisor, the both sides of return main are respectively equipped with the left jam of backflow and the right jam of backflow, return main is upwards provided with steam vent, the both sides of influent stream supervisor are respectively equipped with become a mandarin left jam and the right jam that becomes a mandarin, influent stream supervisor is run through and has some inflow hole, the radiator of said structure adopts combined type to link together, heat pipe is arranged in radiating piece and protecting tube, avoid the heat pipe directly exposed safety problem caused.But owing to cannot connect between adjacent heat radiation body in above-mentioned radiator, can only be produced by radiator as a whole when producing as required, this is that the assembling of radiator and use bring inconvenience.

Therefore, for the structure of current heat abstractor, await doing further improvement.

Utility model content

Technical problem to be solved in the utility model is the present situation for prior art, provides a kind of structure simple, easy to assembly and the heat radiating fin structure for the tube heater that generates heat of stabilized structure.

The utility model solves the problems of the technologies described above adopted technical scheme: a kind of heat radiating fin structure for the tube heater that generates heat, comprise radiator and be located at the heat-generating pipe on this radiator, it is characterized in that: described radiator forms the installing hole arranged along radiator length direction, described heat-generating pipe is inserted in this installing hole; The side of described radiator has the snap fit arranged along radiator length direction, corresponding, the opposite side of described radiator has the draw-in groove in mating connection with the snap fit on adjacent heat radiation body.

As further improvement of the utility model, described radiator comprises spaced apart first heat dissipating layer and the second heat dissipating layer, be connected with the first connecting wall between the trailing flank of this first heat dissipating layer and the front side surface of the second heat dissipating layer, described installing hole takes shape on the first connecting wall.Said structure decreases the weight of radiator, and increases the area of dissipation of radiator, thus plays good radiating effect.

In order to strengthen the radiating effect of radiator further, the leading flank of described first heat dissipating layer having outward extending second connecting wall, this second connecting wall being connected with the 3rd heat dissipating layer.

In above-mentioned each scheme, the rear side of described second heat dissipating layer is provided with side plate, and described second heat dissipating layer dismountable type is connected on this side plate.The trailing flank of described second heat dissipating layer has the 3rd connecting wall extended back, the edge formation of the 3rd connecting wall has the first slide block arranged along the 3rd connecting wall length direction, corresponding, the leading flank of described side plate has the chute coordinated with above-mentioned first slider guide.Adopt said structure, further for the assembling of radiator is provided convenience.

In above-mentioned each preferred version, the top of described radiator is connected with a joint, and one end of this joint is provided with and can be coated on installing hole periphery and the connecting portion blocked the upper end of installing hole.Adopt said structure, to prevent the heat of heat-generating pipe from shedding from installing hole upper end, to make radiator, there is higher radiating effect.

Preferably, the front side of described joint forms decorative cover, and under assembling completion status, described decorative cover and the 3rd heat dissipating layer flush.The rear side of described joint forms the 4th connecting wall, and the edge of the 4th connecting wall has the second slide block coordinated that to lead with the chute on described side plate.Said structure makes the heat dissipating layer structure after assembling comparatively attractive in appearance on the one hand, on the other hand also for the assembling of heat dissipating layer structure is provided convenience.

Preferably, the side of described joint has outward extending Plug Division, corresponding, and the opposite side of described joint has the socket of the grafting that to match with the Plug Division on adjacent joint, so that fitted together by adjacent joint.

Preferably, described snap fit takes shape on a side of the first heat dissipating layer and the second heat dissipating layer, and described draw-in groove takes shape on another side of the first heat dissipating layer and the second heat dissipating layer.

As improvement, the top dismountable type of described radiator is connected with one and by the top cover of radiator top cover, this top cover can offers multiple air outlet.Above-mentioned top cover plays assembling, decoration function on the one hand, on the other hand, the spontaneous heat pipe upper end of the heat of heat-generating pipe can be made to be spread out of by air outlet, and, top cover is connected with radiator, the heat on radiator can be received and conduction further, so just considerably increase the area of dissipation of radiator, improve the radiating effect of heater, compared with the heater that can only dispel the heat from the side in prior art, heater of the present utility model can from top and side heat radiation, and area of dissipation is larger, and heating effect is better.

Preferably, the upper surface of described top cover is provided with the heat-dissipating fin upwards extended.Described heat-dissipating fin comprises the first heat-dissipating fin and the second heat-dissipating fin, and described first heat-dissipating fin is two and is arranged in the top places of top cover respectively, and described second heat-dissipating fin is at least one and length direction along top cover is arranged.Second heat-dissipating fin is preferably three and front and back are arranged in parallel, and the second heat-dissipating fin forms a radian bent on front side of radiator, and such structure can play guide functions to heat, strengthens radiating effect.

In above-mentioned each preferred version, described heat-generating pipe is heat storing type electric heat pipe, and this heat storing type electric heat pipe heating wire is installed on filled stone sand after in iron pipe, and make at filler opening shutoff chock plug.

Compared with prior art, the utility model has the advantage of: the utility model straight forming on radiator has installing hole heat-generating pipe can hidden wherein, heat-generating pipe is plugged in installing hole the security not only ensuring heat dissipating layer structure, the steadiness that improve heat dissipating layer structure during assembling, also can prevent dust etc. from covering on heat-generating pipe affects heating effect; Meanwhile, owing to carrying out dismountable type connection by snap fit and draw-in groove between adjacent two radiators, this is that the assembling of radiator structure and connection provide great convenience; In addition, the utility model structure simple, be convenient to produce and manufacture.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment 1;

Fig. 2 is the exploded view of Fig. 1;

Fig. 3 is the structural representation of Fig. 1 center tap;

Fig. 4 is the syndeton schematic diagram of adjacent two radiator structures in the utility model embodiment 1;

Fig. 5 is the sectional view of Fig. 4;

Fig. 6 is the structural representation of the utility model embodiment 2;

Fig. 7 is the decomposed figure of Fig. 6;

Fig. 8 is the structural representation that in the utility model embodiment 2, multiple radiator connects as one;

Fig. 9 is the structural representation of the utility model embodiment 3.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, the utility model is described in further detail.

Embodiment 1:

As shown in Fig. 1 ~ 5, the heat radiating fin structure for the tube heater that generates heat of the present embodiment comprises radiator 1, heat-generating pipe 2, side plate 3 and joint 4.Radiator 1 forms the installing hole 11 arranged along radiator 1 length direction, heat-generating pipe 2 is inserted in this installing hole 11.Heat-generating pipe 2 in the present embodiment is heat storing type electric heat pipe, and this heat storing type electric heat pipe heating wire is installed on filled stone sand after in iron pipe, and make at filler opening shutoff chock plug.The side of radiator 1 has the snap fit 12 arranged along radiator 1 length direction, corresponding, the opposite side of radiator 1 has the draw-in groove 13 in mating connection with the snap fit 12 on adjacent heat radiation body 1.Utilize above-mentioned snap fit 12 multiple radiator structure can be connected as one with draw-in groove 13 structure, as shown in Figure 4,5, present embodiment illustrates the structure that two radiator structures link together.

Concrete, radiator 1 comprises spaced apart first heat dissipating layer 14 and the second heat dissipating layer 15, and snap fit 12 takes shape on a side of the first heat dissipating layer 14 and the second heat dissipating layer 15, and draw-in groove 13 takes shape on another side of the first heat dissipating layer 14 and the second heat dissipating layer 15.Be connected with the first connecting wall 101 between the trailing flank of the first heat dissipating layer 14 and the front side surface of the second heat dissipating layer 15, namely installing hole 11 takes shape on the first connecting wall 101.The leading flank of the first heat dissipating layer 14 has outward extending second connecting wall 102, this second connecting wall 102 is connected with the 3rd heat dissipating layer 16.

In the present embodiment, side plate 3 is arranged at the rear side of the second heat dissipating layer 15, and the second heat dissipating layer 15 dismountable type is connected on side plate 3.Concrete, the trailing flank of the second heat dissipating layer 15 has the 3rd connecting wall 103 extended back, the edge formation of the 3rd connecting wall 103 has the first slide block 104 arranged along the 3rd connecting wall 103 length direction, corresponding, the leading flank of side plate 3 has the chute 31 coordinated that to lead with above-mentioned first slide block 104, so that assembling.

As shown in Figure 2,3, the top of radiator 1 is connected with a joint 4, one end of joint 4 is provided with and can be coated on installing hole 11 periphery and the connecting portion 41 blocked the upper end of installing hole 11, the both sides of connecting portion 41 have the locking hole 411 passed for screw, to make to be connected firmly between joint 4 and radiator 1.Said structure can prevent the heat of heat-generating pipe 2 from shedding from installing hole 11 upper end, has higher radiating effect to make radiator 1.The front side of joint 4 forms decorative cover 42, and under assembling completion status, decorative cover 42 and the 3rd heat dissipating layer 16 flush.The edge that the rear side of joint 4 forms the 4th connecting wall the 43, four connecting wall 43 has the second slide block 44 coordinated that to lead with the chute 31 on side plate 3.The side of joint 4 has outward extending Plug Division 45, corresponding, and the opposite side of described joint 4 has the socket 46 of the grafting that to match with the Plug Division 45 on adjacent joint 4, so that fitted together by adjacent joint 4.

Embodiment 2:

The difference of the present embodiment and embodiment 1 is: as shown in Fig. 6,7,8, and radiator 1 top in the present embodiment does not arrange joint 4, but arranges one and by the top cover 5 of radiator 1 top cover, this top cover 5 can offer multiple air outlet 51.Above-mentioned top cover 5 one aspect plays assembling, decoration function, on the other hand, the heat of heat-generating pipe 2 spontaneous heat pipe 2 upper end can be made to be spread out of by air outlet 51, and, top cover 5 is connected with radiator 1, the heat on radiator 1 can be received and conduction further, so just considerably increase the area of dissipation of radiator 1, improve the radiating effect of heater, compared with the heater that can only dispel the heat from the side in prior art, the heater of the present embodiment can from top and side heat radiation, and area of dissipation is larger, and heating effect is better.

Embodiment 3:

The difference of the present embodiment and embodiment 2 is: as shown in Figure 9, the upper surface of the top cover 5 in the present embodiment is provided with the heat-dissipating fin 52 upwards extended.Heat-dissipating fin 52 in the present embodiment comprises the first heat-dissipating fin 521 and the second heat-dissipating fin 522, first heat-dissipating fin 521 and is two groups and the top places being arranged in top cover 5 respectively, and the second heat-dissipating fin 522 is three groups and length direction along top cover 5 is arranged.Be arranged in parallel before and after three group of second heat-dissipating fin 522, and the second heat-dissipating fin 522 forms the radian of a bending on front side of radiator 1, such structure can play guide functions to heat, strengthens radiating effect.

Claims (10)

1. the heat radiating fin structure for the tube heater that generates heat, comprise radiator (1) and be located at the heat-generating pipe (2) on this radiator (1), it is characterized in that: described radiator (1) forms the installing hole (11) arranged along radiator (1) length direction, described heat-generating pipe (2) is inserted in this installing hole (11); The side of described radiator (1) has the snap fit (12) arranged along radiator (1) length direction, corresponding, the opposite side of described radiator (1) has the draw-in groove (13) in mating connection with the snap fit (12) on adjacent heat radiation body (1).

2. the heat radiating fin structure for the tube heater that generates heat according to claim 1, it is characterized in that: described radiator (1) has the first heat dissipating layer (14) and second heat dissipating layer (15) of time interval layout, be connected with the first connecting wall (101) between the trailing flank of this first heat dissipating layer (14) and the front side surface of the second heat dissipating layer (15), described installing hole (11) takes shape on the first connecting wall (101).

3. the heat radiating fin structure for the tube heater that generates heat according to claim 2, it is characterized in that: the leading flank of described first heat dissipating layer (14) has outward extending second connecting wall (102), this second connecting wall (102) is connected with the 3rd heat dissipating layer (16); The rear side of described second heat dissipating layer (15) is provided with side plate (3), and described second heat dissipating layer (15) dismountable type is connected on this side plate (3); Described snap fit (12) takes shape on a side of the first heat dissipating layer (14) and the second heat dissipating layer (15), and described draw-in groove (13) takes shape on another side of the first heat dissipating layer (14) and the second heat dissipating layer (15).

4. the heat radiating fin structure for the tube heater that generates heat according to claim 3, it is characterized in that: the trailing flank of described second heat dissipating layer (15) has the 3rd connecting wall (103) extended back, the edge formation of the 3rd connecting wall (103) has the first slide block (104) arranged along the 3rd connecting wall (103) length direction, corresponding, the leading flank of described side plate (3) has the chute (31) coordinated that to lead with above-mentioned first slide block (104).

5. the heat radiating fin structure for the tube heater that generates heat according to claim 3, it is characterized in that: the top of described radiator (1) is connected with a joint (4), one end of this joint (4) is provided with and can be coated on installing hole (11) periphery and the connecting portion (41) blocked the upper end of installing hole (11).

6. the heat radiating fin structure for the tube heater that generates heat according to claim 5, it is characterized in that: the front side of described joint (4) forms decorative cover (42), under assembling completion status, described decorative cover (42) and the 3rd heat dissipating layer (16) flush; The rear side of described joint (4) forms the 4th connecting wall (43), and the edge of the 4th connecting wall (43) has the second slide block (44) coordinated that to lead with the chute (31) on described side plate (3); The side of described joint (4) has outward extending Plug Division (45), corresponding, the opposite side of described joint (4) has the socket (46) of the grafting that to match with the Plug Division (45) on adjacent joint (4).

7. the heat radiating fin structure for the tube heater that generates heat according to claim 3, it is characterized in that: the top dismountable type of described radiator (1) is connected with one and by the top cover (5) of radiator (1) top cover, this top cover (5) can offers multiple air outlet (51).

8. the heat radiating fin structure for the tube heater that generates heat according to claim 7, is characterized in that: the upper surface of described top cover (5) is provided with the heat-dissipating fin (52) upwards extended.

9. the heat radiating fin structure for the tube heater that generates heat according to claim 8, it is characterized in that: described heat-dissipating fin (52) comprises the first heat-dissipating fin (521) and the second heat-dissipating fin (522), described first heat-dissipating fin (521) is two and is arranged in the top place of top cover (5) respectively, and described second heat-dissipating fin (522) is arranged at least one and along the length direction of top cover (5).

10. the heat radiating fin structure for the tube heater that generates heat according to claim arbitrary in claim 1 ~ 9, it is characterized in that: described heat-generating pipe (2) is heat storing type electric heat pipe, this heat storing type electric heat pipe heating wire is installed on filled stone sand after in iron pipe, and make at filler opening shutoff chock plug.