CN214009610U - Nano far infrared energy-saving heater convenient for heat dissipation - Google Patents

Abstract

The utility model relates to the technical field of heating equipment, and discloses a nanometer far infrared energy-saving heater convenient for heat dissipation, which comprises a heater main body, wherein one side of the heater main body is communicated with a cooling pipe, a heat dissipation mechanism is connected on the cooling pipe, and one end of the cooling pipe, which is far away from the heater main body, is connected with a dustproof mechanism; the heat dissipation mechanism comprises a cross-shaped support frame, the support frame is fixedly connected to the inner wall of the cooling pipe, one end, far away from the heater main body, of the support frame is connected with two spiral fan blades through a driving assembly, a heat exchange coil is fixedly connected to the inner wall of the cooling pipe, located between the heater main body and the support frame, and the two ends of the heat exchange coil are symmetrically communicated with a liquid inlet pipe and a liquid outlet pipe. The utility model provides the high radiating effect to the heater, and then improved the work efficiency of heater, avoid leading to equipment to damage, convenient dust to the dust screen clears up simultaneously, has guaranteed the normal radiating effect of heater.

Description

Nano far infrared energy-saving heater convenient for heat dissipation

Technical Field

The utility model relates to a firing equipment technical field especially relates to a nanometer far infrared energy-saving heater convenient to heat dissipation.

Background

Compared with traditional heating methods such as steam, hot air and resistance, the nanometer far infrared heating technology has the advantages of high heating speed, energy conservation, less pollution and high safety, and therefore the far infrared heating technology arouses the attention of people day by day and obtains wide application.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving among the prior art nanometer far-infrared heater structure complicated, moreover because of its inside seal, the heat of during operation part self is difficult for volatilizing, leads to the temperature to gather, influences the work efficiency of heater, can lead to the problem of equipment damage even, and the radiating nanometer far-infrared energy-saving heater of being convenient for that provides.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a nanometer far infrared energy-saving heater convenient for heat dissipation comprises a heater main body, wherein a cooling pipe is communicated with one side of the heater main body, a heat dissipation mechanism is connected onto the cooling pipe, and a dustproof mechanism is connected to one end, far away from the heater main body, of the cooling pipe;

the heat dissipation mechanism comprises a cross-shaped support frame, the support frame is fixedly connected to the inner pipe wall of the cooling pipe, one end of the support frame, far away from the heater main body, is connected with two spiral fan blades through a driving assembly, a heat exchange coil is fixedly connected to the pipe wall of the cooling pipe, between the heater main body and the support frame, the two ends of the heat exchange coil are symmetrically communicated with a liquid inlet pipe and a liquid outlet pipe, the top of the outer pipe wall of the cooling pipe is connected with a cooling box, cooling liquid is arranged in the cooling box, one end, far away from the heat exchange coil, of the liquid inlet pipe and the liquid outlet pipe sequentially penetrates through the pipe wall of the cooling pipe and the bottom of the cooling box, the inner box bottom of the cooling box is connected with a water pump, the output end of the water pump is connected with one end, far away from the heat exchange coil, of the liquid inlet pipe, one side, close to one end of the cooling pipe, of the cooling box is provided with a semiconductor refrigerator, the cold end of the semiconductor refrigerator is arranged in the cooling liquid, and the hot end of the semiconductor refrigerator is arranged outside the cooling box.

Preferably, dustproof mechanism includes the support ring, the support ring sets up the one end of keeping away from the heater main part at the cooling tube, fixedly connected with dust screen in the support ring, the support ring is close to the one end fixedly connected with stay tube of heater main part, the one end that the heater main part was kept away from to the cooling tube is seted up with stay tube assorted support groove, the one end that the support ring was kept away from to the stay tube is inserted and is established in supporting the groove, the tank bottom fixedly connected with spring in support groove, the one end that the support ring was kept away from to the other end fixed connection of spring in the stay tube.

Preferably, drive assembly includes driving motor, driving motor fixed connection keeps away from heat exchange coil's one end at the support frame, heat exchange coil's one end is kept away from to the support frame is connected with two axis of rotation through two rotation pieces, and two axis of rotation set up about driving motor symmetry, driving motor's output passes through the driving medium and is connected with two axis of rotation transmissions, two fixed cup joints of two spiral flabellum are on the axle wall of two axis of rotation.

Preferably, an annular sealing groove is formed in the outer side groove wall of the support groove close to one end of the support ring, a sealing ring is connected in the sealing groove, the inner annular wall of the sealing ring is arranged on the outer pipe wall of the support pipe, and the support pipe is connected to the inner annular wall of the sealing ring in a sealing and sliding mode.

Preferably, the rotating part comprises an annular block with a T-shaped section, the annular block is fixedly connected to one end, close to the support frame, of the rotating shaft, a matched annular groove is formed in the position, corresponding to the annular block, of one end, far away from the heat exchange coil, of the support frame, and the annular block is rotatably connected to the annular groove.

Preferably, the inner pipe wall of the support pipe at a position far away from one end of the support ring is symmetrically and fixedly connected with limiting blocks, the inner side groove wall of the support groove corresponding to the limiting blocks is provided with matched limiting grooves, and the limiting blocks are slidably connected in the corresponding limiting grooves.

Preferably, the top of the cooling box is communicated with a liquid supplementing pipe.

Preferably, a transparent observation plate is embedded in the wall of one side of the cooling box along the vertical direction, and scales are arranged on the observation plate.

Preferably, the driving medium includes driving sprocket, driving sprocket passes through shaft coupling fixed connection on driving motor's output, the one end fixedly connected with driven sprocket of support frame is kept away from to the axis of rotation, and driving sprocket passes through the chain and connects with two driven sprocket transmissions.

Compared with the prior art, the utility model provides a nanometer far infrared energy-saving heater convenient to heat dissipation possesses following beneficial effect:

1. this energy-conserving heater of nanometer far infrared convenient to heat dissipation, through setting up heat dissipation mechanism, the coolant liquid of semiconductor refrigerator in to the cooler bin refrigerates, the coolant liquid after the water pump will refrigerate passes through the feed liquor pipe and carries in the heat transfer coil, the coolant liquid rethread liquid outlet pipe in the heat transfer coil is transported back to the cooler bin, heat transfer coil cools down near the air of heat transfer coil in to the cooler bin, start drive assembly afterwards, drive two helical fan blade rotations, will get rid of in the air suction of dust through dustproof mechanism is to the cooler bin, cool down to air when passing through heat transfer coil again, make the air after the cooling enter into the heater main part in, the radiating effect to the heater has been improved, and then the work efficiency of heater has been improved, avoid leading to equipment damage.

2. This energy-conserving heater of nanometer far infrared convenient to heat dissipation, through setting up dustproof mechanism, filter the air that gets into in the cooling tube through the dust screen, block the dust in the outside of dust screen, when needs clear up the dust screen, exert the pulling force of keeping away from heater main part direction to the support ring, drive the stay tube after the support ring atress and support the inslot motion, and stretch the spring, loosen the support ring again, it resets to be driven the support ring by tensile spring, the support ring striking is on the cooling tube, make the dust on the dust screen shake and fall, convenient dust to on the dust screen is cleared up, the normal radiating effect of heater has been guaranteed.

The part that does not relate to among the device all is the same with prior art or can adopt prior art to realize, the utility model provides high to the radiating effect of heater, and then improved the work efficiency of heater, avoid leading to equipment to damage, convenient dust to the dust screen is cleared up simultaneously, has guaranteed the normal radiating effect of heater.

Drawings

Fig. 1 is a schematic structural view of a nano far infrared energy-saving heater convenient for heat dissipation according to the present invention;

fig. 2 is a schematic structural view of a connection part of a cooling pipe and a heat exchange coil of the nano far infrared energy-saving heater convenient for heat dissipation of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 1;

fig. 4 is an enlarged view of a portion B in fig. 1.

In the figure: the device comprises a heater main body 1, a cooling pipe 2, a support frame 3, a spiral fan blade 4, a heat exchange coil 5, a liquid inlet pipe 6, a liquid outlet pipe 7, a cooling box 8, cooling liquid 9, a water pump 10, a semiconductor refrigerator 11, a support ring 12, a dust screen 13, a support pipe 14, a support groove 15, a spring 16, a driving motor 17, a rotating shaft 18, a sealing groove 19, a sealing ring 20, an annular block 21, an annular groove 22, a limiting block 23, a limiting groove 24, a liquid supplementing pipe 25, an observation plate 26, a driving sprocket 27, a driven sprocket 28 and a chain 29.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-4, a nano far infrared energy-saving heater convenient for heat dissipation comprises a heater main body 1, wherein one side of the heater main body 1 is communicated with a cooling pipe 2, the cooling pipe 2 is connected with a heat dissipation mechanism, and one end of the cooling pipe 2, which is far away from the heater main body 1, is connected with a dustproof mechanism;

the heat dissipation mechanism comprises a cross-shaped support frame 3, the support frame 3 is fixedly connected to the inner pipe wall of the cooling pipe 2, one end of the support frame 3, far away from the heater main body 1, is connected with two spiral fan blades 4 through a driving component, the inner pipe wall of the cooling pipe 2, between the heater main body 1 and the support frame 3, is fixedly connected with a heat exchange coil 5, two ends of the heat exchange coil 5 are symmetrically communicated with a liquid inlet pipe 6 and a liquid outlet pipe 7, the top of the outer pipe wall of the cooling pipe 2 is connected with a cooling box 8, cooling liquid 9 is arranged in the cooling box 8, one ends, far away from the heat exchange coil 5, of the liquid inlet pipe 6 and the liquid outlet pipe 7 sequentially penetrate through the pipe wall of the cooling pipe 2 and the bottom of the cooling box 8, the inner box bottom of the cooling box 8 is connected with a water pump 10, the output end of the water pump 10 is connected with one end, far away from the heat exchange coil 5, of the liquid inlet pipe 6, one end of the cooling box 8, which is close to the cooling pipe 2, is provided with a semiconductor refrigerator 11, the cold end of the semiconductor refrigerator 11 is arranged in the cooling liquid 9, the hot end of the semiconductor refrigerator 11 is arranged outside the cooling box 8, the semiconductor refrigerator 11 refrigerates the cooling liquid 9 in the cooling box 8, the water pump 10 conveys the refrigerated cooling liquid 9 to the heat exchange coil 5 through the liquid inlet pipe 6, the cooling liquid 9 in the heat exchange coil 5 is conveyed back to the cooling box 8 through the liquid outlet pipe 7, the heat exchange coil 5 cools the air near the heat exchange coil 5 in the cooling pipe 2, then the driving assembly is started to drive the two spiral fan blades 4 to rotate, the air with dust removed through the dustproof mechanism is sucked into the cooling pipe 2, and the air is cooled when passing through the heat exchange coil 5, the air after being cooled enters the heater main body 1, the heat dissipation effect of the heater is improved, the working efficiency of the heater is further improved, and equipment damage is avoided.

The dustproof mechanism comprises a support ring 12, the support ring 12 is arranged at one end of the cooling pipe 2 far away from the heater body 1, a dustproof net 13 is fixedly connected in the support ring 12, a support pipe 14 is fixedly connected at one end of the support ring 12 close to the heater body 1, a support groove 15 matched with the support pipe 14 is formed at one end of the cooling pipe 2 far away from the heater body 1, one end of the support pipe 14 far away from the support ring 12 is inserted in the support groove 15, a spring 16 is fixedly connected at the bottom of the support groove 15, the other end of the spring 16 is fixedly connected at one end of the support pipe 14 far away from the support ring 12, air entering the cooling pipe 2 is filtered through the dustproof net 13, dust is blocked outside the dustproof net 13, when the dustproof net 13 needs to be cleaned, a pulling force in the direction far away from the heater body 1 is applied to the support ring 12, and the support ring 12 drives the support pipe 14 to move in the support groove 15 after being stressed, and stretch spring 16, loosen support ring 12 again, by the support ring 12 reset of tensile spring 16 drive, support ring 12 striking is on cooling tube 2 for the dust on the dust screen 13 shakes and falls, and convenient dust to on the dust screen 13 is cleared up, has guaranteed the normal radiating effect of heater.

Drive assembly includes driving motor 17, driving motor 17 fixed connection is in the one end that heat exchange coil pipe 5 was kept away from to support frame 3, the one end that heat exchange coil pipe 5 was kept away from to support frame 3 is connected with two axis of rotation 18 through two rotation pieces, two axis of rotation 18 set up about driving motor 17 symmetry, driving motor 17's output passes through the driving medium and is connected with two axis of rotation 18 transmissions, two fixed cup joints of spiral flabellum 4 are on the axle wall of two axis of rotation 18, when driving motor 17 starts, transmission through the driving medium, driving motor drives two axis of rotation 18 and is the syntropy and rotates with the speed, and then drive two spiral flabellum 4 rotations, make the outside air enter into in the cooling tube 2.

An annular sealing groove 19 is formed in the outer side groove wall of the support groove 15 close to one end of the support ring 12, a sealing ring 20 is connected in the sealing groove 19, the inner ring wall of the sealing ring 20 is arranged on the outer pipe wall of the support pipe 14, the support pipe 14 is connected to the inner ring wall of the sealing ring 20 in a sealing and sliding mode, the sealing effect between the support pipe 14 and the support groove 15 is improved through the sealing ring 20, and dust is prevented from entering the support groove 15.

The rotating piece comprises an annular block 21 with a T-shaped section, the annular block 21 is fixedly connected to one end, close to the support frame 3, of the rotating shaft 18, a matched annular groove 22 is formed in the position, corresponding to the annular block 21, of one end, far away from the heat exchange coil 5, of the support frame 3, the annular block 21 is rotatably connected to the annular groove 22, and the annular block 21 is clamped into the annular groove 22, so that the rotating shaft 18 and the support frame 3 can rotate relatively while being connected.

The inner pipe wall of the support pipe 14 far away from one end of the support ring 12 is symmetrically and fixedly connected with limiting blocks 23, the inner side groove wall of the support groove 15 corresponding to the positions of the limiting blocks 23 is provided with matched limiting grooves 24, the limiting blocks 23 are connected in the corresponding limiting grooves 24 in a sliding manner, and the support pipe 14 drives the limiting blocks 23 to synchronously move in the limiting grooves 24 when moving in the support groove 15, so that the support pipe 14 is prevented from being separated from the support groove 15.

The top of the cooling box 8 is communicated with a liquid supplementing pipe 25, and the cooling box 8 is conveniently supplemented with the cooling liquid 9 through the liquid supplementing pipe 25.

Transparent observation plate 26 is inlayed along vertical direction on the wall of one side of cooling box 8, and is equipped with the scale on the observation plate 26, is convenient for run through the content of cooling liquid 9 in cooling box 8 through observation plate 26.

The driving medium includes drive sprocket 27, and drive sprocket 27 passes through shaft coupling fixed connection on driving motor 17's output, and the one end fixedly connected with driven sprocket 28 of support frame 3 is kept away from to axis of rotation 18, and drive sprocket 27 passes through chain 29 and two driven sprocket 28 transmission connections, and driving motor 17 drives drive sprocket 27 and rotates, through the transmission of chain 29 for two driven sprocket 28 drive two axis of rotation 18 do with fast syntropy and rotate.

The utility model discloses in, semiconductor cooler 11 refrigerates coolant liquid 9 in the cooler bin 8, water pump 10 carries the coolant liquid 9 after refrigerating in heat exchange coil 5 through feed liquor pipe 6, coolant liquid 9 in the heat exchange coil 5 is transported back to cooler bin 8 through drain pipe 7 again, heat exchange coil 5 cools down the air near heat exchange coil 5 in the cooler bin 2, start the drive assembly afterwards, drive two spiral fan blades 4 and rotate, inhale the air that removes the dust through dustproof mechanism in the cooler bin 2, cool down the air when passing through heat exchange coil 5 again, make the air after the cooling enter into heater main part 1, the radiating effect to the heater has been improved, and then the work efficiency of heater has been improved, avoid leading to the equipment damage; the air that gets into in the cooling tube 2 is filtered through dust screen 13, block the dust in the outside of dust screen 13, when needs clear up dust screen 13, exert the pulling force of keeping away from heater main part 1 direction to support ring 12, support ring 12 atress back-drive stay tube 14 moves in supporting slot 15, and stretch spring 16, loosen support ring 12 again, it resets to be driven support ring 12 by tensile spring 16, support ring 12 striking is on cooling tube 2, make the dust on the dust screen 13 shake and fall, convenient dust to on the dust screen 13 clears up, the normal radiating effect of heater has been guaranteed.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (9)

1. A nanometer far infrared energy-saving heater convenient for heat dissipation comprises a heater main body (1) and is characterized in that one side of the heater main body (1) is communicated with a cooling pipe (2), a heat dissipation mechanism is connected onto the cooling pipe (2), and a dustproof mechanism is connected to one end, far away from the heater main body (1), of the cooling pipe (2);

the heat dissipation mechanism comprises a cross-shaped support frame (3), the support frame (3) is fixedly connected to the inner wall of the cooling pipe (2), one end, away from the heater main body (1), of the support frame (3) is connected with two spiral fan blades (4) through a driving assembly, the inner wall of the cooling pipe (2) between the heater main body (1) and the support frame (3) is fixedly connected with a heat exchange coil pipe (5), two ends of the heat exchange coil pipe (5) are symmetrically communicated with a liquid inlet pipe (6) and a liquid outlet pipe (7), the top of the outer wall of the cooling pipe (2) is connected with a cooling box (8), cooling liquid (9) is arranged in the cooling box (8), one ends, away from the heat exchange coil pipe (5), of the liquid inlet pipe (6) and the liquid outlet pipe (7) sequentially penetrate through the pipe wall of the cooling pipe (2) and the box bottom of the cooling box (8), the heat exchanger is characterized in that a water pump (10) is connected to the bottom of the inner box of the cooling box (8), the output end of the water pump (10) is connected with one end, away from the heat exchange coil (5), of the liquid inlet pipe (6), a semiconductor refrigerator (11) is installed on the box wall of one side, close to one end of the cooling pipe (2), of the cooling box (8), the cold end of the semiconductor refrigerator (11) is arranged in cooling liquid (9), and the hot end of the semiconductor refrigerator (11) is arranged outside the cooling box (8).

2. The nano far infrared energy-saving heater convenient for heat dissipation according to claim 1, characterized in that, the dustproof mechanism comprises a support ring (12), the support ring (12) is arranged at one end of the cooling pipe (2) far away from the heater body (1), a dust screen (13) is fixedly connected in the support ring (12), a support tube (14) is fixedly connected at one end of the support ring (12) close to the heater main body (1), one end of the cooling pipe (2) far away from the heater main body (1) is provided with a supporting groove (15) matched with the supporting pipe (14), one end of the supporting tube (14) far away from the supporting ring (12) is inserted in the supporting groove (15), the groove bottom of the supporting groove (15) is fixedly connected with a spring (16), and the other end of the spring (16) is fixedly connected to one end, far away from the supporting ring (12), of the supporting pipe (14).

3. The nanometer far infrared energy-saving heater convenient for heat dissipation according to claim 1, characterized in that the driving assembly comprises a driving motor (17), the driving motor (17) is fixedly connected to one end of the support frame (3) far away from the heat exchange coil (5), one end of the support frame (3) far away from the heat exchange coil (5) is connected with two rotating shafts (18) through two rotating pieces, the two rotating shafts (18) are symmetrically arranged about the driving motor (17), the output end of the driving motor (17) is in transmission connection with the two rotating shafts (18) through a transmission piece, and the two spiral fan blades (4) are fixedly sleeved on the shaft walls of the two rotating shafts (18).

4. The nanometer far infrared energy-saving heater convenient for heat dissipation according to claim 2, characterized in that an annular sealing groove (19) is formed on the outer wall of the supporting groove (15) near one end of the supporting ring (12), a sealing ring (20) is connected in the sealing groove (19), the inner annular wall of the sealing ring (20) is arranged on the outer wall of the supporting tube (14), and the supporting tube (14) is connected to the inner annular wall of the sealing ring (20) in a sealing and sliding manner.

5. The nanometer far infrared energy-saving heater convenient for heat dissipation according to claim 3, characterized in that the rotating member comprises an annular block (21) with a T-shaped section, the annular block (21) is fixedly connected to one end of the rotating shaft (18) close to the support frame (3), a matched annular groove (22) is formed in a position of one end of the support frame (3) far away from the heat exchange coil (5) corresponding to the annular block (21), and the annular block (21) is rotatably connected in the annular groove (22).

6. The nano far infrared energy-saving heater convenient for heat dissipation according to claim 2, wherein the inner wall of the supporting tube (14) at a position far away from the supporting ring (12) is symmetrically and fixedly connected with limiting blocks (23), the inner side wall of the supporting groove (15) corresponding to the position of the limiting blocks (23) is provided with matched limiting grooves (24), and the limiting blocks (23) are slidably connected in the corresponding limiting grooves (24).

7. The nano far infrared energy-saving heater convenient for heat dissipation according to claim 1, characterized in that the top of the cooling tank (8) is communicated with a liquid supplementing pipe (25).

8. The nano far infrared energy-saving heater convenient for heat dissipation according to claim 1, characterized in that a transparent observation plate (26) is embedded on one side wall of the cooling box (8) along the vertical direction, and scales are arranged on the observation plate (26).

9. The nanometer far infrared energy-saving heater convenient for heat dissipation according to claim 3, characterized in that the transmission member comprises a driving sprocket (27), the driving sprocket (27) is fixedly connected to the output end of the driving motor (17) through a shaft coupling, one end of the rotating shaft (18) far away from the support frame (3) is fixedly connected with a driven sprocket (28), and the driving sprocket (27) is in transmission connection with the two driven sprockets (28) through a chain (29).

Images