CN110829731A - Heat dissipation component of energy-saving motor - Google Patents

Abstract

The invention discloses a heat dissipation part of an energy-saving motor, which comprises a fixed frame, an installation mechanism, a heat conduction mechanism and a heat dissipation mechanism, wherein the installation mechanism is fixedly installed at two opposite end parts of the fixed frame, the heat conduction mechanism is fixedly installed at the upper top of an inner frame of the fixed frame, the heat dissipation mechanism is fixedly installed at one side of the fixed frame, the heat dissipation part of the energy-saving motor utilizes oil cooling to carry out cooling and heat dissipation, an internal circulation oil circuit is adopted, a heat conduction plate is arranged near a driving element in the motor to improve the heating efficiency of the heat conduction plate, the heated oil circuit flows into a metal oil box through a pipeline, the metal oil box is arranged at the input end of the heat dissipation mechanism, the temperature on the surface of the metal oil box can be effectively reduced, the whole oil cooling system is always in a stable heat conduction and heat dissipation state, the heat, the two clamping blocks only do telescopic motion, and the energy-saving motors with different specifications can be conveniently and stably installed.

Description

Heat dissipation component of energy-saving motor

Technical Field

The invention belongs to the technical field of energy-saving motors, and particularly relates to a heat dissipation component of an energy-saving motor.

Background

The energy-saving motor is a motor with high efficiency of a general standard type motor, and the efficiency value can reach the second level of the GB18613-2012 standard.

The heat dissipation of the energy-saving motor is particularly important, whether the performance of the fan is stable and efficient is determined, the traditional energy-saving motor adopts a heat dissipation mode combining the fan and free heat dissipation, the heat dissipation efficiency is low, the heat inside the motor cannot be effectively dissipated, the model specification is fixed, the motor can only be fixedly installed in the energy-saving motors of the same model, the application range is reduced, and the heat dissipation part of the energy-saving motor needs to be designed.

The invention content is as follows:

the present invention has been made to solve the above problems, and an object of the present invention is to provide a heat radiating member for an energy-saving motor, which solves the problems of the related art.

In order to solve the above problems, the present invention provides a technical solution:

the utility model provides a heat dissipation part of energy-conserving motor, includes fixed frame, installation mechanism, heat conduction mechanism and heat dissipation mechanism, the equal fixed mounting of fixed frame two relative tip has installation mechanism, top fixed mounting has heat conduction mechanism on the inside casing of fixed frame, fixed frame one side fixed mounting has heat dissipation mechanism.

Preferably, one side edge of the fixing frame and the adjacent lower bottom are both arranged in an opening shape, an oil injection port is formed in the upper top of the fixing frame, and a sealing sleeve is sleeved on the oil injection port in a threaded manner.

As preferred, two installation mechanism all includes the mounting panel, two the mounting panel specification is unanimous and equal fixed mounting is at fixed frame double-phase to the terminal part, two the central point that one side was kept away from mutually to the mounting panel puts equal fixed mounting has a barrel, two the barrel is kept away from one end mutually and is all seted up a section of thick bamboo chamber, two annular spacing groove has all been seted up to the anchor ring that the barrel was kept away from mutually, two the barrel is kept away from one end mutually and all is provided with the adjustable ring, two the adjustable ring is close to corresponding barrel terminal surface one side fixed mounting and has annular stopper, two the adjustable ring all rotates the installation through annular stopper and annular spacing groove and barrel, two the adjustable ring double-phase is put all to.

Preferably, two tip one side that the beam barrel kept away from mutually all is provided with the fixed disk, two the rotation groove has all been seted up to the fixed disk inside, two it all rotates to install the rotor plate, two all to rotate in the rotation inslot the rotor plate is close to the equal perpendicular fixedly connected with screw thread axle in corresponding adjustable ring one side, two the screw thread axle is kept away from the equal screw thread of corresponding rotor plate one end and is run through the fixed disk and extend to the fixed disk and be close to adjustable ring one side and screw thread through thread hole and stretch into to the beam barrel inner chamber.

Preferably, the two fixing disks are fixedly provided with mounting blocks at symmetrical positions of the outer ring wall, one side of each mounting block is vertically and fixedly connected with a limiting rod, the other side of each mounting block, away from the corresponding mounting plate, is vertically and fixedly provided with two limiting cylinders which are consistent in specification and are arranged side by side, the four limiting rods are movably inserted into the limiting cylinders, the two fixing disks are fixedly provided with clamping blocks at the same side of the fixing disks, and the two clamping blocks are fixedly provided with silica gel layers at the end surfaces of the fixing disks away from the corresponding clamping blocks.

Preferably, the heat conducting mechanism comprises an oil pump mounting plate, the oil pump mounting plate is fixedly mounted on one inner side wall of the fixed frame, an oil pump is fixedly mounted at the central position of one side of the oil pump mounting plate, metal oil boxes are arranged on two sides of the oil pump, two metal oil boxes are fixedly mounted on the oil pump mounting plate, the input end and the output end of the oil pump are fixedly connected with the two metal oil boxes through oil pipes, one of the input end and the other of the metal oil boxes is fixedly connected with a fixed pipe, the two fixed pipes are respectively far away from one end and are respectively rotatably mounted with a heat conducting plate, nuts are respectively fixedly mounted at the positions where the fixed pipes and the heat conducting plates are rotatably mounted through threads, a fixed seat is respectively arranged at one far away side of the two heat conducting plates, and the two fixed seats are respectively, two the equal fixed mounting in fixing base opposite direction one side has the axis of rotation, two the axis of rotation is kept away from corresponding fixing base one end and is rotated the installation with two heat-conducting plate lateral walls respectively.

Preferably, the heat-conducting plate is far away from the equal fixed mounting of tip lateral wall of fixed frame has the connector, two through circulating pipe fixed connection between the connector.

Preferably, the heat dissipation mechanism comprises a fan cover, the fan cover is fixedly installed on the outer side wall of the fixing frame, a plurality of arc-shaped holes are formed in the outer wall of the fan cover, a plurality of air filtering nets are fixedly installed in the arc-shaped holes in an embedded mode, a driving motor installation seat is fixedly installed on the side wall of the fan cover, and a driving motor is fixedly installed on one side, far away from the fan cover, of the driving motor installation seat.

Preferably, a fixing ring is fixedly mounted in the fan cover, a driving shaft is arranged in the fixing ring, one end of the driving shaft is fixedly connected with the output end of the driving motor, a plurality of fan blades which are consistent in specification and distributed around the driving shaft at equal intervals are fixedly mounted on the outer shaft wall of the driving shaft, and a protective cover is fixedly mounted on one side, away from the driving motor, of the fixing ring.

The invention has the beneficial effects that: the invention relates to a heat dissipation component of an energy-saving motor, which has the characteristics of high heat dissipation efficiency and wide application range, in specific use, the heat dissipation component of the energy-saving motor utilizes oil cooling to cool and dissipate heat, adopts an internal circulation oil way, the heat conducting plate is arranged near the driving element in the motor, the heating efficiency of the heat conducting plate is improved, the heated oil path flows into the metal oil box through the pipeline, the metal oil box is arranged at the input end of the heat radiating mechanism, can effectively reduce the surface temperature of the oil cooling system, ensures that the whole oil cooling system is always in a stable heat conduction and radiation state, improves the radiation efficiency, adopts a telescopic adjustment installation mode, the rotary ring drives the threaded shaft to rotate and stretch out and draw back, and then the two clamping blocks only do telescopic motion due to the limitation of the limiting rod and the limiting cylinder, so that the energy-saving motors of different specifications can be conveniently and stably installed.

Description of the drawings:

for ease of illustration, the invention is described in detail by the following detailed description and the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a mounting mechanism of the present invention;

FIG. 3 is a schematic structural diagram of a heat conducting mechanism according to the present invention;

FIG. 4 is a schematic view of a fan blade mounting structure according to the present invention.

In the figure: 1. a fixing frame; 2. an installation mechanism; 3. a heat conducting mechanism; 4. a heat dissipation mechanism; 11. an oil filling port; 21. mounting a plate; 22. a shaft cylinder; 23. an annular limiting groove; 24. an adjusting ring; 25. an annular stop block; 26. a threaded hole; 27. fixing the disc; 28. a rotating groove; 29. a rotating sheet; 210. a threaded shaft; 211. mounting blocks; 212. a limiting cylinder; 213. a limiting rod; 214. a clamping block; 215. a silica gel layer; 31. an oil pump mounting plate; 32. an oil pump; 33. a metal oil box; 34. an oil pipe; 35. a fixed tube; 36. a heat conducting plate; 37. a nut; 38. a fixed seat; 39. a rotating shaft; 310. a connector; 311. a circulation pipe; 41. a fan guard; 42. an arc-shaped hole; 43. a wind filtering net; 44. a drive motor mount; 45. a drive motor; 46. a fixing ring; 47. a drive shaft; 48. a fan blade; 49. a shield.

The specific implementation mode is as follows:

as shown in fig. 1 to 4, the following technical solutions are adopted in the present embodiment:

example (b):

the utility model provides a heat dissipation part of energy-conserving motor, includes fixed frame 1, installation mechanism 2, heat conduction mechanism 3 and heat dissipation mechanism 4, and the equal fixed mounting of fixed frame 1 two relative tip has installation mechanism 2, and top fixed mounting has heat conduction mechanism 3 on the inside casing of fixed frame 1, and fixed mounting has heat dissipation mechanism 4 on one side of fixed frame 1.

Wherein, fixed frame 1 one side and adjacent lower bottom are the opening form setting, and oiling mouth 11 has been seted up on the top of fixed frame 1, and threaded sleeve is equipped with the seal cover on oiling mouth 11, and oiling mouth 11 is linked together with the fuel feeding port of oil pump 32, can directly pour into the interior oil of consumption into to oil pump 32 through oiling mouth 11.

Wherein, two installation mechanism 2 all include mounting panel 21, two unanimous and equal fixed mounting in two relative tip of fixed frame 1 of 21 specifications of mounting panel, the central point that one side was kept away from mutually to two mounting panels 21 puts equal fixed mounting has a barrel 22, one end was kept away from mutually to two barrel 22 has all seted up a section of thick bamboo chamber, annular spacing groove 23 has all been seted up to the anchor ring that two barrel 22 kept away from mutually, two barrel 22 keep away from mutually one end and all are provided with adjustable ring 24, two adjustable ring 24 are close to corresponding barrel 22 terminal surface one side fixed mounting and have annular stopper 25, two adjustable ring 24 all rotate the installation with a barrel 22 through annular stopper 25 and annular spacing groove 23, two adjustable ring 24 are double-phase to the relative side central point put and.

Wherein, the tip one side that two axle barrels 22 kept away from mutually all is provided with fixed disk 27, two fixed disk 27 are inside all seted up and have rotated groove 28, two rotate and all rotate in the groove 28 and install rotation piece 29, two rotation pieces 29 are close to the equal perpendicular fixedly connected with screw thread axle 210 in corresponding adjustable ring 24 one side, two screw thread axles 210 keep away from and correspond the equal screw thread of rotation piece 29 one end and run through fixed disk 27 and extend to fixed disk 27 and be close to adjustable ring 24 one side and screw thread through thread hole 26 and stretch into to axle barrel 22 inner chamber.

Wherein, the equal fixed mounting in outer rampart symmetric position of two fixed disks 27 has installation piece 211, the equal perpendicular fixedly connected with gag lever post 213 in four installation piece 211 one sides, two installation boards 21 keep away from one side mutually and all keep away from perpendicular fixed mounting and have two specifications unanimous and set up side by side spacing section of thick bamboo 212 each other, four gag lever posts 213 keep away from the equal activity of installation piece 211 one end and insert in the spacing section of thick bamboo 212, two fixed disks 27 keep away from one side mutually and all fixed mounting have grip block 214, the equal fixed mounting of terminal surface that two grip block 214 kept away from mutually has silica gel layer 215.

Wherein, the heat conducting mechanism 3 includes an oil pump mounting plate 31, the oil pump mounting plate 31 and the side wall of the fixing frame 1 are both provided with air holes, the oil pump mounting plate 31 is fixedly mounted on an inner side wall of the fixing frame 1, an oil pump 32 is fixedly mounted at the central position of one side of the oil pump mounting plate 31, both sides of the oil pump 32 are provided with metal oil boxes 33, the metal oil boxes 33 are made of metal copper materials, the heat conducting efficiency is high, both the metal oil boxes 33 are fixedly mounted on the oil pump mounting plate 31, the input end and the output end of the oil pump 32 are fixedly connected with the two metal oil boxes 33 through oil pipes 34, the input end of one metal oil box 33 and the output end of the other metal oil box 33 are fixedly connected with fixing pipes 35, the ends of the two fixing pipes 35 far away from each other are respectively rotatably mounted with a heat conducting plate 36, the screw caps 37 are fixedly mounted at the, the two fixing seats 38 are respectively and fixedly installed on two opposite inner side walls of the fixing frame 1, the opposite sides of the two fixing seats 38 are respectively and fixedly installed with a rotating shaft 39, and one ends of the two rotating shafts 39, far away from the corresponding fixing seats 38, are respectively and rotatably installed with the side walls of the two heat conducting plates 36.

Wherein, the two heat conducting plates 36 are fixedly provided with connectors 310 on the side walls of the end parts far away from the fixed frame 1, and the two connectors 310 are fixedly connected through a circulating pipe 311, so as to ensure the circulating communication of the whole oil cooling system.

Wherein, heat dissipation mechanism 4 includes fan guard 41, and fan guard 41 fixed mounting is on the lateral wall of fixed frame 1, and a plurality of arc holes 42 have been seted up to the outer wall of fan guard 41, all imbeds fixed mounting in a plurality of arc holes 42 and has a wind-filtering net 43, and fan guard 41 lateral wall fixed mounting has driving motor mount pad 44, and driving motor mount pad 44 keeps away from fan guard 41 one side fixed mounting and has driving motor 45.

Wherein, fixed ring 46 is fixed to be installed in fan guard 41, is provided with driving shaft 47 in the fixed ring 46, and driving shaft 47 one end and 45 output fixed connection of driving motor, and a plurality of specifications unanimous and fan blade 48 around driving shaft 47 equidistance distribution are fixed to the outer axle wall fixed mounting of driving shaft 47, and fixed ring 46 keeps away from driving motor 45 one side fixed mounting has protection casing 49.

The using state of the invention is as follows: firstly, the heat dissipation part is put into an energy-saving motor, then two adjusting rings 24 are respectively rotated, and further the corresponding threaded shaft 210 is driven to rotate in a threaded manner, in the process, two annular limiting blocks 25 are respectively assisted to rotate in two annular limiting grooves 23, so that the stability of the rotation of the threaded shaft 210 is improved, the two threaded shafts 210 respectively drive rotating sheets 29 to rotate in corresponding rotating grooves 28, so that the fixed disk 27 is pushed, in the whole adjusting process, a limiting rod 213 is always stretched and slid in a corresponding limiting cylinder 212, so that two silica gel layers 215 can be abutted against the two inner cavity walls of the energy-saving motor, the fixed installation of the heat dissipation part is realized, two heat conduction plates 36 are rotated, so that the two heat conduction plates 36 are respectively positioned at two sides of the heat generation part driven by the energy-saving motor, the heat generated by the energy-saving motor is transmitted to the heat conduction plates 36, and the, the air flows into the metal oil box 33, the driving motor 45 drives the fan blades 48 to rotate, the air flow generated in the energy-saving motor is blown out of the energy-saving fan, and meanwhile, the temperature of the surface of the metal oil box 33 is reduced, so that the whole oil cooling system can stably and continuously conduct heat in an auxiliary mode, and the heat dissipation efficiency is improved.

While there have been shown and described what are at present considered to be the fundamental principles of the invention and its essential features and advantages, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (9)

1. The utility model provides a heat dissipation part of energy-conserving motor, its characterized in that, includes fixed frame (1), installation mechanism (2), heat conduction mechanism (3) and heat dissipation mechanism (4), the equal fixed mounting of fixed frame (1) two relative tip has installation mechanism (2), top fixed mounting has heat conduction mechanism (3) on the inside casing of fixed frame (1), fixed frame (1) one side fixed mounting has heat dissipation mechanism (4).

2. The heat-radiating member of an energy-saving motor according to claim 1, wherein: one side edge of the fixing frame (1) and the adjacent lower bottom are both arranged in an opening shape, an oil injection port (11) is formed in the upper top of the fixing frame (1), and a sealing sleeve is sleeved on the oil injection port (11) in a threaded manner.

3. The heat-radiating member of an energy-saving motor according to claim 1, wherein: two installation mechanism (2) all includes mounting panel (21), two the unanimous and equal fixed mounting of mounting panel (21) specification is at the double-phase opposite terminal of fixed frame (1), two the central point that one side was kept away from mutually in mounting panel (21) puts equal fixed mounting has a shaft section of thick bamboo (22), two one end is kept away from mutually in shaft section of thick bamboo (22) has all seted up annular spacing groove (23), two the anchor shaft section of thick bamboo (22) keep away from mutually one end all is provided with adjustable ring (24), two adjustable ring (24) are close to corresponding shaft section of thick bamboo (22) terminal surface one side fixed mounting have annular stopper (25), two adjustable ring (24) all rotate the installation through annular stopper (25) and annular spacing groove (23) and shaft section of thick bamboo (22), two to side adjustable ring (24) double-phase limit central point puts and all runs through threaded hole (26).

4. The heat-radiating member of an energy-saving motor according to claim 3, wherein: two tip one side that axle section of thick bamboo (22) kept away from mutually all is provided with fixed disk (27), two fixed disk (27) is inside all seted up rotation groove (28), two all rotate in rotation groove (28) and install rotor plate (29), two rotor plate (29) are close to the equal perpendicular fixedly connected with screw shaft (210) in corresponding adjustable ring (24) one side, two screw shaft (210) are kept away from and are corresponded equal screw thread of rotor plate (29) one end and run through fixed disk (27) and extend to fixed disk (27) and be close to adjustable ring (24) one side and screw thread through screw hole (26) and stretch into to axle section of thick bamboo (22) inner chamber.

5. The heat-radiating member of an energy-saving motor according to claim 4, wherein: two the equal fixed mounting in outer rampart symmetric position of fixed disk (27) has installation piece (211), four the equal perpendicular fixedly connected with gag lever post (213), two of installation piece (211) one side is kept away from mutually that one side is equal perpendicular fixed mounting has two specifications unanimous and spacing section of thick bamboo (212) that set up side by side each other, four gag lever post (213) are kept away from the equal activity of installation piece (211) one end and are inserted in spacing section of thick bamboo (212), two fixed disk (27) are kept away from mutually that one side is equal fixed mounting has grip block (214), two the equal fixed mounting of terminal surface that grip block (214) kept away from mutually has silica gel layer (215).

6. The heat-radiating member of an energy-saving motor according to claim 1, wherein: heat-conducting mechanism (3) includes oil pump mounting panel (31), oil pump mounting panel (31) fixed mounting is on an inside wall of fixed frame (1), the central point of oil pump mounting panel (31) one side puts fixed mounting and has oil pump (32), oil pump (32) both sides all are provided with metal oil box (33), two the equal fixed mounting of metal oil box (33) is on oil pump mounting panel (31), all through oil pipe (34) fixed connection between the input and the output of oil pump (32) and two metal oil box (33), one of them metal oil box (33) input and another the equal fixedly connected with fixed pipe (35) of output of metal oil box (33), two fixed pipe (35) are kept away from one end mutually and are all rotated and are installed heat-conducting plate (36), two fixed pipe (35) and heat-conducting plate (36) are rotated and are installed equal screw thread fixed and are located and are installed nut (37), two one side is kept away from mutually in heat-conducting plate (36) and all is provided with fixing base (38), two fixing base (38) fixed mounting respectively is on fixed frame (1) two relative inside walls, two fixing base (38) opposite one side equal fixed mounting have axis of rotation (39), two axis of rotation (39) are kept away from corresponding fixing base (38) one end and are rotated the installation with two heat-conducting plate (36) lateral walls respectively.

7. The heat-radiating member of an energy-saving motor according to claim 6, wherein: two the equal fixed mounting of tip lateral wall of fixed frame (1) is kept away from in heat-conducting plate (36) has connector (310), two through circulating pipe (311) fixed connection between connector (310).

8. The heat-radiating member of an energy-saving motor according to claim 1, wherein: heat dissipation mechanism (4) include fan cover (41), fan cover (41) fixed mounting is on the lateral wall of fixed frame (1), a plurality of arc holes (42) have been seted up to the outer wall of fan cover (41), and is a plurality of all embedding fixed mounting has air filter screen (43) in arc hole (42), fan cover (41) lateral wall fixed mounting has driving motor mount pad (44), driving motor mount pad (44) are kept away from fan cover (41) one side fixed mounting and are had driving motor (45).

9. The heat-radiating member of an energy-saving motor according to claim 8, wherein: fixed mounting has solid fixed ring (46) in fan guard (41), be provided with driving shaft (47) in solid fixed ring (46), driving shaft (47) one end and driving motor (45) output fixed connection, the outer axle wall fixed mounting of driving shaft (47) has a plurality of specifications unanimous and around driving shaft (47) equidistance distribution's flabellum (48), gu fixed ring (46) keep away from driving motor (45) one side fixed mounting have protection casing (49).

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