CN117894519A - High-efficient heat dissipation pencil and cladding device thereof - Google Patents

Abstract

The invention relates to the technical field of wire harnesses, in particular to a high-efficiency heat-dissipation wire harness and a coating device thereof, comprising a supporting seat and a wire; one end of the supporting seat is provided with a round table; the round table is provided with a fixed seat; the fixing seat is provided with a through hole in a penetrating way; the periphery of the through hole of the fixed seat is provided with a containing groove; the accommodating groove is rotationally provided with a driving gear; a thermosensitive coil spring is arranged between the accommodating groove and the driving gear; the fixed seat is provided with a movable track and a heat conducting piece. According to the heat-conducting wire heat-conducting device, the heat-sensitive coil spring is rolled to drive the driving gear to rotate, and the heat-conducting piece is driven to move around the perforation under the cooperation of the driving gear and the movable rail, so that different positions of the heat-conducting piece are respectively in abutting contact with the wire, heat of the wire can be effectively conducted into the heat-conducting piece through contact heat conduction, the heat-radiating area is effectively increased, and the heat-radiating efficiency is improved.

Description

High-efficient heat dissipation pencil and cladding device thereof

Technical Field

The invention relates to the technical field of wire harnesses, in particular to a high-efficiency heat dissipation wire harness and a coating device thereof.

Background

With the rapid progress of science and technology, the miniaturization and microminiaturization trends of various devices and apparatuses in the fields of electric appliances, automobiles, communication and the like are obvious, but the mutual connection wire harnesses of the miniaturized and microminiaturized devices and apparatuses still exist, and with the gradual strong functions of various devices, accessories are more and more, and mutual wiring is more and more complex.

In the use process of the wire harness, the problem of poor heat dissipation in the area with large heat generation of the wire harness is easily caused due to the conditions of uneven current load, uneven wire harness density, wire harness installation position and the like.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a high-efficiency heat dissipation wire harness and a cladding device thereof, which can effectively improve the heat dissipation efficiency of the wire harness.

The aim of the invention is achieved by the following technical scheme: a high-efficiency heat dissipation wire harness comprises a supporting seat and a wire; one end of the supporting seat is provided with a round table; the round table is provided with a plurality of fixing seats along the circle center at equal angles; the fixing seat is provided with a through hole in a penetrating way; the lead is arranged through the perforation;

the periphery of the through hole of the fixed seat is provided with a containing groove; the accommodating groove is rotationally provided with a driving gear; a thermosensitive coil spring is arranged between the accommodating groove and the driving gear; the perforation, the accommodating groove, the driving gear and the thermosensitive coil spring are concentrically arranged;

the fixed seat is provided with a movable track and a heat conducting piece; the thermosensitive coil spring drives the driving gear to rotate, so that the heat conducting piece is driven to move around the perforation under the cooperation of the driving gear and the movable track; the heat conducting piece is abutted against the lead.

The invention is further arranged that the heat conducting member comprises a toothed ring; the toothed ring is in a runway shape;

the heat conducting piece further comprises a first roller arranged at the top of one end of the toothed ring, a second roller arranged at the top of the other end of the toothed ring and a heat conducting belt arranged between the first roller and the second roller; the heat conduction belt is abutted against the lead; teeth meshed with the gears are arranged on the periphery of the toothed ring.

The invention is further arranged that the movable rail comprises a circular rail and three triangular rails; the circular track is arranged around the periphery of the perforation;

the three triangular tracks are distributed at equal angles by taking the perforation as the center of a circle; two sides of the triangular track are respectively tangent to two sides of the circular track; the side wall of the triangular track is provided with a steering structure.

The invention is further arranged that a first movable pin is arranged at the bottom of one end of the toothed ring; the bottom of the other end of the toothed ring is provided with a second movable pin; the first movable pin and the second movable pin are movably arranged in two sides of the circular track and the triangular track.

The invention is further arranged that the steering structure comprises a steering groove arranged on the side wall of the triangular track and a swing rod rotatably arranged in the steering groove;

the middle part of the swing rod is rotationally connected with the steering groove; a spring is arranged between the middle part of the swing rod and the steering groove; one end of the swing rod is provided with a first steering block; the other end of the swing rod is provided with a second steering block; the first steering block and the second steering block are both provided with inclined surfaces.

The invention is further arranged that a middle air cavity is arranged at the center of the round table; an air pipe is arranged between two adjacent fixing seats; the air pipe is communicated with the middle air cavity; the round table is sleeved with a sleeve;

an upper air cavity is formed between the sleeve and the round table; the supporting seat is provided with a lower air cavity; an upper one-way valve is arranged between the upper air cavity and the middle air cavity; a lower one-way valve is arranged between the lower air cavity and the middle air cavity; the air pipe protrudes out of the sleeve; a pressure regulating block is movably arranged in the air pipe; the pressure regulating block is provided with a through hole in a penetrating way; the through hole is provided with a first one-way valve;

the toothed ring is used for driving the pressure regulating block to move.

The invention is further arranged that one end of the sleeve is provided with a second one-way valve; the other end of the sleeve is communicated with the middle air cavity through an upper one-way valve; a third one-way valve is arranged at one end of the supporting seat; the other end of the supporting seat is communicated with the middle air cavity through a lower one-way valve.

The invention is further arranged that the pressure regulating block is a driving magnetic block; the bottom of the first movable pin is provided with a first magnetic block which is attracted with the driving magnetic block; the bottom of the second movable pin is provided with a second magnetic block which is attracted with the driving magnetic block.

A cladding device comprises a base, a first bracket arranged on the base, a roller frame arranged on the base and a second bracket arranged on the base; the second bracket is arranged between the roller frame and the first bracket;

the first bracket is used for fixing the round table; the lead and the supporting seat penetrate through the second bracket; the first support is provided with a cladding component.

The invention is further arranged that the cladding component comprises a motor arranged on the second bracket, a first gear connected with the output end of the motor and a second gear meshed with the first gear; the second gear is sleeved outside the wire; the second gear is provided with a film reel.

The invention has the beneficial effects that: according to the heat-conducting wire heat-conducting device, the heat-sensitive coil spring is rolled to drive the driving gear to rotate, and the heat-conducting piece is driven to move around the perforation under the cooperation of the driving gear and the movable rail, so that different positions of the heat-conducting piece are respectively in abutting contact with the wire, heat of the wire can be effectively conducted into the heat-conducting piece through contact heat conduction, the heat-radiating area is effectively increased, and the heat-radiating efficiency is improved.

Drawings

The invention will be further described with reference to the accompanying drawings, in which embodiments do not constitute any limitation of the invention, and other drawings can be obtained by one of ordinary skill in the art without inventive effort from the following drawings.

Fig. 1 is a schematic view of a structure of a high-efficiency heat-dissipating wire harness of the present invention;

FIG. 2 is a cross-sectional view of a high efficiency heat dissipating harness of the present invention;

FIG. 3 is an enlarged view of a portion of the portion A of FIG. 2;

fig. 4 is a schematic structural view of the high-efficiency heat dissipation wire harness hiding sleeve according to the present invention;

FIG. 5 is a schematic view of the structure of the high-efficiency heat-dissipating harness hiding sleeve and wires of the present invention;

FIG. 6 is a cross-sectional view of the pressure regulating block of the present invention as it moves outwardly;

FIG. 7 is a cross-sectional view of the pressure regulating block of the present invention as it moves inwardly;

FIG. 8 is a cross-sectional view showing a first state in which the heat conducting member of the present invention is engaged with the fixing base;

FIG. 9 is a cross-sectional view showing a second state in which the heat conducting member of the present invention is engaged with the fixing base;

FIG. 10 is a cross-sectional view showing a third state in which the heat conducting member of the present invention is engaged with the fixing base;

FIG. 11 is a schematic view of the structure of the fixing base of the present invention;

fig. 12 is a cross-sectional view of a heat conductive member of the present invention;

FIG. 13 is a schematic view of the structure of the wrapping device of the present invention;

wherein: 1. a support base; 11. a lower air cavity; 12. a lower one-way valve; 13. a third one-way valve; 2. a wire; 3. round bench; 31. a middle air cavity; 32. an air pipe; 33. a pressure regulating block; 34. a first one-way valve; 4. a fixing seat; 41. perforating; 42. a receiving groove; 43. a heat-sensitive coil spring; 44. a drive gear; 45. a steering groove; 46. swing rod; 47. a spring; 48. a first steering block; 49. a second steering block; 5. a toothed ring; 51. a first roller; 52. a second drum; 53. a heat conducting belt; 54. teeth; 55. a first movable pin; 56. a second movable pin; 57. a first magnetic block; 58. a second magnetic block; 61. a circular track; 62. a triangular track; 7. a sleeve; 71. an upper air cavity; 72. a check valve is arranged on the upper part; 73. a second one-way valve; 8. a base; 81. a first bracket; 82. a roller frame; 83. a second bracket; 91. a motor; 92. a first gear; 93. a second gear; 94. film reel.

Detailed Description

The invention will be further described with reference to the following examples.

As can be seen from fig. 1 to 12, the high-efficiency heat dissipation wire harness according to the present embodiment includes a supporting base 1 and a wire 2; one end of the supporting seat 1 is provided with a round table 3; a plurality of fixing seats 4 are distributed on the round table 3 along the circle center in equal angle; the fixing seat 4 is provided with a through hole 41 in a penetrating way; the lead 2 is arranged through the perforation 41;

the fixing seat 4 is provided with a containing groove 42 at the periphery of the through hole 41; the accommodating groove 42 is rotatably provided with a driving gear 44; a thermosensitive coil spring 43 is arranged between the accommodating groove 42 and the driving gear 44; the perforation 41, the accommodating groove 42, the driving gear 44 and the thermosensitive coil spring 43 are concentrically arranged; wherein the thermosensitive coil spring 43 is made of shape memory alloy, when the temperature of the thermosensitive coil spring 43 is below the shape memory temperature thereof, the thermosensitive coil spring 43 is in an extended state, and when the temperature of the thermosensitive coil spring 43 is above the shape memory temperature thereof, the thermosensitive coil spring 43 is deformed and rolled;

the fixed seat 4 is provided with a movable rail and a heat conducting piece; the thermosensitive coil spring 43 drives the driving gear 44 to rotate, so that the heat conducting piece is driven to move around the perforation 41 under the cooperation of the driving gear 44 and the movable track; the heat conducting member abuts against the wire 2.

Specifically, the efficient heat dissipation wire harness described in the present embodiment can perform a trimming function by penetrating the plurality of wires 2 into the through holes 41 of each fixing base 4, respectively;

in addition, when the temperature of the wire 2 is higher, the thermosensitive coil spring 43 is wound to drive the driving gear 44 to rotate, and the heat conducting piece is driven to move around the perforation 41 under the cooperation of the driving gear 44 and the movable track, so that different positions of the heat conducting piece are respectively abutted against the wire 2, heat of the wire 2 can be effectively conducted into the heat conducting piece through contact heat conduction, the heat radiating area is effectively increased, the heat radiating efficiency is improved, and poor heat radiation in a wire harness heating large area due to the conditions of uneven current load, uneven wire harness density, wire harness installation position and the like is avoided, so that the stability and uniformity of wire harness use are ensured.

The heat conducting piece comprises a toothed ring 5; the toothed ring 5 is in a runway shape;

the heat conducting piece further comprises a first roller 51 arranged at the top of one end of the toothed ring 5, a second roller 52 arranged at the top of the other end of the toothed ring 5, and a heat conducting belt 53 arranged between the first roller 51 and the second roller 52; the heat conduction band 53 is abutted against the lead 2; the outer periphery of the toothed ring 5 is provided with teeth 54 which mesh with a gear. Specifically, by arranging the racetrack-shaped teeth 54 on the outer periphery of the toothed ring 5, the driving gear 44 can drive the toothed ring 5 to move along the movable track, so that different positions of the heat conducting belt 53 are sequentially contacted with the wires 2, and the heat conducting efficiency can be effectively improved.

The movable rail comprises a circular rail 61 and three triangular rails 62; the circular track 61 is arranged around the periphery of the perforation 41; the three triangular tracks 62 are distributed at equal angles with the perforation 41 as the center of a circle; two sides of the triangular track 62 are respectively tangent to two sides of the circular track 61; the side walls of the triangular track 62 are provided with steering structures. According to the high-efficiency heat dissipation wire harness disclosed by the embodiment, a first movable pin 55 is arranged at the bottom of one end of the toothed ring 5; the bottom of the other end of the toothed ring 5 is provided with a second movable pin 56; the first movable pin 55 and the second movable pin 56 are movably disposed in one of two sides of the circular rail 61 and the triangular rail 62. The steering structure comprises a steering groove 45 arranged on the side wall of the triangular track 62 and a swing rod 46 rotatably arranged in the steering groove 45; the middle part of the swing rod 46 is rotationally connected with the steering groove 45; a spring 47 is arranged between the middle part of the swing rod 46 and the steering groove 45; a first steering block 48 is arranged at one end of the swing rod 46; the other end of the swing rod 46 is provided with a second steering block 49; the first steering block 48 and the second steering block 49 are provided with inclined surfaces.

Specifically, as shown in fig. 8, the efficient heat dissipation harness according to the present embodiment is a schematic structural view of the driving gear 44 in a stationary state, when the heat-sensitive coil spring 43 is wound up to drive the driving gear 44 to rotate clockwise, as shown in fig. 9, wherein the first movable pin 55 moves to one side of the upper left triangle track 62 along the circular track 61, and after the first movable pin 55 contacts with the first turning block 48, the second turning block 49 is caused to protrude to block the second movable pin 56 from moving to one side of the upper left triangle track 62, so that the second movable pin 56 moves along the circular track 61 to form a structure as shown in fig. 10; the above actions are repeated, so that the head and tail positions of the toothed ring 5 are changed when the toothed ring 5 passes through each triangular track 62 each time, thereby enabling different positions of the heat conducting belt 53 to be in contact with the wires 2 in sequence, and effectively improving heat conducting efficiency.

In the efficient heat dissipation wire harness disclosed by the embodiment, a middle air cavity 31 is arranged at the center of the round table 3; an air pipe 32 is arranged between two adjacent fixing seats 4; the air pipe 32 is communicated with the middle air cavity 31; a sleeve 7 is sleeved outside the round table 3;

an upper air cavity 71 is formed between the sleeve 7 and the round table 3; the supporting seat 1 is provided with a lower air cavity 11; an upper check valve 72 is arranged between the upper air cavity 71 and the middle air cavity 31; a lower one-way valve 12 is arranged between the lower air cavity 11 and the middle air cavity 31; the air pipe 32 protrudes out of the sleeve 7; a pressure regulating block 33 is movably arranged in the air pipe 32; the pressure regulating block 33 is provided with a through hole in a penetrating way; the through hole is provided with a first one-way valve 34; wherein the heat conducting member is provided in the upper air chamber 71;

the toothed ring 5 is used for driving the pressure regulating block 33 to move.

Wherein the upper check valve 72 is used for circulating the air of the upper air cavity 71 to the middle air cavity 31, the lower check valve 12 is used for circulating the air of the lower air cavity 11 to the middle air cavity 31, and the first check valve 34 is used for discharging the air of the middle air cavity 31 to the outside through the air pipe 32;

specifically, in this embodiment, the toothed ring 5 drives the pressure regulating block 33 to move, so as to change the pressure between the air pipe 32 and the middle air cavity 31, and in cooperation with the first check valve 34, the upper check valve 72 and the lower check valve 12, the air flow from the upper air cavity 71 to the middle air cavity 31 to the air pipe 32 to the outside and the air flow from the lower air cavity 11 to the middle air cavity 31 to the air pipe 32 to the outside can be formed, so that the heat of the wire 2 and the heat of the heat conducting belt 53 can be effectively conducted to the outside, and the heat dissipation efficiency is further improved.

In the efficient heat dissipation wire harness of the embodiment, one end of the sleeve 7 is provided with a second one-way valve 73; the other end of the sleeve 7 is communicated with the middle air cavity 31 through an upper one-way valve 72; a third one-way valve 13 is arranged at one end of the supporting seat 1; the other end of the supporting seat 1 is communicated with the middle air cavity 31 through the lower one-way valve 12. Specifically, the second check valve 73 is used to circulate outside air to the upper air chamber 71, and the third check valve 13 is used to circulate outside air to the lower air chamber 11; the gear ring 5 drives the pressure regulating block 33 to move, so that the pressure intensity between the air pipe 32 and the middle air cavity 31 is changed, and the air flow from the outside to the upper air cavity 71 to the middle air cavity 31 to the air pipe 32 to the outside and the air flow from the outside to the lower air cavity 11 to the middle air cavity 31 to the air pipe 32 to the outside can be formed by matching the first check valve 34, the upper check valve 72 and the lower check valve 12, so that the heat of the wire 2 and the heat of the heat conducting belt 53 can be effectively conducted to the outside, and the heat dissipation efficiency is further improved.

The efficient heat dissipation wire harness of the embodiment is characterized in that the pressure regulating block 33 is a driving magnetic block; a first magnetic block 57 which is attracted with the driving magnetic block is arranged at the bottom of the first movable pin 55; the bottom of the second movable pin 56 is provided with a second magnetic block 58 which is attracted with the driving magnetic block.

Specifically, as shown in fig. 6, when the toothed ring 5 moves in a direction away from the middle air cavity 31, the second movable pin 56 drives the pressure regulating block 33 to move in a direction away from the middle air cavity 31 through the second magnetic block 58, so that the pressure in the middle air cavity 31 is reduced, and therefore, the air in the upper air cavity 71 and the air in the lower air cavity 11 flow into the middle air cavity 31 respectively; as shown in fig. 7, when the toothed ring 5 moves in the direction approaching the middle air cavity 31, the first movable pin 55 drives the pressure regulating block 33 to move in the direction approaching the middle air cavity 31 through the first magnetic block 57, so that the pressure in the middle air cavity 31 is increased, and the air in the middle air cavity 31 flows out to the outside through the air pipe 32; thereby forming the air flow from the outside, the upper air cavity 71, the middle air cavity 31, the air pipe 32, and the outside, the lower air cavity 11, the middle air cavity 31, the air pipe 32, and the outside, thereby effectively conducting the heat of the wire 2 and the heat of the heat conducting belt 53 to the outside, and further improving the heat dissipation efficiency.

As can be seen from fig. 12, the wrapping device according to the present embodiment includes a base 8, a first bracket 81 provided on the base 8, a roller frame 82 provided on the base 8, and a second bracket 83 provided on the base 8; the second bracket 83 is arranged between the roller frame 82 and the first bracket 81; the first bracket 81 is used for fixing the round table 3; the lead 2 and the supporting seat 1 are arranged on the second bracket 83 in a penetrating way; the first bracket 81 is provided with a cladding assembly. The wrapping assembly of the present embodiment includes a motor 91 disposed on the second bracket 83, a first gear 92 connected to an output end of the motor 91, and a second gear 93 meshed with the first gear 92; the second gear 93 is sleeved outside the lead 2; the second gear 93 is provided with a film reel 94.

Specifically, the present embodiment allows the film to be covered on the wire 2 of the wire harness by the cooperation of the wrapping assembly and the roller frame 82, which is more compact, stable and convenient than the conventional film winding method.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a high-efficient heat dissipation pencil which characterized in that: comprises a supporting seat (1) and a lead (2); one end of the supporting seat (1) is provided with a round table (3); a plurality of fixing seats (4) are distributed on the round table (3) along the circle center at equal angles; the fixing seat (4) is provided with a through hole (41) in a penetrating way; the lead (2) is penetrated through the perforation (41);

the periphery of the through hole (41) of the fixing seat (4) is provided with a containing groove (42); the accommodating groove (42) is rotationally provided with a driving gear (44); a thermosensitive coil spring (43) is arranged between the accommodating groove (42) and the driving gear (44); the perforation (41), the accommodating groove (42), the driving gear (44) and the thermosensitive coil spring (43) are concentrically arranged;

the fixed seat (4) is provided with a movable track and a heat conducting piece; the thermosensitive coil spring (43) drives the driving gear (44) to rotate, so that the heat conducting piece is driven to move around the perforation (41) under the cooperation of the driving gear (44) and the movable track; the heat conducting piece is abutted against the lead (2).

2. The high-efficiency heat-dissipating harness of claim 1, wherein: the heat conducting piece comprises a toothed ring (5); the toothed ring (5) is in a runway shape;

the heat conducting piece further comprises a first roller (51) arranged at the top of one end of the toothed ring (5), a second roller (52) arranged at the top of the other end of the toothed ring (5), and a heat conducting belt (53) arranged between the first roller (51) and the second roller (52); the heat conduction belt (53) is abutted against the lead (2); the periphery of the toothed ring (5) is provided with teeth (54) meshed with the gear.

3. The high-efficiency heat-dissipating harness of claim 2, wherein: the movable rail comprises a circular rail (61) and three triangular rails (62); the circular track (61) is arranged around the periphery of the perforation (41);

the three triangular tracks (62) are distributed at equal angles by taking the perforation (41) as the center of a circle; two sides of the triangular track (62) are respectively tangent to two sides of the circular track (61); the side wall of the triangular track (62) is provided with a steering structure.

4. A high efficiency heat dissipating harness as set forth in claim 3 wherein: a first movable pin (55) is arranged at the bottom of one end of the toothed ring (5); the bottom of the other end of the toothed ring (5) is provided with a second movable pin (56); the first movable pin (55) and the second movable pin (56) are movably arranged in two sides of the circular track (61) and the triangular track (62).

5. A high efficiency heat dissipating harness as set forth in claim 3 wherein: the steering structure comprises a steering groove (45) arranged on the side wall of the triangular track (62), and a swing rod (46) rotatably arranged in the steering groove (45);

the middle part of the swing rod (46) is rotationally connected with the steering groove (45); a spring (47) is arranged between the middle part of the swing rod (46) and the steering groove (45); one end of the swing rod (46) is provided with a first steering block (48); the other end of the swing rod (46) is provided with a second steering block (49); the first steering block (48) and the second steering block (49) are both provided with inclined surfaces.

6. The high-efficiency heat-dissipating harness of claim 4, wherein: a middle air cavity (31) is arranged at the center of the round table (3); an air pipe (32) is arranged between two adjacent fixing seats (4); the air pipe (32) is communicated with the middle air cavity (31); a sleeve (7) is sleeved outside the round table (3);

an upper air cavity (71) is formed between the sleeve (7) and the round table (3); the supporting seat (1) is provided with a lower air cavity (11); an upper one-way valve (72) is arranged between the upper air cavity (71) and the middle air cavity (31); a lower one-way valve (12) is arranged between the lower air cavity (11) and the middle air cavity (31); the air pipe (32) protrudes out of the sleeve (7); a pressure regulating block (33) is movably arranged in the air pipe (32); the pressure regulating block (33) is provided with a through hole in a penetrating way; the through hole is provided with a first one-way valve (34);

the toothed ring (5) is used for driving the pressure regulating block (33) to move.

7. The high-efficiency heat-dissipating harness of claim 6, wherein: one end of the sleeve (7) is provided with a second one-way valve (73); the other end of the sleeve (7) is communicated with the middle air cavity (31) through an upper one-way valve (72); one end of the supporting seat (1) is provided with a third one-way valve (13); the other end of the supporting seat (1) is communicated with the middle air cavity (31) through a lower one-way valve (12).

8. The high-efficiency heat-dissipating harness of claim 7, wherein: the pressure regulating block (33) is a driving magnetic block; the bottom of the first movable pin (55) is provided with a first magnetic block (57) which is attracted with the driving magnetic block; the bottom of the second movable pin (56) is provided with a second magnetic block (58) which is attracted with the driving magnetic block.

9. A cladding apparatus for cladding the high-efficiency heat-dissipating wire harness of any one of claims 1 to 8, characterized in that: comprises a base (8), a first bracket (81) arranged on the base (8), a roller frame (82) arranged on the base (8) and a second bracket (83) arranged on the base (8); the second bracket (83) is arranged between the roller frame (82) and the first bracket (81);

the first bracket (81) is used for fixing the round table (3); the lead (2) and the supporting seat (1) are arranged on the second bracket (83) in a penetrating way; the first bracket (81) is provided with a cladding component.

10. The cladding apparatus of claim 9 wherein: the cladding assembly comprises a motor (91) arranged on the second bracket (83), a first gear (92) connected with the output end of the motor (91) and a second gear (93) meshed with the first gear (92); the second gear (93) is sleeved outside the lead (2); the second gear (93) is provided with a film reel (94).