TWM334869U - Heat dissipation structure of built-in driving device of sewing machine - Google Patents

Description

M334869 VIII. New description: [New technical field] City = fineness, heart surface "up to the seam [previous technology] Compression and work in the work space ==, _ machine, but so far due to limited connection , the time of the aging shirt, the traditional mechanical control motor because

The seam _4^===, the 胄 胄 胄 胄 秘 秘 秘 秘 秘 秘 秘 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 275 Interconnected-drive shaft material=pieces' and miscellaneous rods and relays (4) have a snap-fit joint, the drive shaft can drive the drive shaft to rotate, and by the #, (4) ^ h wheel '(9) silk is affected by the turning rod, the rotating shaft can be = pulley and the pulley - the belt linkage _ silk touch Lin; the conventional technology, although the small seam _ body to save work space, but In the production or actual operation, the manufacturing technology or the actual operation, but due to the seam of the built-in drive motor _ at high speed operation, the chicken motor will be S in the housing of the machine, causing high temperature overheating that cannot be dissipated. [New content] This new type - the heat dissipation structure of the built-in drive device of the sewing machine, its main purpose is to reduce the heat dissipation of the inside of the housing of the sewing machine to extend the service life of the sewing machine. Proposed a built-in driving device for a sewing machine a thermal structure, characterized in that: a servo motor for driving the sewing machine is fixed above a casing, the servo motor has a transmission shaft, and a drive shaft is provided at one end of the servo motor and And a heat sink disposed in the casing, and at least one first pair of flow holes and at least one second pair of flow holes are respectively disposed on the casings on both sides of the heat sink. 5 M334869 [Embodiment]

The detailed description and technical contents of the present invention will now be described as follows: Please refer to FIG. 1, FIG. 2 and FIG. 3, which is a partial exploded perspective view and partial section of the first embodiment of the present invention. The plan view of the first embodiment of the heat sink structure of the built-in driving device of the sewing machine, as can be clearly seen from the riding display, the motor 2 驱动 that drives the slit _ 1 () is fixed to the - housing U Above the yoke motor 2 has a drive shaft 21 that is disposed close to the horizontal, and the casing U has an upper portion 13 above the casing, and the rear phase has a rear portion 12 of the casing, and the ship motor 20 is adjacent to the casing One end of the rear portion 12 is provided with a three-year-old stern that is driven by the transmission vehicle 21 and placed inside the casing 11 (this is the state where the blade is the state and the casing 30 is on the side of the radiator 30). a first pair of flow holes i2i is formed on the rear portion 12 of the body u.

On the other side of the heat sink 30, the housing u is provided with two pairs of flow holes, and the first job hole 121 and the second female hole ln can be divided into Filter cotton or filter = filter, components (H towel is not shown); when the ship motor Μ operates, the drive shaft rotates to drive the hybrid H 3G synchronous lion, Lin outside the lower temperature button _ radiator % is quickly sucked through the first-pair flow hole 121, and strongly blows the high-temperature hot air flow generated by the operation of the servo motor 2G inside the slit _ 1 () housing n, which is instantaneously increased inside the housing u C, the hot rolling flow is naturally carried out from the outside of the casing η via the second pair of flow holes m, so that the heat dissipation and cooling of the casing 确实 of the sewing machine 10 are surely performed, and the life of the sewing machine 10 is effectively extended. In addition, between the servo motor 20 and the heat sink 30, a set of transmission gears 4 设 disposed on the transmission shaft 21 and disposed inside the casing η is provided, and the transmission gear 40 is provided with a transmission gear 40 a transmission belt 41 corresponding to the toothed and extendable downward drive for driving the mechanism below, due to The side mechanism is not the subject of the present invention, so it is no longer added here. In addition, the rear portion 12 of the casing is provided with an extended through hole 122 for the transmission shaft 21 to extend outside the casing u, and the rear portion 12 of the casing is fixed. A support frame 5 around the extended through hole 122 and a rear cover 60 completely covering the extended through hole 122 and the support frame 50 are provided, wherein the support frame 5 is for fixing and sensing The sensing position of the preset position of the transmission shaft u and the rotation speed of the servo motor 2, but since the technical means of the sensing controller and the sensing control method thereof are not the target of the present invention, it is not here. It is shown in the figure and will not be described again. Please also refer to FIG. 4, which is a plan view of a partial cross section of the second embodiment of the present invention. 6 M334869. The second embodiment of the slot _ built-in drive device heat dissipation structure, such as riding the display can clearly see 'drive the seam city K) _ listening 2 〇, the same is fixed in the _ shop motor if there is - approach The horizontally disposed transmission (four), and the upper portion of the casing n has an upper portion 13, the rear phase has a weaving portion 12, and the end of the garment motor 2q is close to the shell, and the length of the body is 3 〇 (the new type is This is an example of the windy leaf, and on the side of the diffuser, 'f touch-(four)-the job hole 121, next to the I-body 11 on the other side of the heat sink, two second pairs are worn. Flow hole (1) 111 30 door til When the motor 2 is operating, the drive shaft 21 rotates to drive the radiator to rotate synchronously. At this time, the externally lower temperature airflow can be transmitted by the radiator 3 through the second pair of flows. Quickly inhaling, and strongly blowing toward the seaming machine 1 inside the casing 11 the ship motor 2 transports the hot air flow, at this time, due to the instantaneous pressurization inside the casing U, the hot air flow is naturally carried out for the casing 11 Externally, it is true that it is targeted at the seam area 1〇, double inside $ reading heat cooling 'and the sister's land Wei Wei seam shouting 1G to make the fate of the life, the servo horse Between the 20 and the rear portion 12 of the casing, a set of transmission gears 4G disposed on the transmission shaft 21 j and placed inside the casing U is provided, and the transmission gear is provided as above - corresponding to the teeth and extendable The drive belt 41, which is driven downward, drives the underlying lining. Chu Yi ^ f 5 』 is not a schematic plan view of a partial section of the second embodiment of the present invention. The heat dissipation structure of the second embodiment of the driving device, such as the riding machine, can clearly drive the ship motor 2〇 of the sewing machine 10, and is also fixed above a casing u, paving the motor 20 has a drive shaft 21 that is disposed close to the horizontal position, and the housing u has a shell above it, I3 'rear behind the shell-shell rear U, and the ship rides the raft - the rear of the shell; 2 ^ Hai servo motor 2G another-end job - the _21 is disengaged and placed in the housing ^ / scattered", H 3G (this is a (2) fan 豸 leaf as an example), and the radiator % A first pair of flow holes 121 are formed in the rear portion 12 of the wind body 11 on the side, and two second pair of flow holes are formed in the other side of the diffuser (1), and the first pair of flow holes and the pair of peach through holes (1) may respectively be provided with a filter element such as a filter cotton or a filter (not shown), and when the servo motor 20 is operated, the drive shaft 21 fiber rotation drives the radiator 3〇7 M334869 to rotate synchronously, at this time, the externally lower temperature airflow can be quickly sucked by the radiator 30 through the second pair of circulation holes 111, and is strongly blown toward the The hot air flow generated by the servo motor 2 is operated inside the housing U of the machine 10, and the hot air flow is naturally carried out through the first pair of flow holes 121 due to the instantaneous pressurization inside the housing u. The outside of the body n is achieved for the sewing machine, the double body 11 of the 1 。. p is used for heat dissipation and cooling, and effectively extends the life of the initial machine of the slit 'other' between the servo motor 20 and the heat sink 30 The utility model is provided with a transmission wire 4Q which is arranged on the transmission shaft 21 and is driven by the casing u, and the transmission wheel (10) is provided with a transmission belt 4 corresponding to the toothed and extending downwardly. In order to drive the operation of the lower mechanism, please refer to the schematic view of the fourth embodiment of the present invention as shown in Fig. 6. The heat dissipation structure of the slot_integrated driving device of the fourth embodiment is as shown in the figure. The servo motor 2G that drives the slit _ 1G is also driven by the housing. The motor 20 has a drive shaft 21 that is disposed close to the horizontal direction, and the housing u is above and has a " The diffuser 3〇 (t 3〇11) that is driven and placed inside the casing 11 11 is provided with two other flute-shaped through holes 121, and the case through-holes on the other side of the heat sink 30 are the first through-holes 111' and the first female through-holes 121 and the first The two convection clothes motor 2〇' time ΪΪ special filter element (shown in the figure); when the lower temperature airflow of the feeding part can be blown to the sewing machine 10 housing/pairing through hole 121 by the == time and strong force Being rapidly inhaled, flowing, at this time, the high-temperature hot gas belt generated by the operation of the inner casing ff20 of the casing η is outside the casing 11, reaching (4) the second pair of circulation holes 111 is cooled, and the seam is effectively extended. 1() causes the other end of the housing η of ==1G to dissipate heat to be set-set on the transmission, and in addition, the ship motor 20 drives the toothed chest to touch the 〇 且 伽 伽The inner belt 4] is used to drive the lower mechanism to operate the corresponding teeth 5 and can be extended downwardly. The advantages of the transmission are: The temperature inside the 豉 豉 body U. M334869 2. It can reduce the damage rate of the components inside the casing 11 of the slitting machine 10 and prolong the service life of the sewing machine. 3. The hybrid H 3G surface is additionally driven by a device, and can be directly or indirectly driven by the drive shaft 21 of the servo motor 20 to cool and cool the housing portion of the slit _ 1G. Through the above-mentioned embodiment, the new type of bribe n (four), the practice of the practice of the slogan 10, and the construction of the slogan can be used for the life. The heat of the government is cooled, and the seam is effectively extended _ 10 The above description is only the preferred range of the present invention. That is, the patent application is not limited to the technical scope of the present invention. The equivalent variation of the content of the appearance And the modification should be M334869 j. [Simplified illustration of the drawing] Fig. 1 is a perspective view showing the appearance of a partial decomposition of the first embodiment of the present invention. Fig. 2 is a perspective view showing another partial exploded view of Fig. 1. Figure 3 is a plan view showing a partial cross section of Figure 1; Figure 4 is a plan view showing a partial cross section of the second embodiment of the present invention. Fig. 5 is a plan view showing a partial cross section of a third embodiment of the present invention. Figure 6 is a plan view showing a partial cross section of a fourth embodiment of the present invention. [Description of main component symbols] 10..............Sewing machine_ 11..............Shell 111......... .... second pair of flow holes 12 .............. shell rear part 121 ··........ first pair of flow holes 122 .... .........extending the perforation 13 ..............the upper part of the shell 20 ............. servo motor 21 .... ..........Drive shaft 30.............. Radiator • 40.............. Transmission gear 41.. ............drive belt 50..............support frame 60.............back cover

Claims (1)

M334869 IX. Patent application scope: 1. A heat dissipation structure of a built-in driving device of a sewing machine, characterized in that: a servo motor for driving the sewing machine is fixed above a casing, the servo motor has a transmission shaft, One end of the servo motor is provided with a heat sink that is driven by the drive shaft and disposed in the housing, and at least one first pair of flow holes and at least one second are respectively disposed on the housings on both sides of the heat sink. For the flow holes. 2. The heat dissipation structure of the built-in driving device of the sewing machine according to claim 1, wherein the first pair of flow holes and the second pair of flow holes are respectively sealed with a transition element. 3. The heat dissipating structure of the internal driving device of the sewing machine according to the first aspect of the invention, wherein the servo motor and the radiator are provided with a transmission tooth wheel which is driven by the transmission shaft and disposed in the housing. 4. The heat dissipation structure of the internal driving device of the sewing machine according to claim 1, wherein the other end of the servo motor is provided with a transmission gear that is driven by the transmission shaft and placed in the housing. The heat dissipation structure of the internal driving device of the sewing machine according to the third or fourth aspect of the invention, wherein the first pair of flow holes and the second pair of flow holes are respectively sealed with a filter element. 6. The heat dissipating structure of the internal driving device of the sewing machine according to claim 3 or 4, wherein the transmission gear is provided with a transmission belt corresponding to the toothed and downward transmission. 7. The heat dissipation structure of the internal driving device of the sewing machine according to claim 6, wherein the heat sink is a fan blade. The heat dissipation structure of the internal driving device of the sewing machine according to the sixth aspect of the invention, wherein the housing has a shell upper portion. The heat dissipation structure of the internal driving device of the sewing machine according to claim 6, wherein the housing has a rear portion of the casing through which the first pair of flow holes are bored. The heat dissipation structure of the internal driving device of the sewing machine according to the ninth aspect of the invention, wherein the rear portion of the casing is provided with an extended perforation for extending the transmission shaft outside the casing, and the casing is fixed on the casing a support frame surrounding the extended perforation and a rear cover that completely shields the support frame from the extended perforated disk. The heat dissipation structure of the internal driving device of the sewing machine according to claim 10, wherein the support frame is provided with a sensing controller for sensing and controlling the position of the preset point on the transmission shaft and the rotation speed of the servo motor. . ’