CN102535050B - The radiator structure of modularized motor device - Google Patents

Abstract

A radiator structure for modularized motor device, this radiator structure comprises a driving module, and this driving module is coated in one first shells, and is provided with one first louvre group in this first shells; One heat radiation module, this heat radiation module to be coated in one second shells and to be installed on this driving module side, this second shells is pivoted with a fan and runs through one second louvre group and one second air admission hole group, this the second air admission hole group comprises most air admission hole communicated with outside, this heat radiation module sucks air from this second air admission hole group by outside by this fan and produces radiating airflow, and this second air vent group of radiating airflow mat and this first air vent group flow toward this driving module and dispel the heat.

Description

The radiator structure of modularized motor device

Invention field

The invention relates to a kind of radiator structure of drive unit, espespecially a kind of can simultaneously to the radiator structure that motor apparatus and control device dispel the heat.

Background technology

Sewing device is tentatively for the application target of different users, the automaticity of sewing device first can be divided into full-automatic with semi-automatic industrial and household products equipment, and along with operator for making the various different demand of function, variation makes under the lifting of requirement and sewing device self-technique, the kind of sewing device also correspondingly with increase.

Under the adjustment of market and consumption structure, the product structure of sewing device therefrom low speed rotation to high speed, seriation future development, more import electronics simultaneously, motor technology, sewing device is made to start to apply widely, for existing industrial sewing device, as shown in fig. 1, sewing device 90 Department is installed on the workbench 91 of an operation, sewing device 90 includes a Sewing machines 92, one drive unit 93 and a control device 94, wherein respectively Sewing machines 92 is installed on above workbench 91, and below workbench 91 configuration driven device 93, and be fixed with control device 94 in the below of drive unit 93, electronic motor technology is imported to utilize control device 94, make industrial sewing device electronization, but it is to power supply supply while equipment electronization, drive power resources to require also to improve thereupon, so improve too for the demand of equipment cooling.

The Sewing machines 92 produced designed by this above-mentioned prerequisite Xia Gejia manufacturer is for requiring in response to making and have the drive unit 93 needing different outputting power, and for being applied to various operational job step and different control device 94 of will arranging in pairs or groups, the sewing device 90 that Shi Now has must coordinate Sewing machines 92 function to select suitable drive unit 93 and control device 94 usually, meanwhile, existing radiator structure is respective drive device 93 separately development design and be usually arranged at its one end also, and existing sewing device 90 as shown in fig. 1, drive unit below its workbench 91 93 and control device 94 have accounted for most of space below workbench 91, the Sewing machines 92 of adding above workbench 91 taken up space, cause workbench 91 can be sewed equipment 90 for operator's usage space significantly to limit, particularly obstruction is spatially brought for the steps flow chart of operator's manual working of still needing, too increase not convenient property, automation mechanized operation is originally made to shorten the activity duration, the effect of steps flow chart and its operation ease brought of simplifying the operation is made a discount.

Summary of the invention

In view of this, inventor improves for the fit structure of the drive unit included by existing sewing device and control device, a kind of modular motor apparatus structure is provided, to drive module by one and to control module one and assemble and be supplied to operator and use, reach and reduce the restriction of existing sewing device to operator's usage space, promote the convenience of overall operation flow process, and possess the advantage of former automation mechanized operation simultaneously.

Moreover, a kind of radiator structure of modularized motor device is provided, effectively to dispel the heat to modularized motor device in the present invention, drive module in it and control device between module and have a heat radiation module, heat radiation module can be dispelled the heat for the module being assembled in its both sides, and You other Yu Now has radiator structure to be usually arranged at one end, effectively to dispel the heat, reduce the overheated problem causing fault of running, promote the stability in integrated operation.

For reaching above-mentioned purpose, the technology used in the present invention means comprise a driving module, this driving module is coated in one first shells, and be provided with one first louvre group in this first shells, this first shells includes one first inner barrel and and is coated on the first outer outlet body outside this first inner barrel, this the first louvre group is located between this first inner barrel and this first outer outlet body, this the first louvre group has most first louvre, and this first louvre lays respectively at limit place folded between this first inner barrel and this first outer outlet body, one heat radiation module, this heat radiation module to be coated in one second shells and to be installed on this driving module side, this second shells is pivoted with a fan and runs through one second louvre group and one second air admission hole group, this second louvre group Department is to being located in this second shells in the first louvre group position, this the second louvre group has most second louvre, this second louvre lays respectively at this second shells limit place, this the first louvre group and this second louvre group form a heat dissipation channel, this the second air admission hole group comprises most air admission hole communicated with outside, this heat radiation module sucks air from this second air admission hole group by outside by this fan and produces radiating airflow, this the second louvre group of radiating airflow mat and this first louvre group flow toward this driving module and dispel the heat.

This driving module includes a power transmission shaft, and this power transmission shaft one end passes this first shells and device has a belt pulley thereon, and this power transmission shaft other end penetrates in this second shells and device has this fan thereon.

A fairing cap is embedded with, to be located between this second shells and this fairing cap by this fan in this second shells.

This fairing cap is to being provided with a flow-guiding mouth by position of fan, and this flow-guiding mouth opening range is less than this fan.

This radiator structure more includes one first and controls module, this first controls module and to be coated in one the 3rd shells and to be installed on this heat radiation module opposite side, this heat radiation module includes second fins group extended toward this second shells from the 3rd shells, and this second fins group comprises most fin in order to heat conduction.

This first controls module and includes one and be installed on the first machine plate inside the 3rd shells, this the first machine plate and this second fins group are in the 3rd shells both sides respectively, and the heat that this first machine plate produces can conduct to this heat radiation module by the fin of this second fins group.

3rd shells is preset with an assembling opening, first controls module more includes a control panel, being embedded at this assembling opening and is embedded at panel machine plate inside this control panel, and this first machine plate and this panel machine panel assembly are on the adjacent inboard face of the 3rd shells.

Specific embodiment of the present invention, by by following embodiment and to be attachedly further described in graphic.

Accompanying drawing explanation

The industrial sewing device schematic diagram that figure 1 has Wei Now;

Fig. 2 is first embodiment of the invention stereogram;

Fig. 3 is first embodiment of the invention perspective exploded view;

Fig. 4 is the shells generalized section in first embodiment of the invention;

Fig. 5 is the stereogram of the first shells in first embodiment of the invention;

Fig. 6 is the stereogram of the second shells in first embodiment of the invention;

Fig. 7 is the profile of first and second shells in first embodiment of the invention;

Fig. 8 is the perspective exploded view of third and fourth shells in first embodiment of the invention;

Fig. 9 is the schematic perspective view of module of dispelling the heat in first embodiment of the invention;

Figure 10 is the radiating airflow schematic diagram () of module of dispelling the heat in first embodiment of the invention;

Figure 11 is the radiating airflow schematic diagram (two) of module of dispelling the heat in first embodiment of the invention;

Figure 12 is first embodiment of the invention actual use schematic diagram.

In order to clearly understand the present invention, below provide title and the sequence number of each parts in accompanying drawing, concrete: modular structure 100; First device district 101; Second device district 102; 3rd device district 103; 4th device district 104; First shells 10; First inner barrel 11; First axis hole 111; First outer outlet body 12; First louvre group 13; First louvre 131,132,133,134; First screw ear 141,142,143,144; Second shells 20; Second axis hole 21; Convex edge 22; Second louvre group 23; Second louvre 231,232,233,234; Second screw ear 241,242,243,244; Top connecting block 25; Top connect apertures 251; Side connecting block 26; Side connect apertures 26; Runners 27; Right angle screw 271; 3rd shells 30; Assembling opening 31; Fixed block 32; Power interface 33; 4th shells 40; Drive module 50; Power transmission shaft 51; First end 511; Second end 512; Driven unit 52; Stator 521; Rotor 522; Belt pulley 53; Pulley cap 541,542; Heat radiation module 60; Fan 61; Second air admission hole group 62; Second fins group 63; Fairing cap 64; Flow-guiding mouth 641; First controls module 70; Control panel 71; Panel machine plate 72; First machine plate 73; Power insert 74; Sewing device 90; Workbench 91; Sewing machines 92; Drive unit 93; Control device 94; Radiating airflow A; Workbench W.

Detailed description of the invention

Refer to shown in Fig. 2 and Fig. 3, it is first embodiment of the invention schematic perspective view and perspective exploded view, the radiator structure 100 of motor of the present invention and control device comprises one first shells 10,1 second shells 20, the 3rd shells 30 and the 4th shells 40, and radiator structure 100 is divided into device district 102 of first device district 101, second, the 3rd device district 103 and the 4th device district 104 as shown in Figure 4 by the first shells 10, second shells 20, the 3rd shells 30 and the 4th shells 40.

Shown in ginseng Fig. 5, first shells 10 is made up of one first inner barrel 11 and one first outer outlet body 12, in the present embodiment, first inner barrel 11 is one end closed hollow cylinder, its outside is surrounded by the square frame body of the first outer outlet body 12, and the first inner barrel 11 is preset with one first axis hole 111 in its blind end.

Four corners of the first shells 10 folded by between first inner barrel 11 and the first square outer outlet body 12 of circle are provided with one first louvre group 13, first louvre group 13 and include 4 the first louvres 131,132,133,134.

In the present embodiment, the first shells 10 also must utilize other can form shape of louvre as the first inner barrel 11 body profiles corresponding to the first outer outlet body 12 in shells limit place.

First shells 10 separately extends one first screw ear 141,142,143,144 toward the first outer outlet body 12 direction respectively from the first inner barrel 11 appearance of the first louvre group 13.

Shown in ginseng Fig. 6, the hollow corner cylinder that second shells 20 is closed for one end, second shells 20 is reserved with one second axis hole 21 in the position of corresponding first axis hole 111 of its blind end, and separately corresponding first inner barrel 11 openend is provided with a circle convex edge 22, second shells 20 by the corresponding socket unit in convex edge 22 on its side in the first shells 10 openend, to make between two shells to be formed with a first device district 101 in as Fig. 4, and device has a driving module 50 in first device district 101.

The position of each first louvre 131,132,133,134 of the corresponding first louvre group 13 of the second shells 20 is provided with one second louvre group 23, second louvre group 23 includes the second louvre 231,232,233,234 that 4 run through the second shells 20 blind end four corner, and the first louvre group 13 and the second louvre group 23 form a heat dissipation channel.

In another embodiment of the present invention, also directly can be provided with one first louvre group 13 in the first shells 10 place of closing, and the second shells 20 place of closing is provided with one second louvre group 23, the first shells 10 and the second shells 20 place of closing are run through most louvre.

Second shells 20 separately corresponding first screw ear 141,142,143,144 is provided with the second screw ear 241,242,243,244, for screw S1 passes the second screw ear 241,242,243,244 and first screw ear 141,142,143,144, second shells 20 is locked in the openend of the first shells 10.

Shown in ginseng Fig. 7, drive module 50 to be coated in the first inner barrel 11 and include a power transmission shaft 51, power transmission shaft 51 is provided with a driven unit 52, and driven unit 52 comprises stator 521 and a rotor 522.

Power transmission shaft 51 two ends are respectively first end 511 and one second end 512, its first end 511 passes first device district 101 by the first axis hole 111 and device has a belt pulley 53 thereon, belt pulley 53 is made to be installed on outside the first shells 10, and belt pulley 53 both sides are respectively provided with a pulley cap 541,542 in first end 511, in order to belt pulley 53 be sandwiched in two pulley caps 541,542 inside and be assembled into a belt pulley set.

Shown in ginseng Fig. 8, the 3rd shells 30 is for the closed hollow corner cylinder in one end and be installed on the second shells 20 openend, makes between two shells, be formed with one second device district 102 as shown in Figure 4, and has a heat radiation module 60 in the second device district 102 device.

In Fig. 3, heat radiation module 60 to be coated in the second shells 20 and to include fan 61,1 second air admission hole group 62 and one second fins group 63, and as shown in Figure 7, its second end 512 of power transmission shaft 51 in module 50 is driven to penetrate the second device district 102 by the second axis hole of the second shells 20, be installed on the second end 512 for fan 61, and make fan 61 be installed on the second shells 20 blind end place.

Separately be embedded with a fairing cap 64 in the second shells 20 blind end place, to be located in by fan 61 between second shells 20 blind end and fairing cap 64, fairing cap 64 corresponding fan 61 position is provided with a flow-guiding mouth 641, and flow-guiding mouth 641 opening range is less than fan 61.

Second shells 20 is provided with the second air admission hole group 62 in its outer surface place, and the second air admission hole group 62 includes majority runs through the second shells 20 with the air admission hole communicated with outside, and the second fins group 63 for from the 3rd its blind end of shells 30 toward the second direction, device district 102 extend most fin in order to heat conduction.

As shown in Figure 9, fan 61 in heat radiation module 60 starts rotation when dispelling the heat, fan 61 sucks air from the air admission hole of the second air admission hole group 62 by outside and produces a radiating airflow A, and radiating airflow A can move toward the second louvre group 23 by the flow-guiding mouth 641 of fairing cap 64.

Next, as shown in Figure 10, radiating airflow A sequentially (only shows the second louvre 231 along the second louvre group 23 in figure, 232) toward the first louvre group 13, (in figure, only correspondence shows the first louvre 131, 132) mobile, and drive module 50 peripheral because the first louvre group 13 Department is surrounded on, so the radiating airflow A that produces of fan 61 can by while the first louvre group 13 section flowing through heat dissipation channel, take away the heat driving module 50 to produce in the lump, the radiating airflow A opening blowout that finally it is positioned at belt pulley set homonymy by the first louvre group 13 is outside.

In another embodiment of the present invention, the louvre that radiating airflow A also can be closed by the second shells 20 flow to the louvre that the first shells 10 closes place, drives the mode of module 50 inside to take away its hot (not shown) produced to replace and above-mentionedly flow through the mode of carrying out dispelling the heat in driving module 50 outside by radiating channel directly to flow through.

In Fig. 8,3rd shells 30 outer surface is preset with an assembling opening 31 and its inside has one the 3rd device district 103 as shown in Figure 4, in 3rd device district 103, device has one first to control module 70, and the 3rd shells 30 is extended with one group of fixed block 32 from its blind end.

First controls module 70 to be coated in the 3rd shells 30 and to include a control panel 71, trigger plate 72 and one first machine plate 73, its control panel 71 is embedded at assembling opening 31 place of the 3rd shells 30, and inside control panel 71, is embedded with panel machine plate 72 and is fixedly assembled into one with control panel 71.

First machine plate 73 is sealed is fixed on fixed block 32, the first machine plate 73 is made to be in the both sides of the 3rd shells 30 blind end respectively with the second fins group 63 of heat radiation module 60, and the heat that the first machine plate 73 produces as shown in Figure 11 can conduct to the second device district 102 by the fin of the second fins group 63, and the radiating airflow A produced by its fan 61 of heat radiation module 60 equally takes away the heat that machine plate produces.

On first machine plate 73, another device has a power insert 74,3rd shells 30 corresponding power plug-in unit 74 is provided with a power interface 33, power insert 74 on first machine plate 73 passes the 3rd shells 30 by power interface 33, connects be inserted on power insert 74 through power interface 33 for external powering device (not shown).

3rd shells 30 is fixed with one the 4th shells 40 in its openend with screw S2, makes the 3rd shells 30 open end be installed on the 4th shells 40 open end.4th shells 40 inside has one the 4th device district 104 as shown in Figure 4.

When reality uses, utilize and extend a top connecting block 25 and side connecting block 26 outward, in order to connect with a runners 27 by the second shells 20 in Fig. 6.

Top connecting block 25 runs through and has a top connect apertures 251, side connecting block 26 runs through and has side connect apertures 261, runners 27 one end is directly fixed on the top connect apertures 251 of top connecting block 25, its other end is fixed on the side connect apertures 261 of side connecting block 26 through a right angle screw 271, in order to be fixed on as shown in Figure 12 below a workbench W.

In the radiator structure 100 of motor of the present invention and control device, it utilizes above-mentioned first shells 10, second shells 20, 3rd shells 30 and the 4th shells 40 be separated out different first device district 101, second device district 102, the space in the 3rd device district 103 can provide the driving module 50 of difference in functionality respectively, heat radiation module 60 and first controls module 70 and assembles, make this functional module group can be assembled as one in the lump, the smart simple Now of energy has the structure of sewing device 90, sewing device is had to the restriction of operator's usage space in order to subtracting contracting Now, promote the convenience of overall operation flow process, possess the advantage of former automation mechanized operation simultaneously.

Separately due to after the simple Now of essence has sewing device 90 structure, while the utilization rate increasing space, also make the density of assembling components larger, can dispel the heat to other functional module group by the radiator structure 100 in the present invention, radiator structure 100 controls have with device the module 60 that dispels the heat between module 70 in driving module 50 and first, heat radiation module 60 is assembled in radiator structure 100 close in the second device district 102 of centre, dispel the heat in order to controlling module 70 to the driving module 50 and first of its both sides, this one is one of main characteristics of the present invention, You other Yu Now has radiator structure to be usually arranged at one end, effectively to dispel the heat, reduce the overheated problem causing fault of running, promote the stability in integrated operation.

The foregoing is only preferred embodiment of the present invention, non-ly therefore namely limit to the scope of the claims of the present invention, therefore such as use simple and easy modification and the equivalent structure change for it of description of the present invention and graphic content institute, all should in like manner be contained in the scope of the claims of the present invention.

Claims (5)

1. a radiator structure for modularized motor device, is characterized in that, this radiator structure (100) comprising:

One drives module (50), this driving module (50) is coated in one first shells (10), and be provided with one first louvre group (13) in this first shells (10), this first shells (10) includes the first outer outlet body (12) that one first inner barrel (11) and is coated on this first inner barrel (11) outside, this the first louvre group (13) is located between this first inner barrel (11) and this first outer outlet body (12), this the first louvre group (13) has most first louvre (131, 132, 133, 134), this first louvre (131, 132, 133, 134) limit place folded between this first inner barrel (11) and this first outer outlet body (12) is laid respectively at,

One heat radiation module (60), this heat radiation module (60) to be coated in one second shells (20) and to be installed on this driving module (50) side, this second shells (20) is pivoted with a fan (61) and runs through one second louvre group (23) and one second air admission hole group (62), this the second louvre group (23) is to being located in this second shells (20) in the first louvre group (13) position, this the second louvre group (23) has most second louvre (231, 232, 233, 234), this second louvre (231, 232, 233, 234) this second shells (20) limit place is laid respectively at, this the first louvre group (13) and this second louvre group (23) form a heat dissipation channel, this the second air admission hole group (62) is located at the second shells (20) outer surface, comprise most air admission hole communicated with outside, this heat radiation module (60) sucks air from this second air admission hole group (62) by outside by this fan (61) and produces radiating airflow, this the second louvre group (23) of radiating airflow mat flows with this first louvre group (13) toward this driving module (50) and dispels the heat,

One first controls module (70), this first controls module (70) and to be coated in one the 3rd shells (30) and to be installed on this heat radiation module (60) opposite side, this heat radiation module (60) includes second fins group (63) extended toward this second shells (20) from the 3rd shells (30), this second fins group (63) comprises most fin in order to heat conduction, this first control module (70) includes the first machine plate (73) that is installed on the 3rd shells (30) inner side, this the first machine plate (73) and this second fins group (63) are in the 3rd shells (30) both sides respectively, the heat that this first machine plate (73) produces can conduct to this heat radiation module (60) by the fin of this second fins group (63).

2. the radiator structure of modularized motor device according to claim 1, it is characterized in that: this driving module (50) includes a power transmission shaft (51), this power transmission shaft (51) one end passes this first shells (10) and device has a belt pulley (53) thereon, and this power transmission shaft (51) other end penetrates in this second shells (20) and device has this fan (61) thereon.

3. the radiator structure of modularized motor device according to claim 1, it is characterized in that: this second shells (20) is embedded with a fairing cap (64), so that this fan (61) is located between this second shells (20) and this fairing cap (64).

4. the radiator structure of modularized motor device according to claim 3, it is characterized in that: this fairing cap (64) is to being provided with a flow-guiding mouth (641) in fan (61) position, and this flow-guiding mouth (641) opening range is less than this fan (61).

5. the radiator structure of modularized motor device according to claim 1, it is characterized in that: the 3rd shells (30) is preset with an assembling opening (31), first controls module (70) more includes the panel machine plate (72) that a control panel (71), being embedded at this assembling opening (31) is embedded at this control panel (71) inner side, and this first machine plate (73) and this panel machine plate (72) are installed on the adjacent inboard face of the 3rd shells (30).