CN204677982U - A kind of generator set based on roller and pull bar framework - Google Patents

Abstract

The utility model is a kind of generator set based on roller and pull bar framework, this generator set is primarily of motor, generator and casing composition have length L, the cuboid framework of width W and height H, described motor and generators hold are in casing, motor is connected with the casing be arranged at bottom generator set, the casing of the leading flank that the width W in described generator set cuboid framework and height H are formed and trailing flank is respectively provided with a rotary roller, the rolling axis of described rotary roller is longitudinally arranged along the length L direction of generator set, pull-rod device is provided with perpendicular on the direction of its rolling axis between two rotary roller, described pull-rod device is arranged on the casing of generator set.The utility model generator set is more laborsaving when being moved, and can not bump to operator, also allows the roller adopting diameter larger, improve the passing capacity of various landform, and more reasonably utilize generator set space, improve operation interface, portability and operation ease improve greatly.

Description

A kind of generator set based on roller and pull bar framework

Technical field

The utility model relates to portable power generation unit field, is specifically related to a kind of inverter generator group based on roller and pull bar framework.

Background technique

Generator set is formed primarily of motor, generator and automatical control system, can be electric energy by the chemical energy of fuel oil, have a wide range of applications, such as: many occasions such as field work, emergence power, disaster treatment, open air life and travelling, yacht and vehicle are power autonomous, mobile communication base station.

Compared with traditional power frequency Synchronous generator, efficiency is high, volume is little, lightweight advantage to adopt the inverter generator group of multi-polar permanent-magnet generator to have, its weight and volume only has about 50% of conventional rack, is the generator set that really can realize " portable ".

But the inverter generator group weight of about 2kw is general also all at more than 20kg, carries and carry or very inconvenient.As shown in Fig. 1 a, Fig. 1 b and Fig. 2, the solution of prior art is: arrange roller 201 in generator set 2 bottom rear along generator set width W direction (transverse direction), namely the axis of roller 201 is consistent with generator set width W direction; On front side of generator set 2, arrange rotary type pull bar 202, rotary type pull bar 202 one end is connected by rotating shaft 2022 with top on front side of generator set, and the other end arranges handle 2021, and rotary type pull bar 202 can 2022 upper and lower upsets around the shaft.When needs carrying generator set 2, rotary type pull bar 202 upwards can be turned to extreme higher position, hold handle 2021 and lift generator set front portion, then just can drawing generator group 2 forward.But there is a lot of problem in this design, as shown in Figure 2, in drawing generator group 2 process, operator must go the weight G overcoming generator set just can lift generator set front portion with power F upwards all the time, due to the length L comparatively large (being greater than width W) of generator set 2, center of gravity and the roller 201 center distance B in the horizontal direction of generator set 2 are larger, when distance A+B mono-timing in the horizontal direction of handle 2021 and roller 201 center, due to F=G*B/ (A+B), therefore F is comparatively large, operator carries generator set 2 and still requires great effort very much.On the other hand, operator lift generator set front portion forward drawing generator group 2 time, generator set lower front P region 203 apart from the pin of operator and leg very near, be easy to bump to operator, may cause injured time serious, this causes very large obstacle to operator's quick drawing generator group 2.In addition, two rollers 201 of existing generator set 2 share a wheel shaft, the wheel shaft running through whole generator set 2 wastes the space of casing internal, the roller that diameter is less can only be adopted, the roller resistance on minor diameter roller and ground is larger, the adaptive capacity of road conditions is poor, and during carrying, the passing capacity of generator set is also poor.

The utility model is conceived to the deficiency of existing generator set just, for generator set devises more reasonably rotary roller and pull-rod device, with the rotary roller of generator set and pull-rod device for basic framework carries out a series of adjusting and optimizing design to the modular construction on generator set and position.Make it more laborsaving when being moved, operator can not be bumped to, guarantee that operator can drawing generator group forward quickly and safely, also allow the roller adopting diameter larger, substantially increase the adaptive capacity of the various road conditions of pair of rollers, reduce the running resistance of roller during power generator handling, major diameter roller also improves passing capacity simultaneously, and more reasonably utilize generator set space, improve operation interface, portability and operation ease improve greatly.

Model utility content

Portable power generation unit of the present utility model is conceived to the deficiency of existing generator set, for generator set designs more reasonably rotary roller and pull-rod device, the utility model longitudinally arranges rotary roller along generator set length L direction bottom generator set left surface or right flank, and in corresponding side, drawing and pulling type pull-rod device or rotary type pull-rod device are vertically set along generator set height H direction, and based on this rotary roller and pull-rod device, framework is again carried out to generator set.

For realizing above-mentioned technical purpose, reach above-mentioned technique effect, the utility model is achieved through the following technical solutions:

A kind of generator set based on roller and pull bar framework, this generator set is primarily of motor, generator and casing composition have length L, the cuboid framework of width W and height H, described motor and generators hold are in casing, motor is connected with the casing bottom generator set, the casing of the leading flank that the width W in described generator set cuboid framework and height H are formed and trailing flank is respectively provided with a rotary roller, the rolling axis of described rotary roller is longitudinally arranged along the length L direction of generator set, pull-rod device is provided with perpendicular on the direction of its rolling axis between two rotary roller, described pull-rod device is arranged on the casing of generator set.

Further, connect without wheel shaft between two rotary roller on described generator set, described rotary roller is primarily of roller and corresponding support composition, described roller is arranged in support by its axis of rotation, described Bracket setting in the bottom of shell concave inward structure of generator set, and to be connected/clamping by fastening piece and/or buckle structure and bottom of shell.

Further, described pull-rod device is drawing and pulling type pull-rod device, and described drawing and pulling type pull-rod device is vertically arranged along the height H direction of generator set, and drawing and pulling type pull-rod device is positioned at the homonymy of rotary roller.

Further, described pull-rod device is rotary type pull-rod device, and described rotary type pull-rod device is connected with the casing of generator set rotationally by its rotating shaft, and this rotating shaft is positioned at the homonymy of rotary roller, when arranging rotary type pull-rod device, the height H of this generator set is less than length L.

Further, described drawing and pulling type pull-rod device is primarily of the pull bar of drawing and pulling type, bar cylinder, handle and locking device are formed, wherein, drawing and pulling type pull-rod device at least comprises a joint pull bar and a bar cylinder, and pull bar and bar cylinder form multistage nested structure, one end of first segment pull bar is provided with handle, the other end saves pull bar flip sleeve by locking device and bar cylinder or another and connects, the overall length of drawing and pulling type pull-rod device is regulated by pull bar distance of stretch out and draw back in bar cylinder or another joint pull bar, the casing of described bar cylinder and generator set is connected, described handle exposes to casing in flexible stroke.

Further, described rotary type pull-rod device is formed primarily of pull bar, handle, rotating shaft and locking device, wherein, rotary type pull-rod device at least comprises a pull bar and a rotating shaft, one end of rotary type pull bar is provided with handle, and the other end is rotationally connected by the casing of rotating shaft and generator set, and rotating shaft side is provided with locking device, in order to limit rotation, the handle of rotary type pull-rod device exposes to casing all the time on its movement locus.

Further, described generator set is provided with reservoir port and corresponding fuel tank cap, described reservoir port and corresponding fuel tank cap are arranged on the different side from pull-rod device, fuel tap knob is also provided with at described reservoir port and corresponding fuel tank cap homonymy, the casing of described generator set is provided with and safeguards cover plate, the neck of described reservoir port is clamped in be safeguarded between cover plate and casing.

Further, described generator set is provided with and starts handle, and described starting handle is arranged on the ipsilateral of pull-rod device, is also provided with chock plate handle at described starting handle homonymy.

Further, described generator set is provided with appliance panel, described appliance panel be arranged on formed by generator set width W and height H leading flank, trailing flank and with drawing and pulling type pull-rod device in the wherein one side of the left surface of ipsilateral or right flank.

Further, described generator set is provided with appliance panel, described appliance panel be arranged on formed by generator set width W and height H leading flank, trailing flank and the left surface formed by generator set height H and length L, right flank wherein one side on.

The beneficial effects of the utility model are:

1. rotary roller of the present utility model is arranged along generator set length L direction, due to the width W of generator set less (being less than length L), after tilting, the center of gravity of generator set is generally within directly over roller center, the weight of whole generator set is almost all born by rotary roller, the burden of operator is very little, therefore easily, easily can realize power generator handling, substantially increase the portability of generator set.

2. drawing and pulling type pull-rod device of the present utility model or the tiltable of rotary type pull-rod device pull generator set, true dip direction now due to generator set is consistent with its direction of advance, below generator set the pin of S region distance operator and leg far away, can not operator be bumped to, guarantee that operator can drawing generator group forward quickly and safely.

3. rotary roller of the present utility model and pull-rod device framework allow the roller that employing diameter is larger, substantially increase the adaptive capacity of the various road conditions of pair of rollers, reduce the running resistance of roller during power generator handling, improve various landform passing capacity.

4. on the framework basis that the utility model rotary roller and pull-rod device and generator set are formed, a series of adjusting and optimizing design is carried out to the modular construction on generator set and position, make use of generator set space further, reduce machine volume, improve operation interface, its portability and operation ease are improved greatly.

Accompanying drawing explanation

Fig. 1 a and Fig. 1 b is the existing generator set shape assumption diagram of band roller and pull bar;

Fig. 2 is the existing power generator handling force analysis figure of band roller and pull bar;

Fig. 3 a and Fig. 3 b is generator set profile elementary contour and the structural drawing of the utility model embodiment one;

Fig. 4 is the utility model power generator handling force analysis figure;

Fig. 5 a and Fig. 5 b are the portion structure figure that the casing of the utility model embodiment one is connected rotary roller;

Fig. 5 c, Fig. 5 d and Fig. 5 e are the structural drawing of the utility model rotary roller;

Fig. 6 a and Fig. 6 b is the pull bar retracted mode structural drawing of the utility model drawing and pulling type pull-rod device;

Fig. 7 a and Fig. 7 b is the pull bar open mode structural drawing of the utility model drawing and pulling type pull-rod device;

Fig. 8 is the generator set plan view of the utility model embodiment one;

Fig. 9 is the generator set left view of the utility model embodiment one;

Figure 10 is the generator set right elevation of the utility model embodiment one;

Figure 11 is the generator set plan view of the utility model embodiment one;

Figure 12 is the generator set A-A sectional view of the utility model embodiment one;

Figure 13 is the generator set B-B sectional view of the utility model embodiment one;

Figure 14 is the generator set C-C sectional view of the utility model embodiment one;

Figure 15 is the generator set D-D sectional view of the utility model embodiment one;

Figure 16 is the generator set stereogram of the utility model embodiment one;

Figure 17 is the generator set pull bar of the utility model embodiment one stereogram when opening;

Figure 18 is the power generator handling state stereogram of the utility model embodiment one;

Figure 19 is the generator set explosive view of the utility model embodiment one;

Figure 20 is the generator set plan view (pull bar retracted state) of the utility model embodiment two;

Figure 21 is the generator set plan view (pull bar open mode) of the utility model embodiment two;

Figure 22 is the generator set left view of the utility model embodiment two;

Figure 23 a and Figure 23 b is the rotary type pull-rod device structural drawing of the utility model embodiment two;

Figure 24 is the generator set A-A sectional view of the utility model embodiment two;

Figure 25 is the generator set B-B sectional view of the utility model embodiment two;

Figure 26 a is the generator set pull-rod device partial enlarged drawing I(pull bar retracted state of the utility model embodiment two);

Figure 26 b is the generator set pull-rod device C-C sectional view (lock state that pull bar is opened) of the utility model embodiment two;

Figure 27 is the generator set D-D sectional view of the utility model embodiment two;

Figure 28 and Figure 29 is the generator set stereogram (pull bar retracted state) of the utility model embodiment two;

Figure 30 is the generator set pull bar open mode of the utility model embodiment two;

Figure 31 is the power generator handling state stereogram of the utility model embodiment two;

Figure 32 is the generator set explosive view of the utility model embodiment two.

number in the figure illustrates:1. generator set, 101. generator set leading flanks, 102. generator set trailing flanks, 103. generator set left surfaces, 104. generator set right flanks, bottom 105. generator set, 106.S region, 2. existing generator set, 201. roller, 202. rotary type pull bars, 2021. handle, 2022. rotating shaft, 203.P region, 3. rotary roller, 301. roller, 302. support, 3021. buckle structure, 3022. screw pole, 303. wheel shaft, 304. back-up ring, 305. nut, 4. drawing and pulling type pull-rod device, 401. pull bar, 4011. first segment pull bar, 4012. second section pull bar, section 4013. the 3rd, pull bars, 402. bar cylinders, 403. handle, 404. unlock button, 405. guide rod, 406. unlock spring, 407. locking devices 1, 4071. lock body, 4072. tapered end, 4073. locking spring, 4074. contact, 408. locking devices 2, 4081. lock body, 4082. tapered end, 4083. locking spring, 4084. contact, 409. locking devices 3, 4091. lock body, 4092. tapered end, 4093. locking spring, 4094. contact, 410. screw, 5. casing, 501. left casings, 502. right casings, 503. lower housing, 5031. concave inward structure, 5032. draw-in groove, 504. safeguard cover plate, 505. suction port, 506. electrical appliance kit, forms after 507., 508. handle, 509. shock-absorbing foot, 510. foot pad, 6. motor, 601. crankcase body, 602. crankcase cover, 603. bent axle, 604. flywheel, 605. fan, 606. wind scooper, 607. air filter, 608. hand starter, 609. start handle, 610. stay cord, 611. chock plate handles, 7. generator, 8. fuel tank, 801. reservoir port, 802. fuel tank cap, 803. rubber seal dishes, 9. fuel tap, 901. fuel tap knobs, 10. appliance panel, 11. inverters, 12. inverter cases, 13. rotary type pull-rod device, 1301. pull bar, 1302. handle, 1303. rotating shaft, 1304. locking column, 1305. locking handle, 1306. spring, 1307. screw, 1308. locking aperture.

Embodiment

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the utility model in detail.

The utility model provides 2 kinds of embodiments:

, embodiment one:

As shown in Fig. 3 a to Figure 19, the generator set 1 of this patent forms primarily of motor 6, generator 7, inverter 11, rotary roller 3, drawing and pulling type pull-rod device 4, casing 5, appliance panel 10.

As shown in figures 12 and 14, the motor 6 of the present embodiment is tilted cylinder motor, and multiple permanent magnet generator 7 is arranged on motor rear portion, is connected with the output terminal at engine crankshaft rear portion, belongs to rear-mounted generator.Vertical cylinder engine can certainly be selected as required, adopt front-located mode generator, to reduce the width (W) of generator set.Motor front portion is provided with inverter 11, and inverter 11 is used for the medium frequency alternating current that multiple permanent magnet generator 7 exports to convert to the industrial-frequency alternating current of voltage stabilization.

As shown in Fig. 3 a to Figure 19, the elementary contour of generator set 1 is designed to the shape that occupies rectangular parallelepiped space, its length (L) is greater than width (W), motor 6 and generator 7 are housed inside in casing 5, motor 6 with bottom generator set 105 casing 5 be connected, bottom close generator set, 105 are provided with two rotary roller 3, each rotary roller 3 comprises a roller 301 and wheel shaft 303 thereof, two rollers 301 are arranged along length (L) direction (longitudinal direction) of generator set, namely the axis of roller 301 and length (L) direction of generator set consistent, a roller 301 is respectively being provided with near generator set leading flank 101 and trailing flank 102, each roller 301 is connected with bottom casing 5 by its support 302.

Generator set right flank 104 is being provided with drawing and pulling type pull-rod device 4, pull-rod device 4 is arranged along height (H) direction (vertical direction) of generator set, namely the pull direction of its pull bar 401 and height (H) direction of generator set consistent, the top of pull-rod device 4 is provided with handle 403, and bar cylinder 402 and the casing 5 of pull-rod device 4 link together.

Rotary roller 3 and drawing and pulling type pull-rod device 4 are positioned at the homonymy of generator set 1, all arrange near generator set right flank 104.

As shown in Fig. 8 to Figure 19, the motor 6 of this patent and generator 7 are housed inside in casing 5, casing 5 is primarily of formations such as left casing 501, right casing 502 and lower housings 503, left casing 501 is positioned at generator set left surface 103, right casing 502 is positioned at generator set right flank 104, lower housing 503 to form bottom generator set 105, and be connected with lower housing 503 by damping device bottom motor 6, lower housing 503 is connected with rotary roller 3 near bottom.As shown in Figure 12, Figure 13, Figure 14 and Figure 19, two bar cylinders 402 of drawing and pulling type pull-rod device 4 are from top to bottom through two perforates of right casing 502 side top, bar cylinder 402 inserts the sleeve pipe with lower housing 503 one, be connected by screw 410 with sleeve bottom bottom bar cylinder 402, the handle 403 of drawing and pulling type pull-rod device 4 exposes to right casing 502 top.

As shown in Fig. 5 a to Figure 19, be respectively provided with a rotary roller 3 at generator set leading flank 101 and trailing flank 102, rotary roller 3 is arranged near generator set right flank 104, and the present embodiment rotary roller 3 is connected with lower housing 503.Rotary roller 3 is formed primarily of roller 301, support 302, buckle structure 3021, screw pole 3022, wheel shaft 303, back-up ring 304 and nut 305.Two rotary roller 3 inside have and oneself independently connect without wheel shaft between wheel shaft 303, two rotary roller 3.The roller 301 of rotary roller 3 is in its support 302, the both sides of support 302 are connected with its wheel shaft 303 two ends respectively, they link together through its support 302 and roller 301 by wheel shaft 303, the two ends of wheel shaft 303 are respectively provided with a back-up ring 304 with spacing, and back-up ring 304 is in the pit outside its support 302.Support 302 is arranged in the concave inward structure 5031 bottom lower housing 503, and support 302 is connected with the draw-in groove 5032 bottom lower housing 503 by its buckle structure 3021.Support 302 top is provided with screw pole 3022, and screw pole 3022 is from the bottom up through lower housing 503 bottom opening, and the nut 305 above perforate is connected with screw pole 3022, is connected together by support 302 with lower housing 503.

Two rollers 201 of existing generator set 2 share a wheel shaft, these wheel shaft two ends are connected with two rollers, intermediate portion runs through whole casing, the wheel shaft occupying casing internal can waste larger space, which also limits roller diameter and can not do greatly, and the rolling resistance on minor diameter roller and ground is larger, therefore running resistance during power generator handling is larger, the adaptive capacity of pair of rollers road conditions is poor, and due to wheel base overhead comparatively near, during carrying, the passing capacity of generator set is also poor.And each roller 301 of this patent has oneself independently wheel shaft 303, each wheel shaft 303 two ends are supported by its support 302, without the need to linking together between two wheel shafts 303, therefore casing 5 is inner without wheel shaft, casing internal space can not be wasted, therefore allow the roller that employing diameter is larger, substantially increase the adaptive capacity of the various road conditions of pair of rollers, reduce the running resistance of roller during power generator handling, major diameter roller also improves passing capacity simultaneously.

When needs manually transport generator set 1, the handle 403 of drawing and pulling type pull-rod device 4 can be held and being unlocked by pressing button 404 upwards pull to open pull-rod device 4, pull-rod device 4 after opening as shown in figure 17, then to tilt generator set 1 to the generator set right flank 104 arranging pull-rod device 4, generator set left surface 103 is made to tilt to leave ground, as shown in figure 18, pull-rod device 4 and rotary roller 3 drawing generator group forward can so just be utilized.

Fig. 4 is that force analysis carried by generator set 1, relative to the length (L) of generator set 1, because the width (W) of generator set 1 is less, when tilting to haul generator set 1 to generator set right flank 104, the center of gravity of generator set 1 is in directly over roller 301 center substantially, namely roller 301 center and generator set 1 center of gravity distance B in the horizontal direction very little, when handle 403 and distance A+B mono-timing in the horizontal direction of roller 301 center of pull-rod device 4, due to F=G*B/ (A+B), therefore power F is very little, operation can be very laborsaving, namely in drawing generator group 1 process, operator only need make generator set left surface 103 leave ground with the weight G that very little power F just can overcome generator set 1, can be very light when operator carries generator set 1.Simultaneously, because generator set 1 true dip direction during carrying is consistent with direction of advance, below generator set 1, S region 106 apart from the pin of operator and leg comparatively far, can not bump to operator, therefore operator can drawing generator group forward quickly and safely, substantially increases the portability of generator set.

As shown in Fig. 6 a, Fig. 6 b, Fig. 7 a and Fig. 7 b, drawing and pulling type pull-rod device 4 is primarily of pull bar 401, bar cylinder 402, handle 403, locking device, unlock button 404, guide rod 405 and unlock the formations such as spring 406, this pull-rod device 4 is bitubular pull bar in the present embodiment, there are two bar cylinders 402, namely the bar cylinder 402 having two cover Parallel Symmetrics to arrange and pull bar 401, often cover comprises three joint pull bars and a bar cylinder 402.From first segment pull bar 4011 to Section of three pull bar 4013, pull bar cross section increases gradually, the cross section of bar cylinder 402 is greater than the cross section of Section of three pull bar 4013, drawing and pulling type pull bar 401 and bar cylinder 402 form multistage nested structure by cross section size order, saved in pull bar the length of the regulating tie bar device 4 that stretches at bar cylinder 402 or another by pull bar 401, pull bar 401 is housed inside in bar cylinder 402 after all retracting, and bar cylinder 402 links together with the casing 5 of generator set 1.Certainly as required, the drawing and pulling type pull-rod device 4 of the present embodiment also can be designed to monotubular pull bar (only having a bar cylinder) or three pull bars (having three bar cylinders) etc., and these can as the alternative of this patent.

Structure and working procedure the following detailed description of this drawing and pulling type pull-rod device 4:

As shown in Fig. 6 a, Fig. 6 b, Fig. 7 a and Fig. 7 b, the upper end of first segment pull bar 4011 is provided with handle 403, lower end is provided with locking device 1, locking device 1 is followed first segment pull bar 4011 and is slided up and down in second section pull bar 4012, can be locked together by the upper end of the perforate on second section pull bar 4012 and second section pull bar 4012 or lower end.The lower end of second section pull bar 4012 is provided with locking device 2, locking device 2 is followed second section pull bar 4012 and is slided up and down in Section of three pull bar 4013, can be locked together by the upper end of the perforate on Section of three pull bar 4013 and Section of three pull bar 4013 or lower end.Section three, the lower end of pull bar 4013 is provided with locking device 3, and locking device 3 is followed Section of three pull bar 4013 and slided up and down in bar cylinder 402, can be locked together by the upper end of the perforate on bar cylinder 402 and bar cylinder 402 or lower end.

Locking device is primarily of formations such as lock body, tapered end, locking spring and contacts, tapered end is provided with inclined-plane, and this inclined-plane coordinates with the inclined-plane on contact, when extruding the inclined-plane on tapered end downwards when the inclined-plane on contact, tapered end just horizontally slips in the guide rail of lock body, thus produces locking or unlocking motion.When not extruding the inclined-plane on tapered end when the inclined-plane on contact, tapered end also can produce locking or unlocking motion under the driving of its locking spring.

When all retraction puts in place the pull bar 401 of drawing and pulling type pull-rod device 4, under locking spring 4073 on locking device 1 drives, tapered end 4072 on locking device 1 inserts the perforate of second section pull bar 4012 lower end, thus makes between first segment and second section pull bar locked; Under contact 4084 bottom locking device 1 extrudes, the tapered end 4082 on locking device 2 overcomes the perforate that its locking spring 4083 inserts Section of three pull bar 4013 lower end, thus makes between second section and Section of three pull bar locked; Under contact 4094 bottom locking device 2 extrudes, tapered end 4092 on locking device 3 overcomes the perforate of its locking spring 4093 insertion rod cylinder 402 lower end, thus make Section three to be locked between pull bar 4013 and bar cylinder 402, thus whole pull-rod device 4 is all in " retraction lock state ", as shown in figures 6 a and 6b.

Pull bar 401 to be opened and used from " the retraction lock state " of above-mentioned pull-rod device 4, the unlock button 404 on handle 403 must be pressed, be provided with between the bottom of unlock button 404 and handle 403 and unlock spring 406, the two ends, left and right of unlock button are respectively connected with a guide rod 405, guide rod 405 is in first segment pull bar 4011, length and first segment pull bar 4011 close, the lower end of guide rod 405 is connected with the contact 4074 on locking device 1 top.When overcome unlock spring 406 by unlock button 404 on lower handle 403 time, the upper end of guide rod 405 is unlocked button 404 and presses down simultaneously, the lower end of guide rod 405 is driven to promote the contact 4074 on locking device 1 top, inclined-plane on this contact 4074 starts the tapered end inclined-plane extruded on locking device 1, tapered end 4072 overcomes its locking spring 4073 and returns in locking device 1, is unlocked between first segment and second section pull bar.First segment pull bar 4011 after being unlocked upwards can be extracted out from second section pull bar 4012, until tapered end 4072 inserts in the perforate of second section pull bar 4012 upper end under its locking spring 4073 drives, first segment and second section pull bar enter " opening lock state ".Now, the contact 4084 bottom first segment pull bar 4011 no longer extrudes the tapered end inclined-plane on locking device 2, and under the driving of its locking spring 4083, tapered end 4082 is return in locking device 2, is unlocked between second section and Section of three pull bar.Second section pull bar 4012 after being unlocked upwards can be extracted out from Section of three pull bar 4013, until tapered end 4082 inserts in the perforate of Section of three pull bar 4013 upper end under its locking spring 4083 drives, second section and Section of three pull bar enter " opening lock state ".Now, the contact 4094 bottom second section pull bar 4012 no longer extrudes the tapered end inclined-plane on locking device 3, and under the driving of its locking spring 4093, tapered end 4092 is return in locking device 3, and Section three is unlocked between pull bar 4013 and bar cylinder 402.Section of three pull bar 4013 after being unlocked upwards can be extracted out from bar cylinder 402, until in the perforate of tapered end 4092 insertion rod cylinder 402 upper end under its locking spring 4093 drives, section three, pull bar 4013 enters " opening lock state " with bar cylinder 402, thus whole pull-rod device 4 is all in " opening lock state ", as shown in figs. 7 a and 7b.

Pull bar 401 to be regained from " opening lock state " of above-mentioned pull-rod device 4, also handle 403 is pressed down after must pressing the unlock button 404 on handle 403, under the promotion of guide rod 405 and respective contacts, locking device 1, locking device 2 and locking device 3 unlock corresponding pull bar step by step, continue to press down handle 403 and just can make in the whole retraction bar cylinder 402 of all pull bars 401.

As can be seen from structure and the working procedure of above-mentioned drawing and pulling type pull-rod device 4, compared with traditional rotary type pull bar 202, drawing and pulling type pull-rod device 4 due to the present embodiment have employed the nested shrinking structure of more piece pull bar, it is longer that the length be easy to when pull-rod device 4 being opened is done, namely under the same terms, the handle 403 of drawing and pulling type pull-rod device 4 is larger with roller 301 center distance A+B in the horizontal direction, due to F=G*B/ (A+B), therefore power F reduces further, under the same terms, operation can be more laborsaving.On the other hand, drawing and pulling type pull-rod device 4 can be opened fast and retract, and it is very convenient to operate, and efficiency is very high.And do not take up space after the whole retraction bar cylinder 402 of pull bar 401, make portable power generation unit structure compacter.

Motor 6 top is provided with fuel oil box 8, generator set 1 top is provided with the reservoir port 801 and fuel tank cap 802 that expose, reservoir port 801 and fuel tank cap 802 are arranged on the not homonymy of drawing and pulling type pull-rod device 4, as shown in Fig. 8 to Figure 19, the drawing and pulling type pull-rod device 4 of the present embodiment is arranged on generator set right flank 104, and therefore reservoir port 801 and fuel tank cap 802 are arranged on the left casing 501 of generator set left surface 103.In order to avoid during to reservoir port 801 fuel up, the fuel oil pollution drawing and pulling type pull-rod device 4 of splashing out, the position of reservoir port 801 and fuel tank cap 802 should as far as possible away from the handle 403 of pull-rod device 4, and the reservoir port 801 therefore in the present embodiment and fuel tank cap 802 are arranged on the outermost of left casing 501.As shown in figure 14, the neck of reservoir port 801 is also provided with rubber seal dish 803, rubber seal dish 803 periphery arranges bossed edge, prevent the fuel oil splashing out from flowing in casing 5, the edge arranged outside of rubber seal dish 803 projection has fuel oil to flow out breach, trickles everywhere when preventing the fuel oil entered in rubber seal dish 803 from overflowing unfetteredly.

Motor 6 can utilize hand starter 608 to start, pulling plate outer rim in hand starter 608 is wrapped stay cord 610, stay cord 610 one end is connected with pulling plate, and the other end is connected with starting handle 609, holds starting handle 609 and pulls pulling plate rotation can pilot engine 6.Start the homonymy that handle 609 is arranged on drawing and pulling type pull-rod device 4, as shown in Fig. 8 to Figure 19, the drawing and pulling type pull-rod device 4 of the present embodiment is arranged on generator set right flank 104, therefore start handle 609 and be also arranged on generator set right flank 104, conveniently pull and pilot engine 6, start handle 609 to arrange near the handle 403 of pull-rod device 4, when starting, another hand can buttress handle 403 with stable electric generation unit 1 like this.

Generator set 1 is provided with appliance panel 10, and as shown in Fig. 8, Figure 15, Figure 16 and Figure 19, in the present embodiment, appliance panel 10 is arranged on generator set leading flank 101.Certainly, also appliance panel 10 can be arranged on left surface 103 or the right flank 104 of generator set as required, these can as the alternative of this patent.Appliance panel 10 is primarily of formations such as panel, various accessory power outlet, switch, tutorial light, signal jack and ground terminals.Electrical panel 10 is arranged in electrical appliance kit 506, and the present embodiment electrical appliance kit 506 is connected with the front side of left casing 501 with right casing 502.

The top of generator set 1 is provided with handle 508, and for mentioning generator set 1 when carrying, the root of handle 508 is connected with right casing 502 top with left casing 501.Handle 508 can be made and casing 5 one, also can not be made of one.In order to increase travelling comfort when grasping handle 508, when being made of one, handle 508 surface can cover flexible glue, such as TPE; When not being made of one, soft material manufacture can be used separately, such as rubber or PVC in the handshake part of handle 508.

Start handle 609 homonymy and be provided with chock plate handle 611, as shown in Fig. 9, Figure 13, Figure 15, Figure 16 and Figure 17, the present embodiment starts handle 609 and is arranged on right casing 502, and therefore chock plate handle 611 is also arranged on right casing 502.Chock plate handle 611 is connected with the chock plate on Carburetor by drag-line, pulls chock plate handle 611 can close or open carburetter choke.Pilot engine under a cold state 6 time, generally all need close chock plate, motor 6 start after need to open chock plate in time, therefore chock plate handle 611 with start handle 609 be provided, operation when starting to facilitate motor 6.

Reservoir port 801 and fuel tank cap 802 homonymy are provided with fuel tap knob 901, as shown in Fig. 8, Figure 10, Figure 15 and Figure 18, the present embodiment reservoir port 801 and fuel tank cap 802 are arranged on left casing 501, therefore fuel tap knob 901 is also arranged on left casing 501, to shorten the fuel pipe between fuel tank 8, and be conducive to simplifying assembly technology.Fuel tap knob 901 is connected with fuel tap 9, and the filler opening of fuel tap 9 is connected with fuel tank 8, and oil outlet is connected with engine and carburetor, for cutting off or connect the fuel pipe between fuel tank 8 and Carburetor.

Left casing 501 is provided with and safeguards cover plate 504, as shown in Figure 10, Figure 11, Figure 12, Figure 14 and Figure 19, generating set casing 5 need not be taken apart, open and safeguard that cover plate 504 just can change machine oil, cleaning air filter 607, maintenance Carburetor and spark plug etc. for motor 6.As shown in Figure 11 and Figure 14, specialization is, the neck of reservoir port 801 is clipped in be safeguarded between cover plate 504 and left casing 501, can avoid in order to make reservoir port 801 expose at left casing 501 top drilling like this, because vertical direction perforate can increase the manufacture cost of left casing 501 mould.

As shown in Fig. 8, Figure 10, Figure 12 and Figure 18, suction port 505 is provided with below generator set leading flank 101, suction port 505 is arranged on left casing 501, and ambient air enters generator set 1 thus, for engine operation and generator set heat radiation provide fresh air.

As shown in Figure 12 and Figure 15, inverter 11 is provided with in the casing 5 of generator set 1, it is anterior that inverter 11 is arranged on motor 6, inverter case 12 is provided with between inverter 11 and the suction port 505 of casing 5, radiating fin on inverter 11 and heating component are housed inside in inverter case 12, one end of inverter case 12 is provided with intake grill, this intake grill and suction port 505 are docked and connected, inverter case 12 is respectively provided with an exhaust outlet near one end of air filter of engine 607 and hand starter 608, air from suction port 505 cools inverter 11 for passage with inverter case 12, air enters motor 6 and generator 7 cools it more afterwards, and by air filter 607 for engine combustion acting provides fresh air.

As shown in Figure 11, Figure 13 and Figure 19, forms 507 after generator set trailing flank 102 is provided with, rear forms 507 are connected with the rear side of left casing 501 with right casing 502.Rear forms 507 are discharge windows of motor exhaust and generator set cooling-air.

Bottom generator set lower housing 503, be provided with four shock-absorbing foots 509, during working state, generator set 1 is vertically placed, and now supports generator set with shock-absorbing foot 509.Also be provided with four foots pad 510 in generator set right casing 502 side, utilize foot pad 510 to support generator set when generator set 1 tilts to fall.

In sum, the present embodiment is arranging rotary roller 3 and drawing and pulling type pull-rod device 4 near generator set right flank 104, roller 301 axis of rotary roller 3 is consistent with generator set length (L) direction, and have employed the major diameter roller of compact structure, significantly reduce the burden of carrying generator set, and improve handling efficiency and Security, make generator set obtain splendid portability.On this basis, this patent has carried out a series of optimal design to generating set casing 5, reservoir port 801, starting handle 609, inverter radiating structure, chock plate handle 611 and fuel tap knob 901 etc., improve operation interface, further increase value of the product.

Although the present embodiment arranges rotary roller 3 and drawing and pulling type pull-rod device 4 at generator set right flank 104, but obviously also rotary roller 3 and drawing and pulling type pull-rod device 4 can be set at generator set left surface 103, now reservoir port 801, fuel tank cap 802, fuel tap knob 901, safeguard that cover plate 504 etc. should be arranged on generator set right flank 104, start handle 609, chock plate handle 611 and foot pad 510 etc. and should be arranged on generator set left surface 103, this can as the alternative of this patent.

, embodiment two:

Compared with embodiment one, the essential difference of embodiment two is: instead of drawing and pulling type pull-rod device 4 by rotary type pull-rod device 13, and appliance panel 10 is arranged on the right casing 502 of generator set right flank 104, for the generator set 1 being provided with rotary type pull-rod device 13, this patent requires that the height of this generator set 1 (H) is less than length (L), and being designed with like this to be beneficial to increases its portability.

As shown in Figure 20 to Figure 32, rotary type pull-rod device 13 is connected with casing 5 top of generator set 1 by its rotating shaft 1303, and this rotating shaft 1303 is positioned at the homonymy of rotary roller 3, namely all arranges near generator set right flank 104.Rotary type pull-rod device 13 is primarily of formations such as rotary type pull bar 1301, handle 1302, rotating shaft 1303 and locking devices.Rotary type pull-rod device 13 at least comprises a pull bar 1301 and a rotating shaft 1303, one end of rotary type pull bar 1301 is provided with handle 1302, the other end is connected with right casing 502 top of generator set 1 by rotating shaft 1303, pull bar 1301 and handle 1302 can rotate around rotating shaft 1303, locking device is provided with near rotating shaft 1303, can limit rotation, when pull bar 1301 upwards overturn put in place time, pull bar 1301 can be locked on right casing 502 by locking device, it is made to rotate, to use pull-rod device to carry out generator set haul, pull bar 1301 and the handle 1302 of the present embodiment rotary type pull-rod device 13 expose to casing 5.

As shown in Figure 20 to Figure 32, the generator set leading flank 101 of the present embodiment and trailing flank 102 are respectively provided with a rotary type pull bar 1301, namely rotary type pull-rod device 13 comprises two pull bars be arranged in parallel 1301, each pull bar 1301 has oneself independently rotating shaft 1303, two pull bars 1301 are connected with the two ends of handle 1302 respectively away from one end of its rotating shaft 1303, pull bar 1301 near generator set leading flank 101 is connected with the front side of right casing 502 by its rotating shaft 1303, pull bar 1301 near generator set trailing flank 102 is connected with the rear side of right casing 502 by its rotating shaft 1303.Certainly as required, the rotary type pull-rod device 13 of the present embodiment also can be designed to simplex pull rod and (only have a pull bar and a rotating shaft, be arranged in the middle of casing) or three pull bars (have three pull bars be arranged in parallel and three rotating shafts, one of them pull bar is arranged in the middle of casing) etc., these can as the alternative of this patent.

The rotating shaft 1303 of the rotary type pull-rod device 13 of the present embodiment is positioned at right casing 502 top, and handle 1302 is in bottom left casing 501 when regaining, namely handle 1302 and pull bar 1301 are recovered to generator set left surface 103, handle 1,302 1303 can open pull-rod device from the bottom-up rotation of generator set left surface 103 around the shaft, and pull-rod device is opened back handle 1302 completely and is in above generator set right flank 104.The object of such design is the effective length in order to increase pull bar 1301 as far as possible, to alleviate the burden of carrying generator set.Certainly, in order to simplify pull bar and casing structure, also can be designed to allow handle 1302 and pull bar 1301 be recovered to generator set right flank 104, namely be in bottom right casing 502 when handle 1302 is regained, open pull-rod device during handle 1,302 1303 rotation bottom-up from generator set right flank 104 around the shaft, this can as the alternative of this patent.

The present embodiment is provided with the groove holding pull bar 1301 and handle 1302 on the casing 5 of generator set leading flank 101, trailing flank 102 and left surface 103, when pull bar 1301 and handle 1302 are pivotally lowered into " retracted state ", handle 1302 embeds the bottom groove of left casing 501, the pull bar 1301 of generator set leading flank 101 embeds the front side groove of left casing and right casing, and the pull bar 1301 of generator set trailing flank 102 embeds the rear side notch of left casing and right casing.

When needs manually transport generator set 1, the handle 1302 can holding rotary type pull-rod device 13 upwards overturns to open pull-rod device, rotary type pull-rod device 13 open after as shown in Figure 21 and Figure 30, then to tilt generator set 1 to the generator set right flank 104 arranging pull-rod device rotating shaft 1303, generator set left surface 103 is made to tilt to leave ground, as shown in figure 31, rotary type pull-rod device 13 and rotary roller 3 drawing generator group forward can so just be utilized.

As shown in Figure 23 a, Figure 23 b, Figure 26 a and 26b, the locking device of rotary type pull-rod device 13 is formed primarily of locking column 1304, locking handle 1305, spring 1306, screw 1307 and locking aperture 1308.When pull bar 1301 and handle 1302 upwards turn to " open mode ", locking column 1304 inserts the locking aperture 1308 on right casing 502 under spring 1306 drives, and pull bar 1301 cannot be rotated again, as illustrated in figure 26b.Now can hold handle 1302 to generator set right flank 104(direction of advance) inclination generator set hauls, as shown in figure 31.When needs unlock, only need to pull out locking handle 1305 locking column 1304 is extracted from locking aperture 1308, then pull bar 1301 is rotated, just handle 1302 can be recovered to generator set left surface 103, now pull bar 1301 is in released state, free to rotate, locking device is now as shown in Figure 26 a.

As shown in Figure 22, Figure 24, Figure 28, Figure 30 and Figure 32, the appliance panel 10 of the present embodiment and electrical appliance kit 506 are arranged on right casing 502, and electrical appliance kit 506 is connected with right casing 502.Appliance panel 10 and starting handle 609, chock plate handle 611 are concentrated on the same side of casing 5 by the present embodiment, are conducive to improving operation ease when generator set uses.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. the generator set based on roller and pull bar framework, this generator set (1) is primarily of motor (6), generator (7) and casing (5) composition have length L, the cuboid framework of width W and height H, described motor (6) and generator (7) are contained in casing (5), motor (6) is connected with the casing (5) of (105) bottom generator set, it is characterized in that, the leading flank (101) that width W in described generator set (1) cuboid framework and height H are formed and the casing (5) of trailing flank (102) are respectively provided with a rotary roller (3), the rolling axis of described rotary roller (3) is longitudinally arranged along the length L direction of generator set, pull-rod device is provided with between two rotary roller (3) perpendicular on the direction of its rolling axis, described pull-rod device is arranged on the casing (5) of generator set (1).

2. the generator set based on roller and pull bar framework according to claim 1, it is characterized in that, connect without wheel shaft between two rotary roller (3) on described generator set (1), described rotary roller (3) is primarily of roller (301) and corresponding support (302) composition, described roller (301) is arranged in support (302) by its axis of rotation, described support (302) is arranged in the casing (5) bottom concave inward structure (5031) of generator set (1), and by/the clamping that is connected bottom fastening piece and/or buckle structure (3021) and casing (5).

3. the generator set based on roller and pull bar framework according to claim 1, it is characterized in that, described pull-rod device is drawing and pulling type pull-rod device (4), described drawing and pulling type pull-rod device (4) is vertically arranged along the height H direction of generator set (1), and drawing and pulling type pull-rod device (4) is positioned at the homonymy of rotary roller (3).

4. the generator set based on roller and pull bar framework according to claim 1, it is characterized in that, described pull-rod device is rotary type pull-rod device (13), described rotary type pull-rod device (13) is connected with the casing (5) of generator set (1) rotationally by its rotating shaft (1303), this rotating shaft (1303) is positioned at the homonymy of rotary roller (3), when arranging rotary type pull-rod device (13), the height H of this generator set (1) is less than length L.

5. the generator set based on roller and pull bar framework according to claim 3, it is characterized in that, described drawing and pulling type pull-rod device (4) is primarily of the pull bar (401) of drawing and pulling type, bar cylinder (402), handle (403) and locking device are formed, wherein, drawing and pulling type pull-rod device (4) at least comprises a joint pull bar (401) and a bar cylinder (402), and pull bar (401) and bar cylinder (402) form multistage nested structure, one end of first segment pull bar (4011) is provided with handle (403), the other end saves pull bar flip sleeve by locking device and bar cylinder (402) or another and connects, the overall length of drawing and pulling type pull-rod device (4) is regulated by pull bar distance of stretch out and draw back in bar cylinder (402) or another joint pull bar, described bar cylinder (402) is connected with the casing (5) of generator set (1), described handle (403) exposes to casing (5) in flexible stroke.

6. the generator set based on roller and pull bar framework according to claim 4, it is characterized in that, described rotary type pull-rod device (13) is primarily of pull bar (1301), handle (1302), rotating shaft (1303) and locking device are formed, wherein, rotary type pull-rod device (13) at least comprises a pull bar (1301) and a rotating shaft (1303), one end of rotary type pull bar (1301) is provided with handle (1302), the other end is rotationally connected by the casing (5) of rotating shaft (1303) with generator set (1), rotating shaft (1303) side is provided with locking device, in order to limit rotation, the handle (1302) of rotary type pull-rod device (13) exposes to casing (5) all the time on its movement locus.

7. according to claim 1, the generator set based on roller and pull bar framework described in 3 or 4, it is characterized in that, described generator set (1) is provided with reservoir port (801) and corresponding fuel tank cap (802), described reservoir port (801) and corresponding fuel tank cap (802) are arranged on the different side from pull-rod device, fuel tap knob (901) is also provided with at described reservoir port (801) and corresponding fuel tank cap (802) homonymy, the casing (5) of described generator set (1) is provided with and safeguards cover plate (504), the neck of described reservoir port (801) is clamped in be safeguarded between cover plate (504) and casing (5).

8. the generator set based on roller and pull bar framework according to claim 1,3 or 4, it is characterized in that, described generator set (1) is provided with and starts handle (609), described starting handle (609) is arranged on the ipsilateral of pull-rod device, is also provided with chock plate handle (611) at described starting handle (609) homonymy.

9. the generator set based on roller and pull bar framework according to claim 1 or 3, it is characterized in that, described generator set (1) is provided with appliance panel (10), described appliance panel (10) be arranged on formed by generator set width W and height H leading flank (101), trailing flank (102) and with drawing and pulling type pull-rod device (4) in the wherein one side of the left surface (103) of ipsilateral or right flank (104).

10. the generator set based on roller and pull bar framework according to claim 1 or 4, it is characterized in that, described generator set (1) is provided with appliance panel (10), described appliance panel (10) be arranged on formed by generator set width W and height H leading flank (101), trailing flank (102) and the left surface (103) formed by generator set height H and length L, right flank (104) wherein one side on.