CN104708312A - Wheel rim braiding machine - Google Patents

Abstract

The invention discloses a wheel rim braiding machine which comprises a wheel frame driving device, a wheel hub containing device, a screw joint device and multiple manual operation portions. The multiple manual operation portions are used for adjusting the positions of the wheel frame driving device, the wheel hub containing device and the screw joint device to make the wheel frame driving device, the wheel hub containing device and the screw joint device suitable for the wheel diameter of a wheel frame, and the multiple manual operation portions are all arranged within the range with the arc length smaller than 90 degrees from a screw driver of the screw joint device, so that the adjustment of the devices is convenient for an operator who sits in front of the wheel hub containing device.

Description

Wheel rim braider

Technical field

The present invention is relevant with for many spokes being assembled a wheel rim braider of taking turns on frame, espespecially a kind of wheel rim braider conveniently manually adjusted.

Background technology

Wheel rim braider is used to assistance one staff and performs a wheel rim dress group job, and this operation refers to that the many spokes (or claiming steel wire) on a wheel hub are assembled into one takes turns on frame, so as to forming a wheel rim (Wheel).Existing wheel rim braider, " in order to spoke to be arranged on the device between wheel hub and the wheel rim having spoke " of such as No. 213882nd, TaiWan, China, or " the wheel rim braider " of No. 201204573rd, TaiWan, China, it mainly comprises one takes turns frame driving mechanism, takes turns frame guide mechanism for one of propelling sheave frame for driving this to take turns frame in what rotate, for settling a wheel hub of this wheel hub to put mechanism, for carrying a copperhead conveying mechanism of copperhead and being spirally connected mechanism for performing one of the operation that is spirally connected.This operation that is spirally connected refers to that the copperhead sent here by this copperhead conveying mechanism is bolted in a wherein spoke.

In order to assemble the wheel rim in different wheel footpath, above-mentioned wheel rim braider possesses that some guiding mechanisms above-mentionedly take turns frame driving mechanism to adjust, wheel frame guide mechanism, wheel hub are put mechanism and be spirally connected mechanism usually, they can be worked in coordination with perform the wheel rim assembling operation in various difference wheel footpath.Existing wheel rim braider based on automation demand and use the automatic control system be made up of a computer apparatus, multiple servo motor, multiple detector or measurer and other related elements, therefore above-mentioned staff does not need to carry out aforesaid adjustment in a manual manner.But, just owing to have employed aforementioned automatic control system, the price of whole chaptrel circle braider is being remained high, is being difficult to the low equipment cost demand meeting some market.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of wheel rim braider, it takes turns frame for many spokes on a wheel hub are bolted in one, and it is except meeting low equipment cost demand, also some special mechanisms configurations are done for the convenience manually adjusted.

In more detail, wheel rim braider of the present invention takes turns frame for many spokes on a wheel hub are bolted in one, described frame of taking turns has the annular through hole in multiple interval, and this wheel rim braider comprises: for carrying a copperhead conveying device of the threaded copperhead of multiple tool, a wheel hub placing device system comprises and support that a supporting seat, of this wheel hub is taken turns frame driver system and comprised multiple roller and a drive unit and and to be spirally connected device rotationally.This roller multiple is along a circle distribution around this supporting seat, and for from axis and radial support, this takes turns frame, this drive unit is used for driving wherein at least one roller, drives this to take turns frame rotate around this wheel hub to make this at least one roller.This device that is spirally connected comprises the copperhead receiver for receiving this copperhead sent here from this copperhead conveying device, and can be rotated by driving and radially move to a screwdriver of an operating position from an original position, and when this screwdriver arrives this operating position, this copperhead in this copperhead receiver has been taken turns through hole corresponding on frame by this and screwed togather corresponding spoke under the rotation of this screwdriver under the propelling movement of this screwdriver.

The principal character of wheel rim braider of the present invention is, this is taken turns frame driver and also comprises a scroll wheel positions guiding mechanism, and this device that is spirally connected also comprises an operating position guiding mechanism; This scroll wheel positions guiding mechanism is used for manually those rollers of adjustment, and to subsides, this takes turns the position of frame, and has the first-hand operating portion allowing a staff carry out adjustment operation; This operating position guiding mechanism is used for this operating position of manually this screwdriver of adjustment, and has the second-hand's operating portion allowing this staff carry out adjustment operation; Wherein, two these hand operated portions are all configured in apart from this screwdriver, and arc length is less than in the scope of 90 degree.

Preferably, the above-mentioned device that is spirally connected of the present invention also comprises an initial position adjusting mechanism of this original position for manually adjusting this screwdriver, this original position guiding mechanism has the 3rd hand operated portion allowing this staff carry out adjustment operation, and the hand operated portion of this original position guiding mechanism is configured in apart from this screwdriver, arc length is less than in the scope of 90 degree.

Preferably, above-mentioned wheel hub placing device of the present invention also comprises the supporting seat position adjusting mechanism of the position for manually adjusting this supporting seat, the first-hand operating portion of this scroll wheel positions guiding mechanism comprises one first operating portion, this first operating portion is used for the position manually adjusting this roller at least one driven by this drive unit, this supporting seat position adjusting mechanism and this scroll wheel positions guiding mechanism are integrated and are shared this first operating portion, make just synchronously to be driven this supporting seat and this its position of roller running transform at least one when this first operating portion rotates.

Preferably, the first-hand operating portion of above-mentioned rollers position adjusting mechanism of the present invention comprises one first operating portion, and this first operating portion is used for the position manually adjusting this roller at least one driven by this drive unit.

More preferably, the first-hand operating portion of this scroll wheel positions guiding mechanism more comprises one second operating portion, and this second operating portion is used for the position of manually other roller of adjustment.

Wheel rim braider of the present invention, because having above-mentioned manual Regulation mechanism, therefore have the advantage of low equipment cost, moreover, more because of the hand operated portion in its manual Regulation mechanism be concentrate on facilitate operated by personnel region (namely apart from this screwdriver, arc length is less than in the scope of 90 degree), therefore have the advantage of convenient adjustment.

As for other summary of the invention of the present invention and more detailed technology and function declaration, explanation subsequently will be exposed in.

Accompanying drawing explanation

Fig. 1 is the stereo appearance figure of a preferred embodiment of the present invention.

Fig. 2 is the floor map (overlooking) of this preferred embodiment.

Fig. 3-Fig. 4 shows the stereo appearance figure of the scroll wheel positions guiding mechanism of this preferred embodiment.

Fig. 5 shows the top partial view diagram of this scroll wheel positions guiding mechanism.

Fig. 6 shows the stereo appearance figure of the device 4 that is spirally connected of this preferred embodiment.

Fig. 7 shows the top partial view diagram of this device 4 that is spirally connected.

The screwdriver 440 that Fig. 8 shows this device 4 that is spirally connected is positioned at the state of an original position.

The screwdriver 440 that Fig. 9 shows this device 4 that is spirally connected is positioned at the state of a bonding station.

The screwdriver 440 that Figure 10 shows this device 4 that is spirally connected is positioned at the state of an operating position.

Drawing reference numeral illustrates:

100 boards

1 takes turns frame driver 10 driving rolls

11 drive unit 110 motors

111 driving sections

20a, 20b side pressure roller 21 support roller

22 down-pressure roller

3 wheel hub placing device 30 supporting seats

300 manual adjust structure 301,302 fast disassembling handlebars

4 are spirally connected device 4a original position guiding mechanism

4b operating position guiding mechanism

40 slide rail 41 slides

400 table top 401,402 screw rods

403,405 hand operated portion 406 elasticity detecting rods

42 first telescoping cylinder 420 cylinder bodies

421 expansion links

43 second telescoping cylinder 430 cylinder bodies

431 expansion links

44 electronic instrument 440 screwdrivers that are spirally connected

45 swing arm 450 pivots

46a, 46b spiral shell seat

47 stopper 48 universal joints

50 handwheel 501 first operating portions

51 extension rod 52 driving screws

52a pitch 52b pitch

53 slide 54 slides

55 traverse rods

6 manual adjustment part 601 second operating portions

61 driving screw 62,63 rotation seats

620,630 rotating shafts

7 wheel hub 71 spokes

71a external screw thread

8 copperhead receiver 80 copperheads

81 outlet ports

9 take turns frame

Detailed description of the invention

In order to there be understanding clearly to technical characteristic of the present invention, object and effect, now contrast accompanying drawing and the specific embodiment of the present invention is described.

Fig. 1, Fig. 2 show a preferred embodiment of wheel rim braider of the present invention, it comprise be located on a board 100 with lower device: for carrying a copperhead conveying device (not shown) of the female copperhead of multiple tool, for supporting a wheel hub placing device 3 of a wheel hub 7, taking turns frame driver 1 and to be spirally connected device 4 for supporting and driving one to take turns one of frame 9.This wheel hub 7 has many latter ends have in spoke 71(Fig. 2 of external screw thread 71a and only shows a spoke representatively), this is taken turns frame 9 and has the annular through hole (not shown) in multiple interval.This device 4 that is spirally connected can receive these copperheads multiple sent here from this copperhead conveying device, and make they to take turns on frame 9 corresponding through hole by this one to one after be screwed together in corresponding spoke 71 latter end.Wherein, copperhead is in fact the female screw of a kind of tool, the person that is also referred to as swivel nut.

Wheel hub placing device 3 comprises the supporting seat 30 supporting this wheel hub 7 rotationally.Whole wheel hub placing device 3 can adjust its position by a manual adjust structure 300, in this example, only need unclamp two fast disassembling handlebars 301,302 in figure, can adjust.

Wheel frame driver 1 comprises multiple roller (see label 10,20a, 20b, 21 and 22) and a drive unit 11, this roller multiple along a circle distribution around this supporting seat 30, frame 9 is taken turns for always supporting this from axis and footpath, this drive unit 11, for driving wherein at least one roller (see label 10), drives this to take turns frame 9 to make this at least one roller and rotates around this wheel hub 7.In this embodiment, this roller multiple at least comprise simultaneously always support these two driving rolls 10 of taking turns frame 9 from axis and footpath, from footpath always support wheel frame 9 another side both sides pressing roller 20a and 20b, take turns support roller 21 and a down-pressure roller 22 of frame 9 from axial support.In fact, two driving rolls 10 are with both sides pressing roller 20a and 20b respectively to being affixed on the outer peripheral edge of taking turns frame 9, and support roller 21 and down-pressure roller 22 are respectively to being affixed on two outer ring surfaces of taking turns frame 9.Drive unit 11 has a motor 110 and a driving section 111(only shows its shell, inner containing a belt transmission structure and other element relevant to transmission), motor 110 can select a servo motor, and by this driving section 111 transmission and synchronously drive two driving rolls 10 to rotate, its rotation direction is as shown in Figure 2.

The device 4 that is spirally connected comprises the copperhead receiver 8 for receiving this copperhead sent here from this copperhead conveying device, and can be rotated by driving and radially move to a screwdriver 440 of an operating position from an original position, and when screwdriver 440 arrives this operating position, the copperhead in this copperhead receiver 8 under the propelling movement of screwdriver 440 by corresponding through hole and screw togather corresponding spoke under the rotation of screwdriver 440 on wheel frame 9.

The optional counter structure with above-mentioned TaiWan, China No. 201204573 Patent Case of structure of above-mentioned each device, its detailed technology content and running refer to this Patent Case, hold and do not repeat.

In the present invention, in order to reduce servo motor quantity and reduce automatically controlled design complexities, to reduce manufacturing cost, operating position guiding mechanism and the original position guiding mechanism of wheel the scroll wheel positions guiding mechanism of frame driver 1, the supporting seat position adjusting mechanism of wheel hub placing device 3 and the device 4 that is spirally connected all take manual mode, and the device 4 that is spirally connected takes telescoping cylinder type of drive to drive the movement of screwdriver 440, is described below.

The scroll wheel positions guiding mechanism of wheel frame driver 1 is for manually adjusting each roller above-mentioned to pasting the position that this takes turns frame 9, and there is the hand operated portion (first-hand operating portion) allowing a user carry out adjustment operation, this hand operated portion comprises one first operating portion 501 and one second operating portion 601.Refer to shown in Fig. 1, Fig. 3, scroll wheel positions guiding mechanism comprises a driving screw 52, is parallel to two traverse rods 55 of driving screw 52, be slidingly placed in two traverse rods 55 and be screwed together in slide 54 and an extension rod 51 of driving screw 52.One end of extension rod 51 is engaged in another bevel gear on driving screw 52 by a bevel gear, the other end then forms this first operating portion 501.By previous constructions, as long as staff rotates the first operating portion 501(and such as a handwheel 50 is sticked in the first operating portion 501 and rotates this handwheel 50), driving screw 52 just can be driven to rotate, and therefore drive slide 54 along x-axis running transform position, reach the position adjusting two driving rolls 10 in a manual manner, make it adapt to the object of the wheel frame 9 in different wheel footpath.

Referring again to Fig. 1, Fig. 4 and Fig. 5, above-mentioned scroll wheel positions guiding mechanism also comprises a driving screw 61 and is screwed together in two rotation seats 62,63 of this driving screw 61.Two rotation seats 62,63 respectively have a rotating shaft 620,630, rotate this driving screw 61 just can synchronously drive rotation seat 62,63 respectively with its rotating shaft 620,630 for ground, axle center outwards or inwardly swings, make the side pressure roller 20a on rotation seat 62, support roller 21 and down-pressure roller 22, and the opposite side pressing roller 20b on rotation seat 63, running transform position together, so that the wheel frame 9 adapting to different wheel footpath.Aforesaid configuration can select the structure shown in No. 201204573rd, TaiWan, China the ten four to ten seven figure, and its detailed configuration holds with running and do not repeat.Wherein, conveniently staff adjusts the position of aforementioned roller, scroll wheel positions guiding mechanism also comprises a manual adjustment part 6, this manual adjustment part 6 has the second above-mentioned operating portion 601, second operating portion 601 is engaged in one end of driving screw 61 by the drive mechanism being positioned at this manual adjustment part 6, make (such as above-mentioned handwheel 50 be sticked in the second operating portion 601 when rotation the second operating portion 601 and rotate it), driving screw 61 just and then rotates, and therefore drives aforementioned roller running transform position.

Referring again to Fig. 1, Fig. 3, the supporting seat position adjusting mechanism of this wheel hub placing device 3 is used for the position of manually this supporting seat 30 of adjustment.In this embodiment, this supporting seat position adjusting mechanism comprises cunning and is placed in two traverse rods 55 and the slide 53 being screwed together in driving screw 52, and this supporting seat 30 is arranged on slide 53.This represents, this supporting seat position adjusting mechanism and this scroll wheel positions guiding mechanism are integrated and shared this first operating portion 501, makes when this first operating portion 501 is driven supporting seat 30 and two its positions of driving rolls 10 running transform by just synchronous during rotation.Wherein, slide 53,54 is the long pitch section and the short pitch section (its pitch 52b is 1/2nd of this long pitch section pitch 52a) that are screwed together in driving screw 52 respectively.So, as long as rotate driving screw 52, supporting seat 30 and two driving rolls 10 will be borrowed its slide 53,54 separately and move along x-axis, and the displacement of two driving rolls 10 is 2 times of supporting seat 30.

Refer to shown in Fig. 1, Fig. 6 and Fig. 7, the device 4 that is spirally connected comprises the slide rail 40 be installed on a table top 400 of this board 100, the sliding slide 41 be placed on slide rail 40, comprises above-mentioned screwdriver 440 and be mounted in the electronic initial position adjusting mechanism 4a of instrument 44, an operating position guiding mechanism 4b, one first telescoping cylinder 42,1 second telescoping cylinder 43, swing arm 45 and the pivot 450 for swing arm 45 being hubbed on this table top 400 of being spirally connected on slide 41.

Original position guiding mechanism 4a comprises the spiral shell seat 46a that is fixed on this table top 400 and passes and be screwed together in the screw rod 401 of this spiral shell seat 46a.One end of screw rod 401 has hand operated portion 403(the 3rd hand operated portion allowing staff carry out adjustment operation).Operating position guiding mechanism 4b comprises another spiral shell seat 46b of being fixed on this table top 400 and passes and be screwed together in the screw rod 402 of this spiral shell seat 46b.One end of screw rod 402 has the hand operated portion 405(second-hand operating portion allowing staff carry out adjustment operation), the other end is then in the face of a stopper 47 of this slide 41.In this embodiment, both spiral shell seat 46a and 46b are one of the forming.

Telescoping cylinder 42 and 43 is better selects cylinder for first and second.The cylinder body 420 of one end pivot joint first telescoping cylinder 42 of swing arm 45, the expansion link 431 of the other end then pivot joint second telescoping cylinder 43.The expansion link 421 of the first telescoping cylinder 42 is articulated in the bottom of slide 41.The cylinder body 430 of the second telescoping cylinder 43 is articulated in the other end of screw rod 401 by a universal joint 48.In this embodiment, the distance between the expansion link 431 of pivot 450 and the second telescoping cylinder 43 is less than the distance between the cylinder body 420 of pivot 450 and the first telescoping cylinder 42.

When by hand operated portion 403 rotating screw bolt 401, screw rod 401 can move relative to spiral shell seat 46a, before the second telescoping cylinder 43 be articulated with screw rod 401 is done, rear running transform position (direction of stretching out defining expansion link 431 is in the figure 7 front), now, by the transmission of swing arm 45, after first telescoping cylinder 42 will be followed, front movement is shifted one's position, and after thus interlock slide 41 makes it and then, front movement is shifted one's position, make the screwdriver 440 of the electronic instrument 44 that is spirally connected on located slide 41 can convert its original position, to adapt to the wheel frame 9 in different wheel footpath.

When through hand operated portion 405 rotating screw bolt 402, screw rod 402 can move relative to spiral shell seat 46b, make the distance between the stopper 47 of the other end of screw rod 402 and slide 41 elongated or shorten, this represents that the displacement of slide 41 is therefore elongated or shorten, make the screwdriver 440 of the electronic instrument 44 that is spirally connected on located slide 41 can convert its operating position, so that the wheel frame 9(adapting to different wide cut W refers to Figure 10).

Utilize above-mentioned hand operated portion above-mentioned each device adjusted to applicable a certain take turns the wheel frame 9 in footpath after, just one can take turns frame 9 and launch to be spirally connected operation this.That is, first drive the first telescoping cylinder 42 to drive the second telescoping cylinder 43 again, arrive above-mentioned operating position to make the screwdriver 440 of the electronic instrument 4 that is spirally connected.In more detail, make its expansion link 421 to time overhanging when driving first telescoping cylinder 42, slide 41 will be followed and move toward wheel hub placing device 3 direction, the screwdriver 440 of the electronic instrument 44 that is spirally connected is made to move to a bonding station from an original position, during this period, screwdriver 440 is driven in rotation.Then, make its expansion link 431 to time overhanging when continuation driving second telescoping cylinder 43, swing arm 45 will be driven to swing, and therefore interlock first telescoping cylinder 42 moves toward wheel hub placing device 3 direction, now, the slide 41 being connected to the expansion link 421 of the first telescoping cylinder 42 will be followed toward the continuation of wheel hub placing device 3 direction mobile, the screwdriver 440 of the electronic instrument 44 that is spirally connected be located on it is made to move to above-mentioned operating position from this bonding station, during this period, screwdriver 440 is still and is driven in rotation.As shown in Figure 8, when screwdriver 440 is positioned at this original position, the screwdriver 440 being positioned at copperhead receiver 8 not yet contacts with copperhead 80, and copperhead 80 is delivered to the position shown in figure by this copperhead conveying device with blowing method.As shown in Figure 9, when screwdriver 440 moves to this bonding station, screwdriver 440 can contact with copperhead 80 and embed the groove on copperhead 80, and copperhead 80 can be stretched in one end of the elasticity of screwdriver 440 inside detecting rod 406.As shown in Figure 10, when screwdriver 440 moves to above-mentioned operating position, screwdriver 440 can push the perforation (copperhead receiver 8 now can and then move and leave the outlet port 81 of this copperhead conveying device) of copperhead 80 by wheel frame 9 correspondence, and rotate copperhead 80 and make it be screwed together in the external screw thread 71a of spoke 71, now, elasticity detecting rod 406 can arrive to the end of spoke 71, and moves backward along with screwing togather the degree of depth.When a detector (not shown) detects elasticity detecting rod 406 back to a precalculated position, represent that copperhead 80 and spoke 71 have screwed togather, now, namely this detector notifies that the electronic instrument 44 that is spirally connected suspends the rotation of screwdriver 440, and notify first, two telescoping cylinders 42 and 43 are reverse drive simultaneously, to make its expansion link 421, 431 synchronously retract original position, original position is retracted so as to driving slide 41, the screwdriver 440 of the electronic instrument 44 that is spirally connected is made to return this original position from this operating position, so, namely the operation that is once spirally connected is completed, then, carry out the operation that is spirally connected repeatedly again, one by one all spokes 71 to be all screwed to wheel frame 9.

In order to make screwdriver 440 can enter wheel frame 9 lentamente, this stopper 47 can select elastic buffer or buffer oil hydraulic cylinder, to provide a decelerating effect.

Refer to Fig. 1, Fig. 2, for manually adjusting the hand operated portion (i.e. first and second operating portion 501,601) of above-mentioned rollers position and supporting seat 30 position, for the hand operated portion 403 and 405 of this original position and this operating position of manually adjusting this screwdriver 440, all be configured in distance screwdriver 440, arc length is less than in the scope of 90 degree, namely extends in the angular range between the straight line A at supporting seat 30 center and vertical line B thereof along screwdriver 440.So, staff just can use aforesaid hand operated portion to adjust the position of above-mentioned each roller and screwdriver 440 easily, to adapt to the wheel rim 9 in different wheel footpath.

In sum, wheel rim braider of the present invention, because having above-mentioned manual Regulation mechanism, therefore has the advantage of low equipment cost, moreover, more because the hand operated portion in its manual Regulation mechanism concentrates on the region facilitating operated by personnel, therefore there is the advantage of convenient adjustment.

The foregoing is only the schematic detailed description of the invention of the present invention, and be not used to limit scope of the present invention.Any those skilled in the art, the equivalent variations done under the prerequisite not departing from design of the present invention and principle and amendment, all should belong to the scope of protection of the invention.And it should be noted that, each part of the present invention is not limited in above-mentioned overall applicability, the each technical characteristic described in description of the present invention can select one to adopt separately or select the multinomial use that combines according to actual needs, therefore, the present invention naturally covers other relevant with this case innovative point and combines and embody rule.

Claims (6)

1. a wheel rim braider, takes turns frame for many spokes on a wheel hub are bolted in one, and described frame of taking turns has the annular through hole in multiple interval, and described wheel rim braider comprises:

One copperhead conveying device, for carrying the threaded copperhead of multiple tool;

One wheel hub placing device, comprises the supporting seat supporting described wheel hub rotationally;

One takes turns frame driver, comprise multiple roller and a drive unit, multiple described roller along a circle distribution around described supporting seat, for taking turns frame described in axis and radial support, described drive unit is used for driving wherein at least one roller, drives described frame of taking turns to rotate around described wheel hub to make described at least one roller; And

One is spirally connected device, comprise the copperhead receiver for receiving the described copperhead sent here from described copperhead conveying device, and can be rotated by driving and radially move to a screwdriver of an operating position from an original position, and when described screwdriver arrives described operating position, the described copperhead in described copperhead receiver is taken turns through hole corresponding on frame by described and screwed togather corresponding spoke under the rotation of described screwdriver under the propelling movement of described screwdriver;

It is characterized in that, described frame driver of taking turns also comprises a scroll wheel positions guiding mechanism, described in the device that is spirally connected also comprise an operating position guiding mechanism; Described scroll wheel positions guiding mechanism is used for the manually multiple described roller of adjustment and supports the described position of taking turns frame of subsides, and has the first-hand operating portion that can carry out manual setting operation; Described operating position guiding mechanism is used for the described operating position of the manually described screwdriver of adjustment, and has second-hand's operating portion that can carry out manual setting operation; Wherein, described two hand operated portions are all configured in apart from described screwdriver, and arc length is less than in the scope of 90 degree.

2. wheel rim braider as claimed in claim 1, it is characterized in that, the described device that is spirally connected also comprises an initial position adjusting mechanism of the described original position for manually adjusting described screwdriver, described original position guiding mechanism has the 3rd hand operated portion that can carry out manual setting operation, and the 3rd hand operated portion of described original position guiding mechanism is configured in apart from described screwdriver, arc length is less than in the scope of 90 degree.

3. wheel rim braider as claimed in claim 1 or 2, it is characterized in that, the first-hand operating portion of described scroll wheel positions guiding mechanism comprises one first operating portion, and described first operating portion is used for the position manually adjusting at least one described roller driven by described drive unit.

4. wheel rim braider as claimed in claim 3, it is characterized in that, the first-hand operating portion of described scroll wheel positions guiding mechanism also comprises one second operating portion, and described second operating portion is used for the position of manually other roller of adjustment.

5. wheel rim braider as claimed in claim 1 or 2, it is characterized in that, described wheel hub placing device also comprises the supporting seat position adjusting mechanism of the position for manually adjusting described supporting seat, the first-hand operating portion of described scroll wheel positions guiding mechanism comprises one first operating portion, described first operating portion is used for the position manually adjusting at least one described roller driven by described drive unit, described supporting seat position adjusting mechanism and described scroll wheel positions guiding mechanism are integrated and are shared described first operating portion, make just synchronously to be driven described supporting seat and at least one described its position of roller running transform when described first operating portion rotates.

6. wheel rim braider as claimed in claim 3, it is characterized in that, the first-hand operating portion of described scroll wheel positions guiding mechanism also comprises one second operating portion, and described second operating portion is used for the position of manually other roller of adjustment.