CN201700110U - Assembly tool - Google Patents

Abstract

Disclosed is an assembly tool for assembling an electronic component with a frame piece, which comprises a work platform, a spanning mechanism and a shifting mechanism. The spanning mechanism is disposed at a second zone of the work platform for spanning the electronic component thereon. The shifting mechanism can be movably disposed on the work platform, and carries the frame piece to slide to the electronic component, to cause the electronic component to be combined into the frame piece smoothly. The time of assembly operation is therefore greatly shortened, and the electronic component is assembled in the frame piece accurately to avoid the problem of stress produced by the electronic component.

Description

Assembling tool

Technical field

The utility model relates to a kind of assembling tool, and particularly a kind of electronic building brick that will have a plurality of electronics spare parts accurately assembly is fixed in assembling tool in the outer framework.

Background technology

(Printed circuit board assembly is that a plurality of electronics spare parts are configured on the circuit board PCBA) to the finished product circuit board, is installed in the computer housing again.Yet along with the volume miniaturization of computer housing, the space of the inner mounting finished product circuit board of its casing is got over narrow and small.When the finished product circuit board group is loaded on casing when inner, the fine pitch just like 8 millimeters only between its finished product circuit board and the casing can slip in casing inside for the finished product circuit board.Because the back side of finished product circuit board disposes many miniature electric spare parts, and the screw hole position that many projections are arranged on casing.So, when the finished product circuit board group is gone into casing, easily because the finished product circuit board is crooked because of what produced in the installing process, and cause the electronics spare part on the finished product circuit board to collide the screw hole position of the projection of casing accidentally, and cause the electronics spare part to sustain damage even damage.

So, a kind of artificial assembling mode is just arranged, the finished product circuit board is organized casing inside smoothly.Mainly the finished product circuit board is placed on the special acrylic board, the width of this acrylic board is identical with the finished product circuit board.Then,, the finished product circuit board of acrylic board and top thereof is put into casing inside, and take advantage of a situation the finished product circuit board is pushed in the inner location that arrives of casing again with hand-held.Then, fix the finished product circuit board in casing on the other hand again, another hand then detaches acrylic board in casing.At last, finely tune the screw hole position on finished product circuit board and the casing again, lock screw again, circuit board is fixed on casing inside.

Yet this kind work pattern still must be assemblied in casing inside with the finished product circuit board with manual type, and it uses the plant of acrylic board and detach strength and is finished according to the experience of operator.But it is accurate that the design of electronics spare part at present gets over, an electronic component damage that very likely causes accidentally on the finished product circuit board slightly, and this type of is lost and can't learn within the short time, can find after need waiting until certain service time, so, with the effective keyholed back plate of the quality that causes the finished product circuit board, the useful life that also can reduce the finished product circuit board.And above-mentioned with one hand fixedly finished product circuit board and another hand detach the mode of acrylic board, be to violate the assembling principle that the both hands of finished product circuit board are held plate, when assembling, the electronics spare part is produced stress influence easily.

The utility model content

Because in the prior art, with manual mode mounting finished product circuit board to casing inside, and have can't precisely locate, the application of force is improper and cause problem such as electronics spare part injury.Therefore, in view of above problem, the purpose of this utility model is, a kind of assembling tool is provided.So as to solving in the prior art, when packing the finished product circuit board into casing, cause the electronics spare part on the finished product circuit board to collide casing easily, and cause the electronics spare part to be subjected to problems such as stress influence with hand-held acrylic board.

According to the disclosed assembling tool of the utility model, in order to an electronic building brick and an outer framework are assembled mutually, this assembling tool includes:

One job platform has one first adjacent district and one second district;

Consolidate mechanism for one, be fixedly arranged on this second district of this job platform, this solid mechanism sets up thereon for this electronic building brick; And

One transfer mechanism, have a slide rail and one year seat, this slide rail is arranged on this job platform, this year, seat was installed on this slide rail with the relation of slip, and this year of seat this slide rail slippage between this first district and this second district relatively, this year seat in this first district mounting should outside framework, this outer framework by this year seat be moved to this second district with respect to this slide rail slippage, make this electronic building brick group go in this outer framework.

Above-mentioned assembling tool, wherein, this transfer mechanism also has a jacking assembly, this jacking assembly also comprises at least one part of rising, this is risen part and has a load plane and and rise cambered surface, and this is risen part and is hubbed on this year of the seat, and this rise part with respect to this year seat pivot and to have a carrying position and and rise the position, this is risen part and carries the position in this, should be carried on this load plane by outer framework, this is risen part and is positioned at this and rises the position, and this outer framework is subjected to this to rise replacing of cambered surface and towards this electronic building brick direction displacement.

Above-mentioned assembling tool, wherein, this jacking assembly also comprises at least one driving lever, is connected in an axostylus axostyle, this driving lever is risen part with respect to this year of seat pivot in order to drive this.

Above-mentioned assembling tool, wherein, this solid mechanism also comprises:

Two side walls are erected at the relative dual side-edge in this second district;

Two adjust assembly, are installed in respectively on this two side wall; And

Two carriages are connected to this adjustment assembly, and this two carriage is oppositely arranged, and the dual side-edge of this electronic building brick bears respectively on this two carriage.

Above-mentioned assembling tool, wherein, this two carriage has a stopper slot respectively, is fixedly arranged on respectively in this two stopper slot for this dual side-edge of this electronic building brick.

Above-mentioned assembling tool, wherein, one of them of this two side wall has at least one fool proof groove, this jacking assembly is provided with at least one fool proof part corresponding to this fool proof groove, this fool proof part is connected in this and rises on the part, and this is risen part and carries the position in this, and this fool proof part is by this fool proof groove, this is risen part and is positioned at this and rises the position, and this fool proof part and this fool proof groove are interfered mutually.

Above-mentioned assembling tool, wherein, this two side wall offers at least one first location hole respectively, and respectively this adjustment assembly also comprises:

One adjusting lever, an end of this adjusting lever is locked in this carriage, and the other end of this adjusting lever is arranged in this first location hole;

One spiral cover is connected in an end of this adjusting lever; And

One elastic component is set in this adjusting lever, and two ends of this elastic component normality respectively push against this spiral cover and this side wall.

Above-mentioned assembling tool, wherein, this two side wall offers at least one second location hole respectively, and respectively this adjustment assembly also comprises at least one auxiliary rod, one end of this auxiliary rod is fixed on this carriage, the other end of this auxiliary rod is arranged in this second location hole, remains in a horizontal level in order to limit this carriage.

Above-mentioned assembling tool, wherein, this year, seat had a location protuberance with respect to a side of this job platform, this job platform also comprises two guide vane end stops, be configured in this first district and this second district respectively, and this two guide vane end stop has a location draw-in groove respectively, and what this year, seat was selected fixes this locating groove therein with this positioning convex portion, remains in this first district or this second district to limit this year seat.

Above-mentioned assembling tool, wherein, this positioning convex portion is a flexure strip.

Effect of the present utility model is with the solid mechanism of frame the electronic building brick frame is high and suspend, and outer framework is placed on movable carrying on the seat, make to carry seat along horizontal direction towards the electronic building brick slippage, the group that electronic building brick can be taken advantage of a situation is gone in the outer framework, can effectively solve prior art when assembling with this, the electronics spare part on the electronic building brick be produced the problem of stress.And after carrying seat and putting in place, can be accurately with the screw hole bit alignment of outer framework in the screw hole position of electronic building brick, with this screw is locked fast in the corresponding screw hole position of outer framework and electronic building brick.With this structural design, can reduce the man-hour and the risk of assembling, and effectively eliminate the stress that when assembling, is produced, and then improve the product yield.

Below in conjunction with the drawings and specific embodiments the utility model is described in detail, but not as to qualification of the present utility model.

Description of drawings

Fig. 1 is the schematic appearance according to assembling tool of the present utility model;

Fig. 2 is the schematic appearance according to assembling tool of the present utility model framework outside setting up electronic building brick and mounting;

Fig. 3 is for pushing outer framework to according to assembling tool of the present utility model the schematic appearance of electronic building brick;

Fig. 4 is for going into the electronic building brick group according to assembling tool of the present utility model the schematic appearance of outer framework;

Fig. 5 A is for being positioned at the generalized section of carrying the position according to the part of rising of the present utility model;

Fig. 5 B is for being positioned at the local enlarged diagram that carries the position according to the part of rising of the present utility model;

Fig. 6 A is for to be positioned at the generalized section of rising the position according to the part of rising of the present utility model;

Fig. 6 B is for to be positioned at the local enlarged diagram of rising the position according to the part of rising of the present utility model;

Fig. 7 is according to of the present utility model year seat and rises the error-proof structure schematic diagram of mechanism; And

Fig. 8 is according to job platform of the present utility model and the position limiting structure schematic diagram that carries seat.

Wherein, Reference numeral

10 job platforms

11 first districts

12 second districts

13 first guide vane end stops

131 first locating grooves

14 second guide vane end stops

141 second locating grooves

20 solid mechanisms

21,21 ' side wall

211,211 ' the first location holes

212,212 ' the second location holes

213 run through groove

214 fool proof grooves

22,22 ' adjustment assembly

221,221 ' adjusting lever

222,222 ' auxiliary rod

223,223 ' elastic component

224,224 ' spiral cover

23,23 ' carriage

231,231 ' stopper slot

30 transfer mechanisms

31 years seats

311 rail grooves

312 putting grooves

313 positioning convex portion

314 axle beds

32 slide rails

33 jacking assemblies

331 rise part

3311 axostylus axostyles

3312 load planes

3313 rise cambered surface

332 driving levers

333 fool proof parts

40 outer frameworks

41 substrates

42 frameworks

43 accommodation spaces

44 screw hole positions

50 electronic building bricks

51 electronics spare parts

52 screw hole positions

Embodiment

Below in conjunction with accompanying drawing structural principle of the present utility model and operation principle are done concrete description:

According to the disclosed assembling tool of the utility model, be that an electronic building brick group is gone into an outer framework inside, the electronic building brick of indication be including, but not limited to as motherboard (Motherboard), finished product circuit board (Printed circuit board assembly, PCBA) or other have the wiring board of electronics spare part.And the outer framework of indication is including, but not limited to the casing as desktop computer casing, industrial computer casing, server shell or other electronic installation.Yet, among the embodiment below the utility model, be that to go into computer housing with finished product circuit board (PCBA) group be example, certain application product of the present utility model and scope are not exceeded with following embodiment.

Please consult Figure 1 and Figure 2 simultaneously.Wherein, Fig. 1 is the schematic appearance according to assembling tool of the present utility model.Fig. 2 is the schematic appearance according to assembling tool of the present utility model framework outside setting up electronic building brick and mounting.For convenience of explanation, the X that is indicated among the figure, Y, Z are respectively X-direction, Y direction and Z-direction, and X-direction, Y direction are vertical mutually with Z-direction.

According to the disclosed assembling tool of the utility model, be to comprise a job platform 10, solid mechanism 20 and a transfer mechanism 30.

Job platform 10 has one first adjacent district 11 and one second district 12.The long side definable that is parallel to job platform 10 goes out an X-direction (as the X-axis numbering that is indicated among Fig. 1), and the short side definable that is parallel to job platform 10 goes out a Y direction (as the Y-axis numbering that is indicated among Fig. 1).

The solid mechanism 20 of frame is arranged on second district 12 of job platform 10, and have at least two side walls 21,21 ', two adjust assemblies 22,22 ' reach two carriages 23,23 '.Wherein, two side walls 21,21 ' respectively are erected on the job platform 10, and lay respectively at the relative dual side-edge (as shown in Figure 1) in second district 12.And two side walls 21,21 ' on offer respectively at least one first location hole 211,211 ' and at least one second location hole 212,212 ', adjust assemblies 22,22 ' respectively for above-mentioned two and be installed on the corresponding side wall 21,21 '.

In detail, these two adjust assembly 22,22 ' respectively have at least one adjusting lever 221,221 ' and auxiliary rod 222,222 '.For instance, one of them end of adjusting the adjusting lever 221 of assembly 22 is to be locked on the corresponding carriage 23, after the other end of adjusting lever 221 then is arranged in the first corresponding location hole 211, be arranged with an elastic component 223 again, and with a spiral cover 224 locking on this end, make elastic component 223 between spiral cover 224 and side wall 21, and two ends of elastic component 223 are held on spiral cover 224 and the side wall 21 respectively.In addition, an end of auxiliary rod 222 is fixed on the carriage 23, and the other end then through second location hole 212 of side wall 21, keeps carriage 23 unlikely deflections with this auxiliary rod 222, that is limits the horizontal level of carriage 23.Same, another adjust the adjusting lever 221 of assembly 22 ' also have same structure ', auxiliary rod 222 ', elastic component 223 ' and spiral cover 224 ', and with identical assembling mode, with carriage 23 ' be positioned at side wall 21 ' on.

Two carriages 23,23 ' with corresponding adjustment assembly 22,22 ' after interconnecting, can be suspended on corresponding side wall 21,21 ' side.And each carriage 23,23 ' all have a stopper slot 231,231 ', for the dual side-edge of electronic building brick 50 be positioned over respectively two carriages 23,23 ' stopper slot 231,231 ' in.Again with two adjust assembly 22,22 ' adjustment two carriages 23,23 ' between distance, with this with electronic building brick 50 firm clampings, and 12 tops, second district that are erected at job platform 10 that electronic building brick 50 is unsettled.

Transfer mechanism 30 is arranged on the job platform 10, and has one a year seat 31 and a slide rail 32 at least.Wherein, slide rail 32 is installed on the job platform 10 along X-direction, and makes slide rail 32 across first district 11 and second district 12.Be installed on the slide rail 32 and carry seat 31 relations, and the bottom of carrying seat 31 has a rail groove 311, be embedded at rail groove 311 inside for slide rail 32 with slip.So, carrying seat 31 can be with respect to slide rail 32, and slippage between first district 11 of job platform 10 and second district 12.In addition, carry seat 31 surfaces and have a putting groove 312, for outer framework 40 firm be placed in putting groove 312 inside and unlikely generation off normal.

Be noted that job platform 10 also has one first guide vane end stop 13 and one second guide vane end stop 14 (as shown in Figure 8).Wherein, first guide vane end stop 13 is to be configured in first district, 11, the second guide vane end stops 14 then to be configured in second district 12.First guide vane end stop 13 has one first locating groove 131, and second guide vane end stop 14 has one second locating groove 141.Has a location protuberance 313 and carry seat 31 sides with respect to job platform 10, wherein the positioning convex portion 313 of present embodiment is the flexure strip kenel, do not exceeded but do not disclose with present embodiment, those skilled in the art also can be designed to any geometry that possesses resiliency characteristics with positioning convex portion 313 of the present invention.

When a year seat 31 is positioned at first district 11, make that a positioning convex portion 313 of carrying seat 31 is that fixing is in first locating groove 131 of first guide vane end stop 13.When a year seat 31 is positioned at second district 12, make that a positioning convex portion 313 of carrying seat 31 is that fixing is in second locating groove 141 of second guide vane end stop 14.With the structural design of this two guide vane end stop 13,14, a year seat 31 be can limit and first district 11 or second district 12 remained in, avoid carrying seat 31 unnecessary slippage starts take place in installing process.

Moreover transfer mechanism 30 also has a jacking assembly 33, and its jacking assembly 33 has at least one part 331 and at least one driving lever 332 risen.Wherein, rise part 331 and roughly be a body of rod shape, and rise part 331 and have an axostylus axostyle 3311, and relative two ends of axostylus axostyle 3311 are articulated on the two relative axle beds 314 that carry seat 31, make that rising part 331 is switched to one and carries position and and rise the position with respect to carrying seat 31 with axostylus axostyle 3311.Shown in Fig. 5 B and Fig. 6 B, axostylus axostyle 3311 shapes of rising part 331 have a load plane 3312 and and rise cambered surface 3313.And make and rise cambered surface 3313 and be centered around the outer rim of rising part 331, and be connected to relative two ends of load plane 3312.

Driving lever 332 is to be installed on the axostylus axostyle 3311 of rising part 331, and can impose an active force to driving lever 332, allow driving lever 332 drive to rise part 331 be rotated motion with respect to carrying seat 31, with this conversion load plane 3312 with rise the relative position of cambered surface 3313.

Please continue again to consult shown in Fig. 2 to Fig. 6 B.Wherein, Fig. 2 is the schematic appearance according to assembling tool of the present utility model framework outside setting up electronic building brick and mounting.Fig. 3 is for outer framework being pushed to the schematic appearance of electronic building brick according to assembling tool of the present utility model.Fig. 4 is for the electronic building brick group being gone into the schematic appearance of outer framework according to assembling tool of the present utility model.Fig. 5 A is for being positioned at the generalized section of carrying the position according to the part of rising of the present utility model.Fig. 5 B is for being positioned at the local enlarged diagram that carries the position according to the part of rising of the present utility model.Fig. 6 A is for being positioned at the generalized section of rising the position according to the part of rising of the present utility model.6B figure is for being positioned at the local enlarged diagram of rising the position according to the part of rising of the present utility model.

Operating process according to the disclosed testing tool of the utility model is roughly as follows.

As shown in Figure 2, under initial condition, carrying seat 31 is first districts 11 that are positioned at job platform 10, and outer framework 40 is placed in the putting groove 312 that carries seat 31.Outer framework 40 roughly has a substrate 41 and two relative frameworks 42, and makes two frameworks 42 be separately positioned on the relative dual side-edge of substrate 41, and have one between two frameworks 42 can be for accommodating the accommodation space 43 of electronic building brick 50.When outer framework 40 is placed on putting groove 312, make it rise part 331 and be switched to the carrying position, allow the substrate 41 of outer framework 40 be carried on (shown in Fig. 5 A and Fig. 5 B) on the load plane 3312 of rising part 331.

Then be provided with a plurality of electronics spare parts 51 on the electronic building brick 50, and electronic building brick 50 is erected in the solid mechanism 20 of frame.Mainly according to electronic building brick 50 length, and with two adjust assemblies 22,22 ' correspondence adjustment two carriages 23,23 ' between relative distance, allow relative two ends of electronic building brick 50 can be placed in smoothly two carriages 23,23 ' stopper slot 231,231 ' in, and make electronic building brick 50 be subjected to two carriages 23,23 ' clamping, and firm unsettled two side walls 21,21 ' between.

As shown in Figure 3, can drive and carry seat 31 and carry out displacement movement, make and carry the restriction that seat 31 breaks away from first guide vane end stop 13, move towards second district 12 by first district 11 along slide rail 32.Be noted that, because two frameworks 42 of outer framework 40 are to be erected on the substrate 41, so offering two on side wall 21 therein, the solid mechanism 20 of frame runs through groove 213, so that in the accommodation space 43 that framework 42 smoothly by running through groove 213, allows electronic building brick 50 organize gradually goes between two frameworks 42.

As shown in Figure 4, when year seat 31 arrives second district 12 (that is carrying the spacing fixing that seat 31 is subjected to second guide vane end stop 14), can make a year seat 31 be positioned at the below of electronic building brick 50, and electronic building brick 50 is placed fully in the accommodation space 43 of outer framework 40.

Then, be converted into shown in Fig. 6 A as Fig. 5 A, pull the driving lever 332 of jacking assembly 33, order is risen part 331 and is rotated to move and be switched to along axostylus axostyle 3311 and rises the position, to change load plane 3312 and to rise the relative position of cambered surface 3313.Allow and rise cambered surface 3313 rotation and promote outer framework 40 upwards liftings (that is along Z-direction lifting) gradually, make outer framework 40 be away from year 31, and towards the direction displacement (shown in Fig. 6 A, Fig. 6 B) of electronic building brick 50.In other words, convert to by the load plane 3312 that will rise part 331 and to rise cambered surface 3313, and then change the height that supports outer framework 40, with outer framework 40 liftings and draw close in electronic building brick 50.

Thus, outer framework 40 can be given rise to smooth height in electronic building brick 50 bottom surfaces, to avoid electronic building brick 50 in assembling process (screw closure operation), its electronics spare part 51 is subjected to stress influence and damages.And, can be accurately with the screw hole position 44 of outer framework 40 and the screw hole position 52 mutual contrapositions of electronic building brick 50, be beneficial to a plurality of locked assemblies (not illustrating) and lock fast in the corresponding screw hole position 44,52 of outer framework 40 and electronic building brick 50.

It should be noted that especially jacking assembly 33 also has at least one fool proof part 333 (as shown in Figure 7), and offer a fool proof groove 214 on a side wall 21 therein.Its fool proof part 333 is arranged on the axostylus axostyle 3311 of rising part 331.Be positioned at the carrying position when rising part 331, and when living outer framework 40, make its fool proof part 333 can pass through fool proof groove 214 with load plane 3312 supports.Be positioned at and rise the position when rising part 331, and, fool proof part 333 and fool proof groove 214 are interfered mutually, and make year 31 can't move to rise cambered surface 3313 supports when living outer framework 40.Thus, can avoid year seat 31 when first district 11, that rises part 331 rises cambered surface 3313 mistakes with outer framework 40 upwards liftings, and makes when a year seat 31 moves to second district 12 that the situation that causes outer framework 40 directly to knock electronic building brick 50 takes place.

Effect of the present utility model is with the solid mechanism of frame the electronic building brick frame is high and suspend, and outer framework level is slided to electronic building brick with transfer mechanism, the group that electronic building brick can be taken advantage of a situation is gone in the outer framework, can effectively solve electronic building brick when assembling with this, easily the electronics spare part be produced problems such as stress.And the electronic building brick group is gone into behind outer framework, can be accurately with the screw hole position of outer framework and the mutual contraposition in screw hole position of electronic building brick, with this screw is locked fast in the corresponding screw hole position of outer framework and electronic building brick.With this structural design, can significantly shorten the whole assembling operation time, and accurately electronic building brick is assemblied in the outer framework, and effectively eliminate the stress that when assembling, is produced, and then improve the product yield.

Certainly; the utility model also can have other various embodiments; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the utility model.

Claims (10)

1. assembling tool in order to an electronic building brick and an outer framework are assembled mutually, is characterized in that this assembling tool includes:

One job platform has one first adjacent district and one second district;

Consolidate mechanism for one, be fixedly arranged on this second district of this job platform, this solid mechanism sets up thereon for this electronic building brick; And

One transfer mechanism, have a slide rail and one year seat, this slide rail is arranged on this job platform, this year, seat was installed on this slide rail with the relation of slip, and this year of seat this slide rail slippage between this first district and this second district relatively, this year seat in this first district mounting should outside framework, this outer framework by this year seat be moved to this second district with respect to this slide rail slippage, make this electronic building brick group go in this outer framework.

2. assembling tool according to claim 1, it is characterized in that, this transfer mechanism also has a jacking assembly, this jacking assembly also comprises at least one part of rising, this is risen part and has a load plane and and rise cambered surface, and this is risen part and is hubbed on this year of the seat, and this rise part with respect to this year seat pivot and to have a carrying position and and rise the position, this is risen part and carries the position in this, should be carried on this load plane by outer framework, this is risen part and is positioned at this and rises the position, and this outer framework is subjected to this to rise replacing of cambered surface and towards this electronic building brick direction displacement.

3. assembling tool according to claim 2 is characterized in that, this jacking assembly also comprises at least one driving lever, is connected in an axostylus axostyle, and this driving lever is risen part with respect to this year of seat pivot in order to drive this.

4. assembling tool according to claim 1 is characterized in that, this solid mechanism also comprises:

Two side walls are erected at the relative dual side-edge in this second district;

Two adjust assembly, are installed in respectively on this two side wall; And

Two carriages are connected to this adjustment assembly, and this two carriage is oppositely arranged, and the dual side-edge of this electronic building brick bears respectively on this two carriage.

5. assembling tool according to claim 4 is characterized in that, this two carriage has a stopper slot respectively, is fixedly arranged on respectively in this two stopper slot for this dual side-edge of this electronic building brick.

6. assembling tool according to claim 4, it is characterized in that, one of them of this two side wall has at least one fool proof groove, this jacking assembly is provided with at least one fool proof part corresponding to this fool proof groove, this fool proof part is connected in this and rises on the part, and this is risen part and carries the position in this, and this fool proof part is by this fool proof groove, this is risen part and is positioned at this and rises the position, and this fool proof part and this fool proof groove are interfered mutually.

7. assembling tool according to claim 4 is characterized in that, this two side wall offers at least one first location hole respectively, and respectively this adjustment assembly also comprises:

One adjusting lever, an end of this adjusting lever is locked in this carriage, and the other end of this adjusting lever is arranged in this first location hole;

One spiral cover is connected in an end of this adjusting lever; And

One elastic component is set in this adjusting lever, and two ends of this elastic component normality respectively push against this spiral cover and this side wall.

8. assembling tool according to claim 7, it is characterized in that, this two side wall offers at least one second location hole respectively, and respectively this adjustment assembly also comprises at least one auxiliary rod, one end of this auxiliary rod is fixed on this carriage, the other end of this auxiliary rod is arranged in this second location hole, remains in a horizontal level in order to limit this carriage.

9. assembling tool according to claim 1, it is characterized in that, this year, seat had a location protuberance with respect to a side of this job platform, this job platform also comprises two guide vane end stops, be configured in this first district and this second district respectively, and this two guide vane end stop has a location draw-in groove respectively, and what this year, seat was selected fixes this locating groove therein with this positioning convex portion, remains in this first district or this second district to limit this year seat.

10. assembling tool according to claim 9 is characterized in that, this positioning convex portion is a flexure strip.

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