CN109877508A - A kind of self-positioning relocation mechanism applied to the welding of aluminum cell box - Google Patents

Abstract

The present invention provides a kind of self-positioning relocation mechanisms applied to the welding of aluminum cell box, belong to field of mechanical technique, it include: u-bracket, wherein, the side of u-bracket open end is equipped with a power part, and is the retaining part of aluminum cell box between the output end of power part and the u-bracket open end other side；First limiting section, is installed on substrate, and first limiting section is matched with the output end in power part, wherein u-bracket is slidably connected on substrate；Energy storage part, one end are connected with the closed end of u-bracket, and the other end is installed on substrate.A kind of self-positioning relocation mechanism applied to the welding of aluminum cell box provided by the invention, the linkage effect between pulling force that the thrust generated by power part and energy storage part generate, so that aluminum cell box before welding after size do not change, to improve the product qualification rate and product uniformity of aluminum cell box.

Description

A kind of self-positioning relocation mechanism applied to the welding of aluminum cell box

Technical field

The invention belongs to field of mechanical technique, are related to a kind of relocation mechanism, and especially a kind of aluminum cell box that is applied to welds Self-positioning relocation mechanism.

Background technique

Existing aluminum cell box is aluminum product, and in the welding process, aluminum material is shunk, so as to cause aluminum cell box Subtle contraction change can occur for size, at present for this side for tightening power that can cause a variation with Product jointing process Formula is mainly pre-tightened by an additional biggish outside lateral force, and the unfavorable result one done so cannot be very Good grasping tightens power and prevents the relationship between the power tightened, and output is only a fixed wholesale counter-force, so that Product cannot keep accurate locating features, and final soldered product has very big uncertain deviation.And mostly Also to add other cylinder pressing mechanisms when number in order to resist this deviation, waste installation space and infrastructure cost.

In conclusion the product size of aluminum cell box after welding can accurately be controlled by needing to design one kind, product is improved The relocation mechanism of qualification rate and product uniformity.

Summary of the invention

The purpose of the present invention is there is the above problem in view of the prior art, aluminum cell can accurately be controlled by proposing one kind The product size of box after welding improves the relocation mechanism of product qualification rate and product uniformity.

Object of the invention can be realized by the following technical scheme: a kind of applied to the self-positioning floating of aluminum cell box welding Motivation structure, comprising: u-bracket, wherein the side of u-bracket open end is equipped with a power part, and the output end of power part It is the retaining part of aluminum cell box between the other side of u-bracket open end；First limiting section, is installed on substrate, and this One limiting section is matched with the output end in power part, wherein u-bracket is slidably connected on substrate；Energy storage part, one end and U-shaped branch The closed end of frame is connected, and the other end is installed on substrate.

In a kind of above-mentioned self-positioning relocation mechanism applied to the welding of aluminum cell box, the thrust that power part provides is advanced Direction, shrinkage direction of the pulling force direction of travel and aluminum cell box that energy storage part provides in welding is on the same line.

In a kind of above-mentioned self-positioning relocation mechanism applied to the welding of aluminum cell box, the two of u-bracket closed end Side is each provided with a sliding rail, and two sliding rails are respectively symmetrically installed on substrate, wherein the closed end of u-bracket is slidably connected to On sliding rail.

In a kind of above-mentioned self-positioning relocation mechanism applied to the welding of aluminum cell box, one the is equipped on substrate Two limiting sections, and the second limiting section is oppositely arranged with energy storage part, and is used cooperatively with u-bracket.

In a kind of above-mentioned self-positioning relocation mechanism applied to the welding of aluminum cell box, the second limiting section includes being installed on Limit base on substrate, and the stop screw being screwed on limit base, wherein the end face of stop screw and the outside of u-bracket Wall leans.

In a kind of above-mentioned self-positioning relocation mechanism applied to the welding of aluminum cell box, power part is U-shaped including being mounted on The cylinder of carrier openings end side, one end are provided with a piston rod, wherein and one end of piston rod is connected with one piece of movable block, And the movable block is used cooperatively with the first limiting section.

In a kind of above-mentioned self-positioning relocation mechanism applied to the welding of aluminum cell box, respectively it is arranged in the two sides of movable block There is a guide rod, and the both ends of guide rod are connected with the two sides of u-bracket open end respectively, wherein two guide rod difference The corresponding both ends for running through movable block.

In a kind of above-mentioned self-positioning relocation mechanism applied to the welding of aluminum cell box, the movable block far from cylinder side On an adjusting block is installed, and be connected between the adjusting block and movable block by fastener.

In a kind of above-mentioned self-positioning relocation mechanism applied to the welding of aluminum cell box, the first limiting section includes being located to move The limited block of motion block two sides, wherein each piece of limited block includes the first limited block being installed on substrate, and with the first limited block The second limited block being detachably connected, and the distance between the first limited block and the second limited block are adjustable.

In a kind of above-mentioned self-positioning relocation mechanism applied to the welding of aluminum cell box, energy storage part includes being installed on substrate On support, and the screw rod on the support that is spirally connected, and the elastic component being nested on screw rod, wherein the end of screw rod is screwed into U-shaped In bracket.

Compared with prior art, a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box provided by the invention, leads to Cross power part generation thrust and energy storage part generate pulling force between linkage effect so that aluminum cell box before welding after ruler It is very little not change, to improve the product qualification rate and product uniformity of aluminum cell box.

Detailed description of the invention

Fig. 1 is a kind of usage state diagram of the self-positioning relocation mechanism applied to the welding of aluminum cell box of the present invention.

Fig. 2 is a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box of the present invention when not clamping aluminum cell box The usage state diagram at another visual angle.

Fig. 3 is a kind of structural schematic diagram of the self-positioning relocation mechanism applied to the welding of aluminum cell box of the present invention.

Fig. 4 is a kind of structural representation at another visual angle of self-positioning relocation mechanism applied to the welding of aluminum cell box of the present invention Figure.

In figure, 100, u-bracket；200, power part；210, cylinder；220, piston rod；230, movable block；240, it is oriented to Bar；250, adjusting block；300, aluminum cell box；400, the first limiting section；410, the first limited block；420, the second limited block；500, Substrate；600, energy storage part；610, support；620, screw rod；630, elastic component；700, sliding rail；800, the second limiting section；810, it limits Seat；820, stop screw.

Specific embodiment

Following is a specific embodiment of the present invention in conjunction with the accompanying drawings, technical scheme of the present invention will be further described, However, the present invention is not limited to these examples.

As shown in Figures 1 to 4, a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box provided by the invention, packet It includes: u-bracket 100, wherein the side of 100 open end of u-bracket is equipped with a power part 200, and power part 200 is defeated It is the retaining part of aluminum cell box 300 between the 100 open end other side of outlet and u-bracket；First limiting section 400, is installed on On substrate 500, and first limiting section 400 is matched with the output end in power part 200, wherein u-bracket 100 is slidably connected to On substrate 500；Energy storage part 600, one end are connected with the closed end of u-bracket 100, and the other end is installed on substrate 500.

A kind of self-positioning relocation mechanism applied to the welding of aluminum cell box provided by the invention, first by aluminum cell box 300 Side insertion retaining part in, then power part 200 output end advance, when output end and the first limiting section 400 collide When, stop the power output of power part 200, aluminum cell box 300 is in clamped condition at this time, and the thrust that power part 200 generates Greater than the pulling force for pulling u-bracket 100 with energy storage part 600, then aluminum cell box 300 is subjected to, as welding operates Progress, aluminum cell box 300 shrinks, and pulls u-bracket 100, and u-bracket 100 generates " reaction force " to this, passes through Energy storage part 600 reversely pulls aluminum cell box 300 through u-bracket 100, at this point, the pulling force that energy storage part 600 generates is gradually increased, and The thrust that power part 200 generates is gradually reduced, thus after guaranteeing aluminum cell box 300 before welding, always in when front clamp shape Position where state.Finally, the pulling force that energy storage part 600 generates at this time is greater than power part at the end of aluminum cell box 300 welds 200 thrusts generated.

It follows that, to starting to weld, terminate from the clamping of aluminum cell box 300 up to welding, what power part 200 generated Thrust is descending to be weakened step by step, and energy storage part 600 generate pulling force it is ascending enhance step by step, but power part 200 generate The summation for the pulling force that thrust and energy storage part 600 generate guarantees aluminum cell box 300 always in the location of when being just clamped.

A kind of self-positioning relocation mechanism applied to the welding of aluminum cell box provided by the invention, is generated by power part 200 Thrust and energy storage part 600 generate pulling force between linkage effect so that aluminum cell box 300 before welding after size do not send out Changing, to improve the product qualification rate and product uniformity of aluminum cell box 300.

It is further preferred that the thrust direction of travel that power part 200 provides, the pulling force direction of travel that energy storage part 600 provides And shrinkage direction of the aluminum cell box 300 in welding is on the same line.

It is further preferred that being each provided with a sliding rail 700, and two sliding rails in the two sides of 100 closed end of u-bracket 700 are respectively symmetrically installed on substrate 500, wherein the closed end of u-bracket 100 is slidably connected on sliding rail 700.In the present embodiment In, when needing to clamp aluminum cell box 300, by the movement of the output end of power part 200, realize the clamping of aluminum cell box 300, When aluminum cell box 300 is when being subjected to, aluminum cell box 300 is shunk, and energy storage part 600 pulls u-bracket at this time 100, and the synchronization of power part 200 being installed in u-bracket 100 moves on sliding rail 700, but in order to guarantee aluminum cell box 300 clamped positions it is constant, the output power of power part 200 is gradually reduced, and (is pushed away so as to form 200 output power of power part Power) it is gradually reduced, and the trend that 600 output power of energy storage part (pulling force) is gradually increased.

Preferably, as shown in Figures 1 to 4, second limiting section 800, and the second limiting section are installed on substrate 500 800 are oppositely arranged with energy storage part 600, and are used cooperatively with u-bracket 100.By the second limiting section 800 to positioning U type branch Position of the frame 100 on sliding rail 700, and energy storage part 600 is made to have certain energy always, i.e., aluminum cell box 300 is rigid When starting to be clamped, power part 200 provides a part of thrust, and energy storage part 600 provides the pulling force of another part, and thrust It is far longer than pulling force.The accuracy of its size after welding of aluminum cell box 300 is improved by the second limiting section 800 of setting.

It is further preferred that the second limiting section 800 includes the limit base 810 being installed on substrate 500, and it is screwed onto limit Stop screw 820 on seat 810, wherein the end face of stop screw 820 and the lateral wall of u-bracket 100 lean, and pass through limit Position screw 820 is screwed into the distance of limit base 810, on the one hand realizes the clamping of different-thickness aluminum cell box 300, on the other hand changes The energy stored when just starting to clamp aluminum cell box 300 of energy storage part 600.

Preferably, as shown in Figures 1 to 4, power part 200 includes the cylinder for being mounted on 100 open end side of u-bracket 210, one end is provided with a piston rod 220, wherein one end of piston rod 220 is connected with one piece of movable block 230, and the movement Block 230 is used cooperatively with the first limiting section 400.Cylinder 210 drives piston rod 220, drives movable block 230 mobile, works as movable block 230 and first limiting section 400 when colliding, then stop the power output of cylinder 210, at this point, movable block 230 and aluminum cell box The lateral surface of 300 sides fits, and the medial surface of the other side and 300 the same side of aluminum cell box of u-bracket 100 fits.

It is further preferred that being each provided with a guide rod 240, and the both ends of guide rod 240 in the two sides of movable block 230 It is connected respectively with the two sides of 100 open end of u-bracket, wherein two guide rods 240 respectively correspond two through movable block 230 End.To further increase the depth of parallelism of movable block 230 when moving.

It is further preferred that being equipped with an adjusting block 250, and the adjusting on the movable block 230 far from 210 side of cylinder It is connected between block 250 and movable block 230 by fastener.On the one hand, adjustment movable block 230 (is not pacified with 100 side wall of u-bracket Fill the one side wall of cylinder 210) between relative distance, it is another to realize the clamp operation of the aluminum cell box 300 of different-thickness Aspect, it is in flexible material that the material of adjustment block, which can be arranged, and aluminum cell box 300 is avoided the marking, shadow occur in surface when clamped Ring the appearance of aluminum cell box 300.

Preferably, as shown in Figures 1 to 4, the first limiting section 400 includes the limited block positioned at 230 two sides of movable block, In, each piece of limited block includes the first limited block 410 being installed on substrate 500, and is detachably connected with the first limited block 410 The second limited block 420, and the distance between the first limited block 410 and the second limited block 420 are adjustable.In the present embodiment, exist The two sides of movable block 230 are symmetrical arranged there are two limited block, so that the both ends synchronization of movable block 230 collides with limited block, are kept away The both ends for exempting from movable block 230 occur successively collision and cause to reverse, and improve between movable block 230 and u-bracket 100 for aluminium electricity Reliability when pond box 300 clamps is realized not in addition, the distance between the first limited block 410 and the second limited block 420 are adjustable The clamping of stack pile aluminum cell box 300 improves the flexibility that relocation mechanism uses.

Preferably, as shown in Figures 1 to 4, energy storage part 600 includes the support 610 being installed on substrate 500, and is screwed onto Screw rod 620 on support 610, and the elastic component 630 being nested on screw rod 620, wherein the end of screw rod 620 is screwed into U-shaped branch In frame 100.The distance for being screwed into u-bracket 100 by changing screw rod 620, changes the decrement of elastic component 630, i.e. change energy storage The stored energy in portion 600, conveniently adapts to the aluminum cell box 300 of different specification size, so improve relocation mechanism use it is flexible Property.

Specific embodiment described herein is only an example for the spirit of the invention.The neck of technology belonging to the present invention The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Claims (10)

1. a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box characterized by comprising u-bracket, wherein U-shaped The side at carrier openings end is equipped with a power part, and is between the output end of power part and the u-bracket open end other side The retaining part of aluminum cell box；First limiting section, is installed on substrate, and first limiting section and the output end phase in power part Cooperation, wherein u-bracket is slidably connected on substrate；Energy storage part, one end are connected with the closed end of u-bracket, and the other end is installed on base On plate.

2. a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box according to claim 1, which is characterized in that dynamic The thrust direction of travel that power portion provides, shrinkage direction of the pulling force direction of travel and aluminum cell box that energy storage part provides in welding On the same line.

3. a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box according to claim 1 or 2, feature exist In being each provided with a sliding rail in the two sides of u-bracket closed end, and two sliding rails are respectively symmetrically installed on substrate, wherein The closed end of u-bracket is slidably connected on sliding rail.

4. a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box according to claim 1 or 2, feature exist In, second limiting section is installed on substrate, and the second limiting section is oppositely arranged with energy storage part, and with u-bracket cooperate It uses.

5. a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box according to claim 4, which is characterized in that the Two limiting sections include the limit base being installed on substrate, and the stop screw being screwed on limit base, wherein the end of stop screw The lateral wall of face and u-bracket leans.

6. a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box according to claim 1, which is characterized in that dynamic Power portion includes the cylinder for being mounted on u-bracket open end side, and one end is provided with a piston rod, wherein one end of piston rod It is connected with one piece of movable block, and the movable block is used cooperatively with the first limiting section.

7. a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box according to claim 6, which is characterized in that The two sides of movable block are each provided with a guide rod, and the both ends of guide rod are connected with the two sides of u-bracket open end respectively, In, two guide rods are respectively corresponded through the both ends of movable block.

8. a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box according to claim 6 or 7, feature exist In, far from cylinder side movable block on an adjusting block is installed, and between the adjusting block and movable block pass through fastener phase Even.

9. a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box according to claim 1, which is characterized in that the One limiting section includes the limited block positioned at movable block two sides, wherein each piece of limited block includes the first limit being installed on substrate Position block, and the second limited block being detachably connected with the first limited block, and the distance between the first limited block and the second limited block It is adjustable.

10. a kind of self-positioning relocation mechanism applied to the welding of aluminum cell box according to claim 1, which is characterized in that Energy storage part includes the support being installed on substrate, and the screw rod on the support that is spirally connected, and the elastic component being nested on screw rod, In, the end of screw rod is screwed into u-bracket.