CN208231252U - A kind of multistation frame rear cover Combination Welding equipment - Google Patents
A kind of multistation frame rear cover Combination Welding equipment Download PDFInfo
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- CN208231252U CN208231252U CN201820781568.5U CN201820781568U CN208231252U CN 208231252 U CN208231252 U CN 208231252U CN 201820781568 U CN201820781568 U CN 201820781568U CN 208231252 U CN208231252 U CN 208231252U
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- rear cover
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- pressing plate
- interior
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- 238000012546 transfer Methods 0.000 claims abstract description 16
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Abstract
The utility model provides a kind of multistation frame rear cover Combination Welding equipment, by the separately positioned of mold core and pedestal, by way of integral replacing mold core, operation process enable to link up, effectively raises operating efficiency;By the setting of interior fixture module and outer fixture module, the shaping effect of frame is preferable;Press plate mechanism can be such that rear cover fits closely with frame, be welded convenient for laser light mechanism;By the conversion of station transfer device, the shaping of frame, the positioning of frame and rear cover and weld job can be disposably realized, there is good practicability;A plurality of frame rear cover group zygonema shares a set of laser light mechanism, and the stand-by time of reduction laser light mechanism as few as possible improves production efficiency.
Description
Technical field
The utility model relates to arrive machine processing field, and in particular to arrive a kind of multistation frame rear cover Combination Welding
Equipment.
Background technique
Fig. 1 shows existing frame rear cover Combined machining flow diagram.The big portion of existing electronic equipment frame 1000
It is molding by machining modes such as cutting or method for grinding for dividing, due to 1000 thinner thickness of frame, in machining process,
Frame 1000 inevitably will appear thermal deformation, therefore, before frame 1000 and rear cover 1001 combine, need frame 1000
Shaping is carried out, 1000 shape of frame is made to be consistent with frame shape depending on design.
In general, if after 1000 shaping of frame, the jig of shaping cannot be unclamped at once by the way of cold shaping,
Frame 1000 is avoided to deform again;Therefore, it is necessary to after 1000 shaping of frame, need rear cover 1001 being embedded in installation to side
In frame 1000, eventually by manufacturing process such as welding, splicing, rear cover 1001 is fixed on frame 1000, heavy line institute in Fig. 1
Show to be welding or hinged track.
During welding and splicing, the impurity such as clast or micelle are inevitably generated, and fall in shaping device
On;The mold core and pedestal of conventional cosmetic equipment are integrated designs, when carrying out impurity cleaning, can not be processed;Due to needing
The number to be cleared up is more, is unfavorable for the normal operation of producing line, and processing efficiency is lower.On the other hand, laser-beam welding machine is not using
When the welding method of filler wire, the requirement of butt-welding fitting fit-up gap is very high, therefore, if frame and rear cover cannot be fully mated,
Laser welding effect is poor.
In addition, it is contemplated that laser welding process time is longer, the chill time of laser light mechanism should be made to shorten, improve and make
Industry efficiency.
Utility model content
In order to overcome the problems, such as that existing equipment exists, the utility model provides a kind of multistation frame rear cover Combination Welding
Equipment by way of integral replacing mold core, enables operation process to link up, effectively by the separately positioned of mold core and pedestal
Improve operating efficiency;By the setting of interior fixture module and outer fixture module, the shaping effect of frame is preferable;Press plate mechanism
Rear cover can be made to fit closely with frame, be welded convenient for laser light mechanism;It, can be disposable by the conversion of station transfer device
It realizes the shaping of frame, the positioning of frame and rear cover and weld job, there is good practicability;A plurality of frame rear cover group zygonema
A set of laser light mechanism is shared, the stand-by time of reduction laser light mechanism as few as possible improves production efficiency.
Correspondingly, the utility model provides a kind of multistation frame rear cover Combination Welding equipment, including after a plurality of frame
Lid group zygonema and laser light mechanism, a plurality of frame rear cover group zygonema share a set of laser light mechanism;
The frame rear cover group zygonema includes frame rear cover combined mechanism and station transfer device;
The frame rear cover combined mechanism includes mold core, pedestal, press plate mechanism;
The mold core includes mold core plates, mold core jacking block, fixture module and the outer fixture module of multiple groups in multiple groups;The mold core top
Block is arranged in the middle part of the mold core plates, and fixture module and the outer fixture module of multiple groups are arranged in the mold core top in the multiple groups
Block surrounding;The interior fixture module includes interior fixture dressing stick and interior fixture elastic component;The outer fixture module includes outer fixture
Dressing stick, outer fixture elastic component and outer fixture limited block;Under default conditions, the interior fixture elastic component is by the interior fixture shaping
Block is pressed in mold core jacking block periphery, and the outer fixture dressing stick is pressed in the outer fixture limited block by the outer fixture elastic component
On;Frame be placed in interior fixture module described in the multiple groups interior fixture dressing stick and the multiple groups described in outer fixture module it is outer
Between fixture dressing stick;
The pedestal includes base support, interior fixture drive module and outer fixture drive module;The mold core is placed on institute
It states on base support, the interior fixture drive module and the outer fixture drive module setting are on the base support;It is described
The interior fixture dressing stick that interior fixture drive module drives it to correspond to interior fixture module is moved away from the mold core jacking block, is made described more
The interior fixture dressing stick periphery of the group interior fixture module is overlapped with the pre-designed inner surface contour of the frame;The outer fixture drives
Its outer fixture dressing stick for corresponding to outer fixture module of dynamic module drive is moved towards the mold core jacking block, makes the outer jig plate of the multiple groups
The inner wall of outer fixture dressing stick of block is overlapped with the pre-designed circumferential profile of the frame;
The press plate mechanism includes pressing plate module and pressing plate drive module;Under job state, rear cover is placed on the frame
On, after the pressing plate drive module drives above the pressing plate block motion to the rear cover, drive the pressing plate module downward
The rear cover is pressed on the frame by movement, the pressing plate module;
The station transfer device includes feeding guide, and the feeding guide both ends are respectively loading and unloading station and Welder
Position;The frame rear cover combined mechanism is based on the base support and is slidably mounted on the feeding guide and in the loading and unloading
It is moved between station and welding post;
The feeding guide parallel side-by-side of a plurality of frame rear cover group zygonema is arranged;The laser light mechanism is arranged described more
The welding post side of feeding guide, successively welds the frame and rear cover of a plurality of frame rear cover group zygonema.
The utility model provides a kind of multistation frame rear cover Combination Welding equipment, is set by the separation of mold core and pedestal
It sets, by way of integral replacing mold core, operation process is enable to link up, effectively raise operating efficiency;Pass through interior fixture
The setting of module and outer fixture module, the shaping effect of frame are preferable;Press plate mechanism can be such that rear cover fits closely with frame, be convenient for
Laser light mechanism is welded;By the conversion of station transfer device, the shaping of frame, frame and rear cover can be disposably realized
Positioning and weld job have good practicability;A plurality of frame rear cover group zygonema shares a set of laser light mechanism, as few as possible
The stand-by time of laser light mechanism is reduced, production efficiency is improved.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor
Under, it can also be obtained according to these attached drawings other attached drawings.
Fig. 1 is frame rear cover Combined machining flow diagram;
Fig. 2 is the multistation frame rear cover Combination Welding equipment three dimensional structure diagram of the utility model embodiment;
Fig. 3 is the frame rear cover combined mechanism three dimensional structure diagram of the utility model embodiment;
Fig. 4 is the mold core three dimensional structure diagram of the utility model embodiment;
Fig. 5 is the three dimensional structure diagram of the mold core bottom plate of the utility model embodiment;
Fig. 6 is the interior fixture module, the three dimensional structure diagram of mold core bottom plate and mold core jacking block of the utility model embodiment;
Fig. 7 is the three dimensional structure diagram of the mold core jacking block of the utility model embodiment;
Fig. 8 is the three dimensional structure diagram of the interior fixture module of the utility model embodiment;
Fig. 9 is the three dimensional structure diagram of outer the fixture module and mold core plates of the utility model embodiment;
Figure 10 is the outer fixture module three dimensional structure diagram of the utility model embodiment;
Figure 11 is the fragmentary top of outer the fixture module and mold core plates of the hiding outer fixture dressing stick of the utility model embodiment
View;
Figure 12 is the pedestal three dimensional structure diagram of the utility model embodiment;
Figure 13 is the outer fixture drive module of the utility model embodiment and the three dimensional structure diagram of outer fixture module;
Figure 14 is the hiding outer fixture drive module of the utility model embodiment and the pedestal three-dimensional structure of outer clamp bottom board
Schematic diagram;
Figure 15 is the interior fixture drive module three dimensional structure diagram of the utility model embodiment;
Figure 16 is the interior fixture drive module top view of the utility model embodiment;
Figure 17 is the three dimensional structure diagram of interior fixture drive module and interior fixture module;
Figure 18 is the press plate mechanism three dimensional structure diagram of the utility model embodiment;
Figure 19 is the pressing plate module three dimensional structure diagram of the utility model embodiment;
Figure 20 is the pressing plate module D profile structural schematic diagram of the utility model embodiment;
Figure 21 is the station transfer device three dimensional structure diagram of the utility model embodiment;
Figure 22 is the baffle mechanism three dimensional structure diagram of the utility model embodiment;
Figure 23 is the laser light mechanism three dimensional structure diagram of the utility model embodiment;
Figure 24 is the three dimensional structure diagram of the frame rear cover combined mechanism original state of the utility model embodiment;
Three dimensional structure diagram when Figure 25 is right above pressing plate block motion to the mold core of the utility model embodiment,
Partial enlarged view is faced when Figure 26 is the pressing plate module pressing rear cover of the utility model embodiment.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts
All other embodiment obtained, fall within the protection scope of the utility model.
In order to avoid repeating that same technology contents are introduced, it should be noted that for being mentioned in claims
And elastic component, select lower-cost spring as elastic component in the utility model embodiment;For in claims
The mentioned mode that is slidably installed, tool the utility model embodiment are realized by the way of using sliding rail and sliding block cooperation.
Fig. 2 shows the multistation frame rear cover Combination Welding equipment three dimensional structure diagram of the utility model embodiment,
The utility model embodiment provides a kind of multistation frame rear cover Combination Welding equipment, including a plurality of frame rear cover group zygonema and
Laser light mechanism, a plurality of frame rear cover group zygonema share a set of laser light mechanism.
Since the time of laser welding is longer, in order to accelerate operating efficiency, need as far as possible reduce laser light mechanism to
The machine time.A plurality of frame rear cover group zygonema is arranged in the utility model embodiment, and a plurality of frame rear cover group zygonema shares a set of laser
Mechanism;During laser light mechanism is to wherein a line frame rear cover group zygonema operation, after staff can be to other frames
Lid group zygonema carries out operation of feeding and discharging, to improve the utilization efficiency of equipment.Since efficiency is limited in the speed of welding of laser welding
On, therefore, in specific implementation, frequently with two frame rear cover group zygonemas, increase more frame rear cover group zygonemas to efficiency
It is promoted less obvious.The structure of a plurality of frame rear cover group zygonema of the utility model embodiment is identical, below with wherein a line
Frame rear cover group zygonema is introduced.
The frame rear cover group zygonema of the utility model embodiment includes frame rear cover combined mechanism, press plate mechanism 3, station turn
Telephone-moving structure 4, baffle mechanism 5;The frame rear cover combined mechanism of the utility model embodiment for frame shaping and frame, after
The mutual alignment of lid is fixed;Frame rear cover combined mechanism entirely through station transfer device loading and unloading end and laser welding end it
Between convert;Baffle mechanism 5 is arranged above station transfer device, and the light for completely cutting off loading and unloading end and laser welding end passes
It broadcasts, the light generated when laser light mechanism being avoided to weld impacts staff's health of loading and unloading end operation;Laser light mechanism 6 is then
Across a plurality of frame rear cover group zygonema, the welding on welding ends, for frame and rear cover is set.
Fig. 3 shows the frame rear cover combined mechanism three dimensional structure diagram of the utility model embodiment.The utility model
The frame rear cover combined mechanism of embodiment includes mold core 1, pedestal 2, press plate mechanism 3;Mold core 1 falls within pedestal 2 under the effect of gravity
On, press plate mechanism 3 is arranged above mold core across setting.
Fig. 4 shows the mold core three dimensional structure diagram of the utility model embodiment, wherein is labeled with straight line connection
Components be specific components, using the components that are labeled of camber line connection as assembly.The mould of the utility model embodiment
Core includes mold core plates 100, mold core jacking block 104, outer fixture module 130 and interior fixture module 110.
The mold core plates 100 are used for the fixation and installation of outer fixture module 130 and interior fixture module 110, practical new at this
In type embodiment, for the convenience of processing, the mold core plates 100 are divided for mold core bottom plate 101 and mold core top plate 102, the mould
Core top plate 102 is fixed on mold core bottom plate 101, specifically, the structure of mold core bottom plate 101 and mold core top plate 102 is according to outer fixture
Module 130 and interior fixture module 110 are designed;102 two sides of mold core top plate are provided with mold core handle 103, are convenient for operation people
Member's lifting.
External fixture module 130 and interior fixture module 110 are introduced individually below, and according to outer 130 He of fixture module
The structure of mold core plates 100 and mold core jacking block 104 is introduced in the structure of interior fixture module 110.
Fig. 5 shows the three dimensional structure diagram of mold core bottom plate 101, and Fig. 6 shows interior fixture module 110, mold core bottom plate
101 and mold core jacking block 104 three dimensional structure diagram, Fig. 7 shows the three dimensional structure diagram of mold core jacking block 104, and Fig. 8 is shown
The three dimensional structure diagram of interior fixture module 110.
The middle part of the mold core plates 100 is arranged in mold core jacking block 104, be mainly used for interior fixture module 110 limit and
The limit of rear cover 1001, including mold core jacking block pedestal 103 and mold core jacking block adjustment plate 107, mold core jacking block pedestal 103 are fixed on mould
On core bottom plate 101, mold core jacking block adjustment plate 107 is installed on fixed mold core jacking block pedestal 103;Mold core jacking block adjustment plate 107 is used
In the whole height for adjusting mold core jacking block 104, for adapting to different rear cover thickness;Mold core jacking block 104 specifically acts on following knot
The motion principle of fixture module 110 is introduced in closing.
In the utility model embodiment, it is provided with multiple interior fixture modules 110, multiple interior fixture modules 110 are according to side
The structure setting of frame 1000 is on mold core bottom plate 101.The structure of multiple interior fixture modules 110 is identical, and size is according to design requirement
Having a certain difference property, below with the utility model embodiment wherein the structure of fixture module 110 is introduced in one group.
The interior fixture module 110 of the utility model embodiment includes interior clamp rail 112, interior clamp spring jacking block 111, interior
Fixture link block 114, interior clamp spring 115 and interior fixture dressing stick 117.
Interior clamp rail 112 and interior clamp spring jacking block 111 are fixed on mold core bottom plate 101, interior clamp spring jacking block 111
On the axis extended line of interior clamp rail 112.
Interior 114 basal sliding of fixture link block is installed on the interior clamp rail 112, it is preferred that the inner clip
Tool 114 bottom of link block is based on fixture slide block 113 in one and is slidably mounted on the interior clamp rail 112, is rubbed with reducing movement
It wipes.
Along axis direction, wherein one end is based on interior clamp spring 115 and the interior fixture to the interior fixture link block 114
Spring jacking block 111 connects, and the other end is connected and fixed with interior fixture dressing stick 117;Along interior 114 horizontal radial side of fixture link block
To two sides each extend over out interior fixture driving ear 116.101 three dimensional structure diagram of mold core bottom plate as shown in connection with fig. 5, mold core
Bottom plate 101 is correspondingly arranged on the interior fixture drive hole 105 being arranged in pairs in the lower section for corresponding to interior fixture driving ear 116;Inner clip
Tool drive hole 105 is used to protrude into for external driving part, ear 116 is driven by fixture in driving, to complete internal fixture
The driving of dressing stick 117.
Briquetting 118 in the frame for adapting to 1000 inner wall shape of frame is provided at the top of interior fixture dressing stick 117, each
Briquetting 118 is determined according to 1000 shape of frame of 118 bonding position of briquetting in frame in the frame of interior fixture module 110.It is all
Shaping of 118 collective effect of briquetting in the inner wall of frame 1000, for frame 1000 in the frame of interior fixture module 110.Due to
Briquetting is arranged on interior fixture dressing stick in frame, and fixture dressing stick replaces interior fixture dressing stick and side within hereafter unifying
Briquetting is whole in frame.
In the utility model embodiment, under default conditions, interior clamp spring 115 is in compressive state, one end and interior fixture
Spring jacking block 111 connects, and one end is connect with interior fixture link block 114;Since interior clamp spring jacking block 111 is fixed, inner clip
Have link block 114 and the direction to mold core jacking block 104 is pushed up by interior clamp spring 115, interior fixture dressing stick 117 withstands on mold core jacking block
On 104.At this point, the interior fixture dressing stick 117 of all interior fixture modules 110 is all withstood on mold core jacking block 104, all interior jig plates
Interior 117 circumferential profile of fixture dressing stick of block 110 is less than 1000 inner surface contour of frame to be processed.
In the operating condition, external driving part is protruded into from interior fixture drive hole 105, drives ear by fixture in driving
116, making interior fixture link block 114, clamp spring jacking block 111 moves one section of preset distance inwardly.At this point, all interior jig plates
The interior fixture dressing stick 117 of block 110 is moved far from mold core jacking block 104, the interior fixture dressing stick 117 of all interior fixture modules 110
Being pressed on 1000 inner wall of frame from inside to outside, interior 117 circumferential profile of fixture dressing stick of all interior fixture modules 110 with to
The inner surface contour when frame 1000 of processing is pre-designed is identical.
It should be noted that the driving part outside the size permission of interior fixture drive hole 105 is in interior fixture drive hole 105
Middle movement, therefore, the setting that external driving part can be long-term can also face at work in interior fixture drive hole 105
When protrude into.When external driving part is resetted from working condition, effect of the interior fixture link block 114 in interior clamp spring 115
Under, it is biased toward the direction of mold core jacking block 104 again, interior fixture dressing stick 117 is withstood on mold core jacking block 104, restores default conditions.
It, can be to frame 1000 by the loading and unloading movement of the cyclical action and frame 1000 of interior fixture module 110
Inner wall carries out shaping.
Fig. 9 shows the three dimensional structure diagram of outer the fixture module 130 and mold core plates 100 of the utility model embodiment,
Figure 10 shows outer 130 three dimensional structure diagram of fixture module of the utility model embodiment, and Figure 11, which is shown, hides outer fixture
The partial top view of outer the fixture module 130 and mold core plates 100 of dressing stick 134.
The outer fixture module 130 of the utility model embodiment includes outer clamp rail 131, outer fixture link block 133, outer clip
Have spring 136 and outer fixture dressing stick 134.
Outer clamp rail 131 is fixed on mold core bottom plate 101, and outer fixture link block 133 is slidably connected at outer clamp rail
On 131;Preferably, outer fixture link block 133 is connected on outer clamp rail 131 based on outer fixture slide block 132;Outer fixture shaping
Block 134 connect fastening one with outer fixture link block 133.In outer fixture link block 133 towards the side at the middle part of mold core plates 100,
Outer clamp spring 136 is installed;Outer 136 one end of clamp spring is connected on outer fixture link block 133, and one end is connected to mold core top
On plate 102.
The direction that fixture link block 133 is moved along outer clamp rail 131 in addition is as axial, outer fixture dressing stick 134
Radially opposite sides, respectively inwards recess formed for outer fixture dressing stick 134 limit outer fixture limit notch, two outer fixtures
Limited screw 135 is screwed into perpendicular to the outer fixture limit notch recess direction, for adjusting the outer fixture dressing stick 134 of limit
Limit distance.On mold core top plate 102, on the position corresponding to the outer fixture limit notch, it is respectively arranged with outer fixture
Limited block 108 passes through the contact between outer fixture limited block 108 respectively of outer fixture limited screw 135, outer fixture limit notch
Realize the limit of outer fixture dressing stick 134.
Under default conditions, outer clamp spring 136 is in compressive state, and outer fixture link block 133 is driven to deviate from mold core jacking block 104
Movement;Since outer fixture link block 133 and outer fixture dressing stick 134 are fastening one, outer fixture dressing stick 134, which synchronizes, to deviate from
Mold core jacking block 104 moves;The outer fixture limit notch of outer fixture dressing stick 134 contacts realization limit with outer fixture limited block 108.
At this point, the periphery that the profile that the outer fixture dressing stick 134 of all outer fixture modules 130 surrounds is greater than frame 1000 to be processed is taken turns
It is wide.
Under working condition, outer fixture link block 133 is driven to move towards mold core jacking block 104 by external drive component, directly
Formation limit is contacted with outer fixture limited block 108 to outer fixture limited screw 135.At this point, the outer clip of all outer fixture modules 130
The profile that tool dressing stick 134 surrounds is identical as the pre-designed profile of 1000 periphery of frame with processing.
It, can be to the outer of frame 1000 by the loading and unloading movement of the cyclical action and frame 1000 of outer fixture module 130
Zhou Jinhang shaping.
Specifically, interior fixture module 110 is synchronous or carries out according to preset order with the movement of outer fixture module 130.
Under default conditions, the interior fixture dressing stick 117 of all interior fixture modules 110 is withstood on mold core jacking block 104, all interior
Interior 117 circumferential profile of fixture dressing stick of fixture module 110 is less than 1000 inner surface contour of frame to be processed;All outer jig plates
The outer fixture limit notch of the outer fixture dressing stick 134 of block 130 contacts realization limit, institute with corresponding outer fixture limited block 108
The profile for having the outer fixture dressing stick 134 of outer fixture module 130 to surround is greater than 1000 circumferential profile of frame to be processed.
Frame 1000 to be processed is placed on the profile and outer fixture dressing stick that interior fixture dressing stick 117 surrounds first
Between 134 profiles surrounded, frame 1000 is fallen on mold core top plate 102.
Under working condition, the interior fixture dressing stick 117 of all interior fixture modules 110 and all outer fixture modules 130 it is outer
Fixture dressing stick 134 moves simultaneously or according to preset order, and interior fixture dressing stick 117 moves in the middle part of the mold core jacking block 104, outside
Fixture dressing stick 134 is moved towards mold core jacking block 104;When interior fixture dressing stick 117 and outer fixture dressing stick 134 reach default position
When setting, the profile that the interior fixture dressing stick 117 of all interior fixture modules 110 the surrounds inner surface contour phase pre-designed with frame 1000
Together, the profile that the outer fixture dressing stick 134 of all outer fixture modules 130 the surrounds circumferential profile phase pre-designed with frame 1000
Together, frame 1000 is shaped as pre-designed shape by interior fixture dressing stick 117 and outer fixture dressing stick 134.
Figure 12 shows 2 three dimensional structure diagram of pedestal of the utility model embodiment, and pedestal 2 is pacified for carrying mold core 1
Dress drives the driving part of interior fixture module 110 and the movement of outer fixture module 130.
The pedestal of the utility model embodiment includes base support 200, interior fixture drive module 210 and outer fixture driving mould
Block 230.
The base support 200 of the utility model embodiment is for fixture drive module 210 in carrying mold core 1, installing and outside
Fixture drive module 230, specifically, the base support 200 of the utility model embodiment includes base plate 201, outer fixture bottom
Plate 203, outer clamp bottom board connecting column 202, interior clamp bottom board 205, interior clamp bottom board connecting column 204.Outer clamp bottom board 203 is based on
Four outer clamp bottom board connecting columns 202 are fixed on base plate 201, and interior clamp bottom board 205 is based on four interior clamp bottom boards and connects
Column 204 is connect to be fixed on base plate 201;On outer clamp bottom board 203, it is fixed with outer fixture along the vertical direction and is drivingly connected plate
206。
The outer fixture drive module 230 of the utility model embodiment includes the outer fixture driving member that output end moves in a straight line
Part 231, outer fixture driving element 231 are fixed on outer fixture and are drivingly connected plate 206.Preferably outer fixture drives electric cylinders, specifically
, cylinder can also be driven using outer fixture;Compared with using outer fixture driving cylinder, the benefit of outer fixture driving electric cylinders is used
It is, the linear motion of outer fixture driving electric cylinders output end is converted by motor rotary motion, the output pressure of output end
Force characteristic and movement velocity characteristic are negatively correlated;When the power invariability of outer fixture driving electric cylinders, the movement speed of output end
Degree is faster, and the movement velocity of the smaller output end of output end output pressure is slower, and output end output pressure is then bigger.
And the speed characteristics and pressure characteristic of outer fixture driving cylinder output are positively correlated, it is desirable to high speed is obtained,
The input air pressure of outer fixture driving cylinder must then be increased, can not the outer fixture driving cylinder output of independent control speed and pressure
Power.
In conjunction with frame 1000 reforming process it is found that when equipment operates, need to make outer fixture module 130 in the early stage as far as possible
Fast idle stroke of passing by incrementally increases pressure, makes frame then as the contact of outer fixture dressing stick 134 and frame 1000
1000 entirety more can uniformly deform, and frame 1000 will not be made to generate serious local deformation because of the power generated suddenly,
Influence the shaping effect of frame 1000.
By that can obtain above, outer fixture driving element 231 is an advantage over using outer fixture driving electric cylinders and drives gas using outer fixture
Cylinder;But in specific implementation, the price of cylinder is far below electric cylinders, therefore, in actual implementation, can determine according to actual needs
The type of outer fixture driving element.
Figure 13 shows the three dimensional structure diagram of outer fixture drive module 230 and outer fixture module 130.Each group of outer clip
Tool module 130 is all corresponding with corresponding outer fixture drive module 230, since the outer fixture module 130 having is oversized, in order to drive
The balance of power, while being driven using two groups of outer fixture drive modules 230.Outer fixture driving element output end 232 with it is right
The outer fixture link block 133 for the outer fixture module 130 answered is opposite, and outer fixture driving element output end 232 and outer fixture module
130 outer fixture link block 133 directly has gap, integrally removes from pedestal convenient for mold core.By controlling outer fixture driving
The movement of cell output 232 drives the transmission of outer fixture link block 133 to realize the movement of outer fixture dressing stick 134.
Figure 14 shows the pedestal three dimensional structure diagram for hiding outer fixture drive module 230 and outer clamp bottom board 203, figure
15 show interior 210 three dimensional structure diagram of fixture drive module of the utility model embodiment, and it is practical new that Figure 16 shows this
Interior 210 top view of fixture drive module of type embodiment.Fixture drive module 210 is arranged on interior clamp bottom board 205 in multiple groups,
It is mounted on the interior clamp bottom board 205 specifically, interior fixture drive module 210 is based on interior fixture drive connection plate 207.
The interior fixture drive module 210 of the utility model embodiment is led including interior fixture driving element 211, the driving of interior fixture
Rail 212, interior fixture driving card block 215, interior fixture drive output block 214.Interior fixture driving guide rail 212 is fixed on interior clamp bottom board
On 205, interior 211 ontology of fixture driving element is fixed on interior fixture and is drivingly connected on plate 207, and interior fixture driving card block 215 is fixed
On the output end of interior fixture driving element 211, it is sliding that interior fixture driving 214 bottom of output block is based on interior fixture driving sliding block 213
Dynamic to be mounted on interior fixture driving guide rail 212, middle part is stuck in interior fixture driving card block 215, and upper end is upwardly extended at forked,
Interior fixture drive hole 105 on mold core bottom plate 101 drives interior fixture module 110 to move.
It should be noted that interior fixture driving output block 214 is stuck on interior fixture driving card block 215, and driven by interior fixture
Dynamic fixture block 215 drives, and moves along the direction of interior fixture driving guide rail 212.
Preferably, interior fixture driving element 211 can be selected interior fixture and drive electric cylinders, select reason and outer fixture driving element
231 selection reason is identical.
Figure 17 shows the three dimensional structure diagrams of interior fixture drive module 210 and interior fixture module 110, in order to avoid producing
Life is blocked, and part fixation member is hidden.Specifically, the output end of interior fixture driving element 211 drives interior fixture driving card block 215
It is moved away from mold core jacking block 104, ear 116 is driven based on interior fixture, interior fixture driving 214 upper end of output block passes through mold core bottom plate
101, drive interior fixture link block 114 to move away from mold core jacking block 104, the interior fixture being fastened on interior fixture link block 114 is whole
Shape block 117 moves synchronously the inner wall shaping for realizing frame 1000.
Figure 18 shows 3 three dimensional structure diagram of press plate mechanism of the utility model embodiment, for the ease of observation, observation
Certain adjustment that angle is made.The press plate mechanism 3 of the utility model embodiment includes pressing plate module 350 and pressing plate drive module
300, pressing plate module 350 for rear cover 1001 to be pressed in frame 1000 according to predeterminated position, then use by pressing plate drive module 300
It is moved in driving pressing plate module 350.
Specifically, pressing plate drive module 300 includes that pressing plate is drivingly connected plate 301, pressing plate driving guide rail 302, pressing plate driving
Transverse slat 303, pressing plate translation driving element 304 and pressing plate go up and down driving element 305;It is solid respectively that two panels pressing plate is drivingly connected plate 301
Outer 203 two sides of clamp bottom board are scheduled on, two pressing plate driving guide rails 302 are separately fixed at two panels pressing plate and are drivingly connected on plate 301;Pressure
Plate drives transverse slat 303 across the outer clamp bottom board 203, and two sides are slidably mounted on respectively on two end clamp plates driving guide rail 302;?
Wherein a piece of pressing plate is drivingly connected the outside of plate 301, is equipped with for driving pressing plate driving transverse slat 303 to drive guide rail along pressing plate
302 pressing plate translation driving element 304;The pressing plate lifting driving element 305 is mounted on pressing plate driving transverse slat 303, described
Pressing plate goes up and down the output end of driving element 305 downward, and the pressing plate module 350 is mounted on the pressing plate lifting driving element
On 305 output end.
Figure 19 shows the pressing plate module three dimensional structure diagram of the utility model embodiment.The utility model embodiment
Pressing plate module includes pressing plate module connecting plates 351, Anchor plate kit and pressing plate positioning pin 354;The pressing plate module 350 is based on pressing plate
Module connecting plates 351 and the output end of pressing plate lifting driving element 305 are connected and fixed;Multiple groups Anchor plate kit 352 is installed on
On pressing plate module connecting plates 351;Pressing plate positioning pin 354 is used for the guiding of pressing plate module 350 and mold core 1, is arranged in pressing plate module
The bottom of connecting plate 351.
Figure 20 shows the pressing plate module D profile structural schematic diagram of the utility model embodiment.The utility model is implemented
The pressing plate module 350 of example includes multiple groups Anchor plate kit 352, and multiple groups Anchor plate kit 352 is mounted on pressing plate mould according to design requirement
On block connecting plate 351.All 352 structures of Anchor plate kit are similar, the claw 364 of 361 end of outer dimension and Anchor plate kit block
Quantity is different according to design requirement, is introduced below with the Anchor plate kit of partial enlargement in Figure 20.
Anchor plate kit 352 includes Anchor plate kit axis 360, Anchor plate kit block 361, Anchor plate kit spring 362 and Anchor plate kit
Fixed block 363;360 both ends of Anchor plate kit axis are fixed on pressing plate module connecting plates 351, the Anchor plate kit being located along the same line
352 share an Anchor plate kit axis 360;361 root of Anchor plate kit block is hinged on Anchor plate kit axis 360, and number is extended in end
Measure different claw 364;Anchor plate kit fixed block 363 is fixed on 361 top of Anchor plate kit block, and Anchor plate kit spring 362 is pressed
Between Anchor plate kit fixed block 363 and Anchor plate kit block 361, Anchor plate kit block 361 is pressed on by Anchor plate kit spring 362 for contracting
On pressing plate module connecting plates 351;Anchor plate kit block 361 can rotate within a certain angle around Anchor plate kit axis 360, and in pressing plate group
It is resetted under the action of part spring 362.When pressing plate module operation, claw 364 is pressed on rear cover 1001, and root is towards Anchor plate kit
Fixed block 363 moves, while based on the pressure compaction rear cover 1001 that Anchor plate kit spring 362 is given, rear cover 1001 being embedded in
In frame 1000.
The frame rear cover combined mechanism of the utility model embodiment is in operation, under default conditions, all interior fixture drivings
The interior fixture driving output block of module 210 is separated with the interior fixture link block 114 of corresponding interior fixture module 110, all inner clips
The interior fixture dressing stick 117 of tool module 110 is withstood on mold core jacking block 104 under the action of interior clamp spring 115, all interior fixtures
Interior 117 circumferential profile of fixture dressing stick of module 110 is less than 1000 inner surface contour of frame to be processed;All outer fixture modules
130 outer fixture driving element output end 232 is separated with the outer fixture link block 133 of corresponding outer fixture module 130, all outer
The outer fixture limit notch of the outer fixture dressing stick 134 of fixture module 130 contacts realization limit with corresponding outer fixture limited block 108
Position, the profile that the outer fixture dressing stick 134 of all outer fixture modules 130 surrounds are greater than 1000 circumferential profile of frame to be processed;
Pressing plate module is removed above mold core 1 by pressing plate drive module 300, adds frame and rear cover 1001 convenient for staff.
Figure 21 shows the station transfer device three dimensional structure diagram of the utility model embodiment.The utility model is implemented
The station transfer device 4 of example includes feeding guide 401, feeding motor 403;Feeding guide 401 is fixed on board, and one end is upper
Discharging end, one end are welding ends;Feeding sliding block 402 is slidably mounted on feeding guide 401, and feeding motor 403 drives feeding sliding
Block 402 moves between loading and unloading end and welding ends along feeding guide 401.Base plate 201 is fixed on the feeding sliding block
On 402;For force balance, in 401 side of feeding guide, it is provided with secondary feeding guide 404, on the pair feeding guide 404
It is provided with the secondary feeding sliding block 405 being slidably installed, the base plate 201 is fixed on the secondary feeding sliding block 405.
Figure 22 shows the baffle mechanism three dimensional structure diagram of the utility model embodiment.The utility model embodiment
Baffle mechanism 5 includes barrier support 501, fixed baffle 502, flapper 503, barrier driving element 504;The barrier support
501 are arranged in the middle part of feeding guide across ground, are in door shape, are made of two longitudinal profiles and a transverse profile, described two
Root longitudinal profile bottom is fixed on board;The fixed baffle 502 is fixedly installed between two longitudinal profile upper ends, activity
Baffle 503 is slidably mounted between two longitudinal profiles;Barrier driving element 504 is set in the middle part of the cross bar of barrier support 501,
Output end is connect with the flapper 503, drives the flapper 503 vertically moving.The flapper 503
Middle part is provided with the form of extinction material support, and whether observe laser light mechanism work convenient for operating personnel normal.Work as flapper
503 move to top when, pedestal, mold core and press plate mechanism can pass through from below;When flapper 503 moves to lower section,
It blocks between staff and laser light mechanism.
Figure 23 shows the laser light mechanism three dimensional structure diagram of the utility model embodiment.If realizing frame with after
The laser welding of lid needs to have planar movement freedom degree, i.e. laser welding between laser welding focus and frame rear cover entirety
Focus can arbitrarily be moved to welding position in frame rear cover welding plane, to realize welding;Frame rear cover combined mechanism is being sent
Mobile visible on material guide rail, which makees frame and rear cover, integrally has one degree of freedom, therefore, is not changing frame rear cover combination machine
Under the premise of structure and station transfer device, it is not parallel with the feeding guide axis that laser welding focus at least needs that there are one
And the freedom of motion parallel with plane where the rear cover, implementation can be moved by an axis or multi-shaft interlocked realization.
The laser light mechanism of the utility model embodiment includes laser support 601, the horizontal guide rail 603 of laser, the horizontal driving element of laser
602, the longitudinal guide rail 604 of laser, the longitudinal driving element 607 of laser, laser head 608;Laser support 601 is in N-shaped structure, across setting
Set the welding ends in feeding guide 401;Horizontal 603 level of guide rail of laser is horizontal to be mounted on the laser support 601;Laser is vertical
It sets guide rail 604 to be slidably mounted on the horizontal guide rail 603 of the laser based on the horizontal sliding block 604 of laser, the horizontal driving element of laser
The 602 driving horizontal sliding blocks 604 of laser are moved along the horizontal guide rail 603 of laser;It is sliding that laser head 608 is based on the longitudinal sliding block 606 of laser
Dynamic to be mounted on the longitudinal guide rail 605 of laser, the longitudinal driving element 607 of laser drives the longitudinal sliding block 606 of laser longitudinal along laser
Guide rail 605 moves.Laser optical path 609 is emitted by laser head 608, and in specific implementation, laser optical path 609 is that naked eyes are sightless,
For the ease of introducing, shown in figure with conic solid.
It should be noted that due to the utility model embodiment welding track in the same plane, when specific works,
The focal position of laser remains at rear cover institute in the plane, and plane where the motion profile of laser head and the rear cover is flat
Row, the longitudinal guide rail of laser can be when laser light mechanism be debugged, for adjusting laser welding focal position.Specifically, for non-same
The welding track of plane, in conjunction with the longitudinal guide rail of laser, it can be achieved that any movement of the laser welding focus within the scope of three axis, has
Good adaptability.
It should be noted that laser head is the end equipment of laser-beam welding machine, the focusing for laser optical path;In attached drawing also
Show the devices such as light path device, the cooling device of laser-beam welding machine;Since the utility model embodiment is in laser-beam welding machine
It is not innovated in self structure, the laser-beam welding machine of the prior art, the utility model embodiment can be used in laser-beam welding machine
It is not additionally carried out introduction.
Further, it is also possible to transmit mirror-vibrating laser bonding machine using optical fiber, optical fiber transmission mirror-vibrating laser bonding machine includes
Laser generator, fibre-optic transmission system (FOTS), laser support, galvanometer system and field lens, laser support is consistent with setting form above,
Galvanometer system and field lens are installed in laser head described above;In general, laser generator uses lower-cost YAG solid
Laser, the laser that laser generator generates are exported by fibre-optic transmission system (FOTS) to galvanometer system, and galvanometer system generally comprises use
In the X for adjusting laser optical path to galvanometer and Y-direction galvanometer, angle of rotation of the X to galvanometer and Y-direction galvanometer is driven by high-speed servo motor
Degree adjusts optical path direction;Final derived laser optical path is focused by field lens.Compared with laser generator mentioned above,
Laser head (i.e. galvanometer system and field lens) adjusts the position of laser head by the horizontal guide rail of laser and the longitudinal guide rail of laser, makes its coke
Point, which is fallen within, to be needed in the plane welded, remain stationary in welding motionless, passes through the position that galvanometer system adjusts laser spot.Tool
During body is implemented, the one-stop operation process of the multistation frame rear cover Combination Welding equipment of the utility model embodiment includes following step
It is rapid:
Original state: Figure 24 shows multistation frame rear cover group zygonema original state three dimensional structure diagram, in order to attached
Figure it is clear, baffle mechanism and laser light mechanism are hidden.Frame rear cover combined mechanism is located at the upper discharge position of station transfer device, this
When, the flapper of baffle mechanism is located at the upper end of barrier support;The pressing plate block motion of press plate mechanism is to far from the mold core
Position;The driving element of pedestal is not contacted with mold core, and mold core can directly extraction be replaced from pedestal;Inner clip on mold core
Have module and outer fixture module not by outer power drive, there are put for frame between all interior fixture dressing sticks and outer fixture dressing stick
The space entered;
Frame feeding: frame is placed between interior fixture dressing stick and outer fixture dressing stick by operating personnel;
Frame shaping: interior fixture driving element and outer fixture driving element on pedestal start and run to the position of setting
It sets;The interior fixture dressing stick and outer fixture dressing stick of mold core are driven to corresponding position, carry out shaping and clamp to determine to frame
Position;
Rear cover feeding: rear cover is placed on frame by operating personnel;It is placed it should be noted that rear cover is only preliminary at this time
On the corresponding position of frame, it is not embedded in frame;
Frame and rear cover combination: three dimensional structure diagram when Figure 25 is shown right above pressing plate block motion to mold core,
Partial enlarged view is faced when Figure 26 shows pressing plate module pressing rear cover.Pressing plate module compression plate translation driving element first is driven
It is dynamic, it moves to right above mold core;Then pressing plate lifting driving element drives pressing plate module to move towards mold core direction, until pressing plate mould
Block moves on setting position;The claw of each group Anchor plate kit, which is fixed on, is respectively pressed to rear cover on setting position;
Switch of working position: station transfer device transports frame rear cover combined mechanism entirety to welding ends from loading and unloading end,
In frame rear cover combined mechanism transportational process, pressing plate module remains the state for compressing rear cover;When frame rear cover combined mechanism
After baffle mechanism, the flapper of baffle mechanism is fallen, and is blocked between loading and unloading end and welding ends;
After the completion of in the step implementation procedure or execution, specifically, in staff to wherein a line frame rear cover
Group zygonema after the completion of cover material after, can to other multistation frame rear cover group zygonema execute frame feeding, frame shaping,
Rear cover feeding, frame and rear cover combination, Switch of working position step;Subsequent laser, which tentatively welds, and laser welds completely can rely on certainly
Dynamicization program realizes automated job, and staff only needs to execute loading and unloading behaviour in different frame rear cover group zygonemas in turn
Work;
Laser tentatively welds: laser light mechanism is firstly the need of claw is penetrated, i.e., at the gap between each claw, in frame
It is covered with after and carries out elementary laser welding, with the position between preliminary fixed border and rear cover, after preventing pressing plate module resets, after
Lid is deviate from from frame;
Laser welds completely: multistation frame rear cover Combination Welding equipment when welding completely Fig. 2 shows laser is three-dimensional
Structural schematic diagram;After laser tentatively welds, frame and rear cover relative position are tentatively fixed, pressing plate module resets, i.e. pressing plate
Module recovery is to original state;Laser light mechanism is welded completely according to the welding track of frame and rear cover, completes frame with after
Being completely fixed between lid;
It should be noted that laser tentatively weld and the complete all-welded welding process of laser in, frame rear cover combination machine
The movement of structure and laser head and movement combines, it can be achieved that arbitrary motion of the laser spot in welding plane, for different works
Part has good adaptability;
After laser light mechanism is completed to weld to wherein a line frame rear cover group zygonema, it is moved to another frame rear cover at once
Group zygonema is welded, since another frame rear cover group zygonema welds previous frame rear cover group zygonema in laser light mechanism
When connecing, frame feeding, frame shaping, rear cover feeding, frame and rear cover combination, Switch of working position step is completed, saves laser
The waiting time of mechanism.
Finished product blanking: become finished product after the completion of frame and machine for welding rear cover, flapper moves upwards, frame rear cover combination machine
Structure moves to loading and unloading end from welding ends;Interior fixture driving element and outer fixture driving element reset, interior fixture dressing stick and outer
Fixture shaping block reset unclamps the clamping to frame;Staff takes out finished product, the multistation frame rear cover Combination Welding equipment
One-stop operation process is completed.
The utility model embodiment provides a kind of multistation frame rear cover Combination Welding equipment, passes through mold core and pedestal
It is separately positioned, by way of integral replacing mold core, operation process is enable to link up, effectively raises operating efficiency;Pass through
The setting of interior fixture module and outer fixture module, the shaping effect of frame are preferable;Press plate mechanism can be such that rear cover closely pastes with frame
It closes, is welded convenient for laser light mechanism;By the conversion of station transfer device, shaping, the frame of frame can be disposably realized
Positioning and weld job with rear cover have good practicability;A plurality of frame rear cover group zygonema shares a set of laser light mechanism, to the greatest extent
The stand-by time for the reduction laser light mechanism that may lack, improves production efficiency.
A kind of multistation frame rear cover Combination Welding equipment provided by the utility model embodiment has been carried out in detail above
Thin to introduce, specific case used herein is expounded the principles of the present invention and embodiment, above embodiments
Explanation be merely used to help understand the method and its core concept of the utility model;Meanwhile for the general technology of this field
Personnel, based on the idea of the present invention, there will be changes in the specific implementation manner and application range, in conclusion
The content of the present specification should not be construed as a limitation of the present invention.
Claims (10)
1. a kind of multistation frame rear cover Combination Welding equipment, which is characterized in that including a plurality of frame rear cover group zygonema and laser
Mechanism, a plurality of frame rear cover group zygonema share a set of laser light mechanism;
The frame rear cover group zygonema includes frame rear cover combined mechanism and station transfer device;
The frame rear cover combined mechanism includes mold core, pedestal, press plate mechanism;
The mold core includes mold core plates, mold core jacking block, fixture module and the outer fixture module of multiple groups in multiple groups;The mold core jacking block is set
It sets in the middle part of the mold core plates, fixture module and the outer fixture module of multiple groups are arranged in the mold core jacking block four in the multiple groups
Week;The interior fixture module includes interior fixture dressing stick and interior fixture elastic component;The outer fixture module includes outer fixture shaping
Block, outer fixture elastic component and outer fixture limited block;Under default conditions, the interior fixture elastic component is by the interior fixture dressing stick pressure
In mold core jacking block periphery, the outer fixture dressing stick is pressed on the outer fixture limited block by the outer fixture elastic component;
Frame be placed in interior fixture module described in the multiple groups interior fixture dressing stick and the multiple groups described in outer fixture module outer clip
Have between dressing stick;
The pedestal includes base support, interior fixture drive module and outer fixture drive module;The mold core is placed on the bottom
On seat support, the interior fixture drive module and the outer fixture drive module setting are on the base support;The inner clip
The interior fixture dressing stick that tool drive module drives it to correspond to interior fixture module is moved away from the mold core jacking block, makes the multiple groups institute
The interior fixture dressing stick periphery for stating interior fixture module is overlapped with the pre-designed inner surface contour of the frame;The outer fixture drives mould
The outer fixture dressing stick that block drives it to correspond to outer fixture module is moved towards the mold core jacking block, makes the outer fixture module of the multiple groups
The inner wall of outer fixture dressing stick is overlapped with the pre-designed circumferential profile of the frame;
The press plate mechanism includes pressing plate module and pressing plate drive module;Under job state, rear cover is placed on the frame, institute
After stating above the pressing plate drive module driving pressing plate block motion to the rear cover, the pressing plate module is driven to move downward,
The rear cover is pressed on the frame by the pressing plate module;
The station transfer device includes feeding guide, and the feeding guide both ends are respectively loading and unloading station and welding post;
The frame rear cover combined mechanism is based on the base support and is slidably mounted on the feeding guide and in the loading and unloading work
It is moved between position and welding post;
The feeding guide parallel side-by-side of a plurality of frame rear cover group zygonema is arranged;Laser light mechanism setting a plurality of is sent described
The welding post side for expecting guide rail, successively welds the frame and rear cover of a plurality of frame rear cover group zygonema.
2. multistation frame rear cover Combination Welding equipment as described in claim 1, which is characterized in that after the multistation frame
Lid Combination Welding equipment further includes baffle mechanism, and the baffle mechanism includes barrier support, fixed baffle, flapper;
The barrier support is arranged on feeding guide across ground, and the fixed baffle is fixed on above the barrier support, institute
Flapper is stated to be slidably arranged in along the vertical direction on the barrier support.
3. multistation frame rear cover Combination Welding equipment as described in claim 1, which is characterized in that
The laser light mechanism is that optical fiber transmits mirror-vibrating laser bonding machine, and the optical fiber transmission mirror-vibrating laser bonding machine includes swashing
Optical generator, fibre-optic transmission system (FOTS), laser support and laser head, the laser head are internally provided with galvanometer system and field lens;
The laser support is across setting above the feeding guide;The laser generator is placed in outside, and laser is based on light
Fine Transmission system is exported to the galvanometer system;After the galvanometer system carries out direction adjustment to laser, focused through the field lens
Afterwards, the welding for the frame and rear cover.
4. multistation frame rear cover Combination Welding equipment as described in claim 1, which is characterized in that the pressing plate drive module
Driving element is gone up and down including pressing plate translation driving element and pressing plate;
The pressing plate translation driving element drives above the pressing plate block motion to the rear cover, the pressing plate lifting driving member
Part drives the pressing plate module connecting plates to move downward.
5. multistation frame rear cover Combination Welding equipment as claimed in claim 4, which is characterized in that the press plate mechanism also wraps
It includes pressing plate and is drivingly connected plate, pressing plate driving transverse slat;
Pressing plate described in two panels is drivingly connected plate and is separately fixed at the outer clamp bottom board two sides, and the pressing plate driving transverse slat is across institute
Outer clamp bottom board is stated, two sides are slidably mounted on the pressing plate respectively and are drivingly connected on plate;
The pressing plate translation driving element is disposed therein the outside that one piece of pressing plate is drivingly connected plate, and driving pressing plate driving is horizontal
Plate movement;The pressing plate lifting driving element is mounted on the pressing plate driving transverse slat, and the pressing plate module is mounted on the pressure
Plate is gone up and down on the output end of driving element.
6. multistation frame rear cover Combination Welding equipment as described in claim 1, which is characterized in that the pressing plate module includes
Pressing plate module connecting plates and Anchor plate kit, the pressing plate module connecting plates are fixed on the output end of the pressing plate lifting driving element
On;
The Anchor plate kit includes Anchor plate kit axis, Anchor plate kit block, Anchor plate kit spring and Anchor plate kit fixed block;The pressure
Board group part axis both ends are fixed on the pressing plate module connecting plates, and the Anchor plate kit being located along the same line shares a pressing plate group
Part axis;Anchor plate kit root tuber portion is hinged on Anchor plate kit axis, and more than one claw is extended in end;The pressing plate group
Part fixed block is fixed on above the Anchor plate kit block, the Anchor plate kit spring be compressed in the Anchor plate kit fixed block and
Between Anchor plate kit block;The Anchor plate kit block is by Anchor plate kit spring compression on pressing plate module connecting plates.
7. multistation frame rear cover Combination Welding equipment as described in claim 1, which is characterized in that the interior fixture module is also
Including interior fixture link block and interior fixture elastic component jacking block;
The interior fixture elastic component jacking block is fixed in the mold core plates, and the interior fixture dressing stick is fixed on the interior fixture and connects
It connects on block, the interior fixture elastic component is arranged between the interior fixture link block and the interior fixture elastic component jacking block;Default
Under state, the interior fixture elastic component drives the outer fixture link block to move towards the mold core jacking block, the interior fixture shaping
Block is crushed on mold core jacking block periphery.
8. multistation frame rear cover Combination Welding equipment as claimed in claim 7, which is characterized in that the mold core plates are described
The lower section of fixture module in multiple groups is separately provided for the interior fixture drive hole protruded into for driving element;
The base support includes interior clamp bottom board;The interior fixture drive module includes interior fixture driving element, the drive of interior fixture
Dynamic output block;The interior fixture driving element ontology is fixed on the interior clamp bottom board;The interior fixture drives output block one
End is connect with the interior fixture driving element output end, and the other end is protruded into from the interior fixture drive hole, drives the interior fixture
Link block movement.
9. multistation frame rear cover Combination Welding equipment as described in claim 1, which is characterized in that the outer fixture module is also
Including outer fixture link block;
The outer fixture limited block is fixed in the mold core plates;The outer fixture dressing stick is fixed with the outer fixture link block
One, the interior fixture elastic component are arranged between the mold core plates and the outer fixture link block;It is described outer under default conditions
Fixture elastic component drives the outer fixture link block to move away from the mold core jacking block, and the outer fixture dressing stick is crushed on described
On outer fixture limited block.
10. multistation frame rear cover Combination Welding equipment as claimed in claim 9, which is characterized in that the base support is also
Including outer clamp bottom board;
The outer fixture drive module includes outer fixture driving element, and the outer fixture driving element ontology is fixed on the outer clip
Have on bottom plate, the output end driving outer fixture link block movement.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820781568.5U CN208231252U (en) | 2018-05-24 | 2018-05-24 | A kind of multistation frame rear cover Combination Welding equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820781568.5U CN208231252U (en) | 2018-05-24 | 2018-05-24 | A kind of multistation frame rear cover Combination Welding equipment |
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Publication Number | Publication Date |
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CN208231252U true CN208231252U (en) | 2018-12-14 |
Family
ID=64581221
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CN201820781568.5U Withdrawn - After Issue CN208231252U (en) | 2018-05-24 | 2018-05-24 | A kind of multistation frame rear cover Combination Welding equipment |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108500623A (en) * | 2018-05-24 | 2018-09-07 | 天石(深圳)技研有限公司 | A kind of multistation frame rear cover Combination Welding equipment |
CN109986202A (en) * | 2019-04-14 | 2019-07-09 | 含山瑞可金属有限公司 | A kind of precision welding equipment |
CN114241912A (en) * | 2021-12-21 | 2022-03-25 | 苏州启航电子有限公司 | Laminating mechanism of backlight board and frame |
CN115555793A (en) * | 2022-11-17 | 2023-01-03 | 河北化工医药职业技术学院 | Power lithium battery welding machine |
-
2018
- 2018-05-24 CN CN201820781568.5U patent/CN208231252U/en not_active Withdrawn - After Issue
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108500623A (en) * | 2018-05-24 | 2018-09-07 | 天石(深圳)技研有限公司 | A kind of multistation frame rear cover Combination Welding equipment |
CN108500623B (en) * | 2018-05-24 | 2023-12-01 | 天石(深圳)技研有限公司 | Multi-station frame rear cover combination welding equipment |
CN109986202A (en) * | 2019-04-14 | 2019-07-09 | 含山瑞可金属有限公司 | A kind of precision welding equipment |
CN114241912A (en) * | 2021-12-21 | 2022-03-25 | 苏州启航电子有限公司 | Laminating mechanism of backlight board and frame |
CN114241912B (en) * | 2021-12-21 | 2024-04-16 | 苏州启航电子有限公司 | Laminating mechanism of back light plate and frame |
CN115555793A (en) * | 2022-11-17 | 2023-01-03 | 河北化工医药职业技术学院 | Power lithium battery welding machine |
CN115555793B (en) * | 2022-11-17 | 2023-03-10 | 河北化工医药职业技术学院 | Power lithium battery welding machine |
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AV01 | Patent right actively abandoned |
Granted publication date: 20181214 Effective date of abandoning: 20231201 |
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AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |