Specific embodiment
To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with the embodiment of the present invention, to this
Technical solution in inventive embodiments is clearly and completely described, it is clear that described embodiment is that a part of the invention is real
Example is applied, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creation
Property labour under the premise of every other embodiment obtained, shall fall within the protection scope of the present invention.In the absence of conflict, under
The feature in embodiment and embodiment stated can be combined with each other.
Fig. 1 a show the schematic perspective view of the abutted equipment of one embodiment of the invention offer;Fig. 1 b show this hair
The schematic view of the front view for the abutted equipment that a bright embodiment provides.As illustrated in figs. 1A and ib, in embodiments of the present invention, will
Abutted equipment is applied to flexible screen body 4 conforming to the cover board 5 including bent angular zone.Specifically, flexible screen body 4 is rectangular plate-like
Structure, cover board 5 include the plane domain of rectangular plate-like and two bent angular zones of two long sides positioned at plane domain.The present invention is real
The abutted equipment for applying example offer includes reprinting layer 1, arc pressing module 2 and drive module 3, wherein reprint layer 1 for carry to
The flexible screen body 4 being bonded with cover board 5, and the mobile flexible screen body 4 under the action of drive module 3, arc pressing module 2, which is located at, to be turned
Within the scope of the shift motion of carrier layer 1, for applying pressing to the flexible screen body 4 reprinted on layer 1 under the action of drive module 3
Power, drive module 3 include the first driving unit 31 and the second driving unit 32, and the first driving unit 31 connects with the linkage of layer 1 is reprinted
It connects, can make to reprint the movement of layer 1, to keep the flexible screen body 4 being fixed to reprint on layer 1 mobile, and then reprinting layer 1 is driven to carry out
Fitting operation, the second driving unit 32 is connected with arc pressing module 2, for driving arc press-fitting mould block 2 to be bonded
Operation.It should be noted that being connected mentioned by the embodiment of the present invention, referring to two sides being connected or in many ways capable of
Realize the interaction relation including masters and driven side, can be physically contacted between each side can not also be physically contacted (ratio
As magnetism links).
Specifically, reprinting the first magnetic recording tape 12 and the second magnetic for reprinting film 11, rectangular strip that layer 1 includes rectangular plate-like
Property band 13.Carrier film 11 is divided into the reprinting area M1 for being located at the middle part preset range for reprinting film 11 and positioned at the two of reprinting film 11
The driving area M2 of long side preset range, reprints area M1 for carrying and fixing flexible screen body 4 to be fit, driving area M2 be used for
The realization of drive module 3 is connected.In the driving area M2 for reprinting film 11 (i.e. in two long side preset ranges of reprinting film 11), point
Be not stacked the first magnetic recording tape 12 and the second magnetic recording tape 13, the first magnetic recording tape 12 and the second magnetic recording tape 13 be stacked in
Reprint the same surface (upper surface of the reprinting film 11 in orientation i.e. as shown in Figure 1 b) of film 11.Wherein, the first magnetic recording tape 12 and
Two magnetic recording tapes 13 are prepared based on magnetic material, so as to achieve a fixed connection with the magnetic part in drive module 3, in turn
It realizes drive module 3 and reprints being connected for layer 1.For example, the magnetic material of the first magnetic recording tape 12 and the second magnetic recording tape 13 is
Magnetic graphene.
It should be noted that the array configuration of the first magnetic recording tape 12 and the magnetic material in the second magnetic recording tape 13 can be circle
Shape, triangle and polygon reticular structure etc., sufficiently to improve the adaptability of abutted equipment provided in an embodiment of the present invention and answer
With popularity, the embodiment of the present invention limits this without unified.
In addition, it should be noted that, can use adhesive is fixed to flexible screen body 4 the reprinting area M1 for reprinting floor 1,
It can use other way and flexible screen body 4 be fixed to the reprinting area M1 for reprinting floor 1, sufficiently to improve offer of the embodiment of the present invention
Abutted equipment adaptability and widespread popularity, the embodiment of the present invention limits this without unified.
With continued reference to shown in Fig. 1 a and Fig. 1 b, it includes skeleton structure, the loading end for coating skeleton structure that arc, which presses module 2,
Arc lamination unit and multiple rectangular plate-likes pressure monitoring unit 28, wherein arc lamination unit and flexible screen body to
Fit area is corresponding.Specifically, skeleton structure includes 22 and of the first support unit of cylindrical carrying axle 21, class ellipse
Second support unit 23, the first support unit 22 and the second support unit 23 are respectively arranged at the two of the extending direction of carrying axle 21
End, also, carrying axle 21 extends through the center of circle of the first support unit 22 and the second support unit 23,22 He of the first support unit
Second support unit 23 is each perpendicular to carrying axle 21.Arc lamination unit includes that the first cambered surface with the first arcuate surfaces presses
Unit 24 and the second cambered surface lamination unit 25, the first arc angle lamination unit 26 with the second arcuate surfaces and the pressing of the second arc angle
Unit 27, wherein the radian of the second arcuate surfaces is greater than the radian of the first arcuate surfaces.The identical first cambered surface pressure of shape
It closes unit 24 and the second cambered surface lamination unit 25 is relatively arranged on the upper side and lower side (orientation as shown in Figure 1 b of carrying axle 21 respectively
The upper side and lower side), equally, the identical first arc angle lamination unit 26 of shape and the second arc angle lamination unit 27 distinguish phase
To the left and right side (left and right side in orientation as shown in Figure 1 b) for being set to carrying axle 21.First cambered surface lamination unit 24,
Second cambered surface lamination unit 25, the first arc angle lamination unit 26 and 27 common combination of the second arc angle lamination unit form inside and include
The elliptical tube of cavity, both ends open, and formed elliptical tube cladding arc pressing module 2 skeleton structure loading end (by
The peripheral surface of first support unit 22 and the support of the second support unit 23).That is, the first support unit 22 and the second support unit
23 for supporting the first cambered surface lamination unit 24, the second cambered surface lamination unit 25, the first arc angle lamination unit 26 and second with the shape
Arc angle lamination unit 27.
In the first cambered surface lamination unit 24, the second cambered surface lamination unit 25, the first arc angle lamination unit 26 and the second arc angle
The surface of skeleton structure of the lamination unit 27 far from arc pressing module 2, is provided with multiple pressure monitoring units 28.Pressure monitoring
Unit 28 is used to monitor arc pressing module 2 and reprints the pressure between layer 1, and then provides to reprint the flexible screen body 4 on layer 1
More accurately pressure force.
With continued reference to shown in Fig. 1 a and Fig. 1 b, drive module 3 includes the first driving unit 31 and the second driving unit 32.The
One driving unit 31 includes the first magnetic part 311 and the second magnetic part 312, the first magnetic part 311 and the equal position of the second magnetic part 312
The apparent surface on surface where the magnetic recording tape for reprinting film 11.Also, the first magnetic part 311 is located at the magnetism of the first magnetic recording tape 12
In range, that is, the first magnetic part 311 can be connected with the first magnetic recording tape 12 using magnetic force realization, the second magnetic part 312
In in the magnetic range of the second magnetic recording tape 13, that is, the second magnetic part 312 and the second magnetic recording tape 13 can be realized using magnetic force and be linked
Connection.
It should be noted that since the driving area M2 for reprinting film 11 is located at the magnetic part of magnetic recording tape and the first driving unit 31
Between, therefore, in actual application, by being connected for magnetic recording tape and magnetic part, it can be realized magnetic recording tape and magnetic
The linkage in portion, and then accordingly movement also occurs for the driving area M2 between magnetic recording tape and magnetic part, reprints to finally realize
The movement of layer 1.
Second driving unit 32 includes shape and identical first driving portion 321 of structure and the second driving portion 322, and first drives
Dynamic portion 321 and the second driving portion 322 are respectively arranged at the both ends of the extending direction of carrying axle 21.First driving portion 321 and first
The ipsilateral setting of support unit 22, the second driving portion 322 and the ipsilateral setting of the second support unit 23.Specifically, the first driving portion 321
First movement support base 3211 including cubic shaped, (as shown in Figure 1 b positioned at the upper surface of first movement support base 3211
The upper surface in orientation) first movement supporting block 3212, be fixed to first movement supporting block 3212 and through first movement support
Seat 3211 cylindrical shape first movement guide rod 3213, positioned at first movement support base 3211 two apparent surfaces (i.e. such as
The left surface in orientation shown in Fig. 1 b and right surface) third magnetic part 3214 and the 4th magnetic part 3215.Wherein, first movement is led
Bar 3213 is movably attached to carrying axle 21 close to the end of carrying axle 21, and first movement guide rod 3213 is close to the end of carrying axle 21
Portion is provided with rotating electric machine (not shown), and rotating electric machine can drive the rotation of carrying axle 21.
It should be noted that the shape and structure of the second driving portion 322 are identical as the first driving portion 321.Second driving portion
322 include the second mobile support base 3221 of cubic shaped, positioned at the upper surface of the second mobile support base 3221 (such as Fig. 1 b institute
Show the upper surface in orientation) the second mobile supporting block, be fixed to the second mobile supporting block and through the second mobile support base 3221
The second moving leader of cylindrical shape, two apparent surfaces (the i.e. side as shown in Figure 1 b positioned at the second mobile support base 3221
Position left surface and right surface) the 5th magnetic part and the 6th magnetic part 3225.First movement guide rod in first driving portion 321
3213 are fixedly attached to the same side end of the extending direction of carrying axle 21 close to the end of carrying axle 21, to realize the first driving
Portion 321 drives the purpose of carrying axle 21 and the first support unit 22 movement fixed to carrying axle 21.Equally, the second driving portion
The second moving leader in 322 is fixedly attached to the same side end of the extending direction of carrying axle 21 close to the end of carrying axle 21,
To realize the second driving portion 322 driving carrying axle 21 and the mesh of the second support unit 23 movement fixed to carrying axle 21
's.Wherein, the second moving leader is movably attached to carrying axle 21 close to the end of carrying axle 21, and the second moving leader is close to holding
The end for carrying axis 21 is also provided with rotating electric machine (not shown), and rotating electric machine can drive the rotation of carrying axle 21.So,
In actual application, the rotating electric machine at the rotating electric machine and the second moving leader at first movement guide rod 3213 can match
Close linkage, and then drive the rotation of carrying axle 21 jointly, so drive jointly the first support unit 22 and the second support unit 23,
And the first cambered surface lamination unit 24 and the second cambered surface lamination unit 24 fixed to the first support unit 22 and it is fixed to the
The rotation of the first arc angle lamination unit 26 and the second arc angle lamination unit 27 of two support units 23.
It should be noted that third magnetic part 3214 and the driving of the 4th magnetic part 3215, second in the first driving portion 321
The 5th magnetic part and the 6th magnetic part 3225 in portion 322 and the first magnetic part 311 and second in the first driving unit 31
Magnetic part 312, can by means of magnetic attraction, manual control instruction or other automatically control instruction instruction under, drive phase
The device answered is mobile, and the specific magnetic principle embodiment of the present invention no longer describes in detail.Clamping in compared with the prior art is driven
Dynamic, the embodiment of the present invention can effectively avoid chucking device to the reprinting isostructural damage of layer using magneticaction.
In the actual application for the abutted equipment that the embodiment of the present invention refers to, flexible screen body 4 is adhesively fixed first
To the reprinting area M1 for the reprinting film 11 for reprinting floor 1, and cover board 5 is fixed, then by the first driving unit of drive module 3
31 fix with the magnetic recording tape for reprinting layer 1, and then the second driving unit 32 of drive module 3 drives arc press-fitting mould block 2 to flexibility
Screen body 4 is close, and abuts the first cambered surface lamination unit 24 of arc pressing module 2 to flexible screen body 4, is then based on the first drive
The relationship that is connected of moving cell 31 and magnetic recording tape, by the first driving unit 31 driving force adjust magnetic recording tape and with magnetism
The position for the reprinting film 11 that band is fixedly connected, so that the long side of flexible screen body 4 and arc be made to press the extending direction of module 2 (i.e.
The front-rear direction in orientation as shown in Figure 1 b) in parallel, and make the first cambered surface lamination unit 24 and flexible screen of arc pressing module 2
Then long side far from flexible screen body 4 at the abutting of body 4 makes flexible screen body 4 along the first arc by adjusting the first driving unit 31
It is mobile to two long sides respectively at the abutting of face lamination unit 24 and flexible screen body 4, to realize middle part and the cover board of flexible screen body 4
The line style of 5 plane domain abuts fitting, after the plane domain fitting to cover board 5, based on the second driving unit 32 and
Rotating electric machine at moving leader, the position of adjustment arc pressing module 2 and form, to make the first of arc pressing module 2
Arc angle lamination unit 26 and the second arc angle lamination unit 27 press the position of the bent angular zone of the corresponding cover board 5 of flexible screen body 4 respectively,
And then finally realize the fitting operation that inclusive screen body 4 is conformed to the cover board 5 including bent angle.
It should be noted that in the actual application of the above-mentioned abutted equipment referred to, can during the pressing process, in conjunction with
The position of the pressure data adjustment arc pressing module of pressure monitoring unit feedback and form, to be embodied as the offer of flexible screen body 4
It is good to promote fitting to sufficiently reduce the occurrence probability of the blackspot and bubble during fitting for the more accurately purpose of pressure force
Rate.
In addition, it should be noted that, being also possible to arc pressure in the actual application of the above-mentioned abutted equipment referred to
The the second cambered surface lamination unit 25 for molding block 2 is abutted to flexible screen body 4, i.e., completes flexible screen using the second cambered surface lamination unit 25
Body 4 is bonded operation with the plane domain of cover board 5.Also, it can also be by the rotating electric machine or drive module at moving leader
3 or rotating electric machine and drive module 3 be linked, merely with the first arc angle lamination unit 26 or the second arc angle lamination unit
27 realize the fitting operation of two bent angular zones of cover board 5.Due in the abutted equipment that the embodiment of the present invention refers to, the first cambered surface
Lamination unit 24 and the second cambered surface lamination unit 25 can be used for fitting operation, and the first arc angle lamination unit 26 and second
Arc angle lamination unit 27 can be used for fitting operation, and accordingly, with respect to existing abutted equipment, the embodiment of the present invention being capable of pole
The big service life for extending abutted equipment reduces frequency and the time of replacement abutted equipment, improves production capacity.
In addition, it should be noted that, the actual application of the above-mentioned abutted equipment referred to, is merely illustrative.?
In actual application, it is specific be bonded process can sets itself according to the actual situation, as long as can be using reprinting layer 1, arc
Pressing module 2 and being linked for drive module 3 complete the fitting operation of flexible screen body 4 and cover board 5.
The abutted equipment that the embodiment of the present invention refers to reprints layer by setting and arc presses module, and is arranged and drives respectively
The drive module of turn carrier layer and arc pressing module utilizes the connection reprinted between layer, arc pressing module and drive module
Dynamic cooperation realizes the purpose for being bonded flexible screen body with the cover board for including bent angular zone.Compared with existing abutted equipment,
The abutted equipment that the embodiment of the present invention refers to utilizes the arc pressing module including cambered surface lamination unit and arc angle lamination unit real
Show to flexible screen body and the accurate fitting of the cover board including bent angular zone, has reduced going out for the blackspot and bubble during fitting
Existing probability, promotes binding yield.
It should be appreciated that the abutted equipment that above-described embodiment refers to can also be used to be bonded other shapes includes bent angular zone
Cover board and flexible screen body, for example, including the cover board and flexible screen body of the rectangular plate-like of four bent angular zones.Specific fitting process
Referring to above-described embodiment, no longer it is described in detail herein.
Optionally, in an embodiment of the present invention, abutted equipment provided in an embodiment of the present invention includes controller, the first magnetic
Suction portion 311 and the second magnetic part 312, third magnetic part 3214 and the 4th magnetic part 3215 and the 5th magnetic part and the 6th magnetic
Realize that signal is connect with controller in suction portion 3225.So, in actual application, each magnetic part can be according to the control of controller
System instruction determines the driving such as size, direction of driving force of output parameter, to realize automatic control and be precisely controlled, further
Promote binding yield.It should be appreciated that pressure monitoring unit 28 can also be signally attached to corresponding controller, controller is based on connecing
The pressure data of receipts controls the driving parameter of each magnetic part, to further increase the control precise degrees of controller, thus most
The purpose for promoting binding yield is realized eventually.
In an embodiment of the present invention, reprinting the magnetic recording tape in layer 1 can also be embedded into reprinting film 11.Due to it is above-mentioned
Embodiment is compared, and the magnetic part of the magnetic recording tape in the embodiment of the present invention and the first driving unit 31 is apart from closer, therefore, Neng Gougeng
Add the driving force accurately guaranteed between magnetic recording tape and magnetic part, and then is mentioned to be precisely controlled fitting operation based on drive module 3
For precondition.
In addition, it should be noted that, the quantity for the support unit for including in arc pressing module 2 can according to the actual situation certainly
Row setting, the embodiment of the present invention limit this without unified.For example, in Fig. 1 a of the present invention and Fig. 1 b illustrated embodiment,
It is multiple single with the first support unit 22 and the second support that setting is spaced between first support unit 22 and the second support unit 23 again
First 23 shapes and completely identical in structure multiple support units, and the center of circle carried axis 21 of set support unit passes through
It wears.It should be appreciated that set multiple support units can press cambered surface lamination unit and arc angle pressing in module 2 for arc
Unit provides more sufficient support force, and then the precision to be further ensured that fitting.
In addition, it should be noted that, pressure monitoring unit 28 can also be not provided in abutted equipment, to realize saving cost
Purpose.
Fig. 2 a show the schematic perspective view of the arc pressing module of the abutted equipment of one embodiment of the invention offer;
Fig. 2 b show the schematic view of the front view of the arc pressing module of the abutted equipment of one embodiment of the invention offer.In the present invention
Extend the embodiment of the present invention on the basis of Fig. 1 a and Fig. 1 b illustrated embodiment, describes the embodiment of the present invention and Fig. 1 a emphatically below
With the difference of Fig. 1 b illustrated embodiment, something in common is repeated no more.
As shown in Figure 2 a and 2 b, in embodiments of the present invention, the first support of the arc pressing module 2 of abutted equipment is single
Member 22 includes the support frame 221 and two cylindrical adjusting brackets 222 of six strips.It should be noted that the second support is single
Member 23 is identical as the shape of the first support unit 22 and structure, and therefore, the second support list is no longer described in detail in the embodiment of the present invention
Member 23.
Specifically, in the first support unit 22, three support of support frame 221 connection carrying axles 21 and the first cambered surface pressure
Close unit 24, that is, one end of each support frame 221 is fixedly attached to carrying axle 21, and other end is fixedly attached to the first cambered surface
Lamination unit 24, and the end dispersion of three support frames 221 is fixed to the first cambered surface lamination unit 24.The other three support frame
221 support connection carrying axles 21 and the second cambered surface lamination unit 25, that is, one end of each support frame 221 is fixedly attached to carrying
Axis 21, other end are fixedly attached to the second cambered surface lamination unit 25, and the end dispersion of three support frames 221 is fixed to the
Two cambered surface lamination units 25.Two adjusting brackets 222 be respectively provided between carrying axle 21 and the first arc angle lamination unit 26 and
Between carrying axle 21 and the second arc angle lamination unit 27.
Specifically, adjusting bracket 222 includes cylindrical fixation support rod 2221, cylindrical active block 2222, elasticity
Block 2223, columnar Slave Block 2224, cylindrical sliding supporting bar 2225 including sliding peak 22251, strip
The connecting rod 2227 of auxiliary support bar 2226 and strip.One end of fixed support rod 2221 is fixedly attached to carrying axle 21, in addition
One end is fixedly connected with the end of active block 2222, and active block 2222 is fixedly connected with elasticity far from one end of fixed support rod 2221
The end of block 2223, elastomer block 2223 are fixedly connected with the end of Slave Block 2224, Slave Block far from one end of active block 2222
End of the 2224 one end pivot bush units far from elastomer block 2223 to sliding supporting bar 2225 far from sliding peak 22251, and
Slave Block 2224 can slide on sliding supporting bar 2225.Fixed support rod 2221, active block 2222, elastomer block 2223, from
Motion block 2224 and sliding supporting bar 2225 are in turn connected to form the adjusting frame body of linear arrangement.Two auxiliary support bars 2226 divide
The two of the linear close first cambered surface lamination unit 24 for adjusting frame body and the second cambered surface lamination unit 25 arranged She Zhi not arrived
Side.One end of each auxiliary support bar 2226 is movably attached to Slave Block 2224, and other end is flexibly connected by connecting rod 2227
To the auxiliary support bar of the second support unit 23 of relative position.Each connecting rod 2227 respectively corresponds the arc angle fixed to relative position
Lamination unit, the edge that the specific arc angle lamination unit fixed to relative position is contacted with cambered surface lamination unit.
It should be noted that since the both ends of each auxiliary support bar 2226 are movably attached to Slave Block 2224 respectively and connect
Bar 2227, and connecting rod 2227 is fixed to the arc angle lamination unit of corresponding position, the specific arc angle fixed to relative position presses
The edge that unit is contacted with cambered surface lamination unit, and Slave Block 2224 can be realized relative to sliding supporting bar 2225 and be slided,
Therefore, Slave Block 2224 can be directly changed corresponding arc angle lamination unit along the telescopic moving for the axis direction for adjusting frame body
Radian.
Fixation support rod 2221 is used for active block 2222, elastomer block 2223, Slave Block 2224 and the cunning in adjusting bracket 222
The structures such as dynamic support rod 2225 are fixed to carrying axle 21, and according to actual needs (such as carrying axle 21 and the first arc angle pressing list
Member 26 and the distance between carrying axle 21 and the second arc angle lamination unit 27) required development length is provided.Active block 2222
For providing driving force for Slave Block 2224, to adjust position of the Slave Block 2224 apart from corresponding arc angle lamination unit.Elasticity
Block 2223 is used to provide extendable room for the adjusting movement of active block.Slave Block 2224 is used for the drive provided based on active block 2222
Power carries out telescopic moving, to keep the auxiliary support bar 2226 fixed to Slave Block 2224 mobile, and due to Auxiliary support
The connecting rod 2227 that bar 2226 connects is fixedly connected with the edge of arc angle lamination unit, therefore, the telescopic moving of Slave Block 2224
The radian of the arc angle lamination unit of corresponding position can be changed.Sliding supporting bar 2225 by the elasticity of elastomer block 2223 for stretching
It contracts and is movably attached to the sliding peak 22251 of Slave Block 2224 to realize the mesh of the arc angle lamination unit of hinged corresponding position
, and then guarantee that the radian of arc angle lamination unit is stablized.
It should be noted that active block 2222 realizes that the mobile adjusting type adjusted can be screw thread tune to Slave Block 2224
At least one of section, pneumatic adjusting and motorized adjustment, that is, the driving force of active block 2222 can be by corresponding screw thread knot
The components such as structure, air device and electric device are realized, sufficiently to improve the adaptation of abutted equipment provided in an embodiment of the present invention
Ability and widespread popularity, the embodiment of the present invention limit this without unified.
In addition, elastomer block 2223 can have the device of elastic force for spring etc., sufficiently to improve offer of the embodiment of the present invention
Abutted equipment adaptability and widespread popularity, the embodiment of the present invention limits this without unified.
In actual application, when the curvature of the bent angular zone of cover board to be fit is greater than the arc that the present embodiment refers to
When pressing the radian of the arc angle lamination unit of module, then active block 2222 is held Slave Block 2224 to separate based on elastomer block 2223
The direction for carrying axis 21 is mobile, to increase the radian of the arc angle lamination unit of arc pressing module;When the bent angle of cover board to be fit
When the curvature in region is less than the radian of the arc angle lamination unit for the arc pressing module that the present embodiment refers to, then 2222 base of active block
Slave Block 2224 is pressed to close to the movement of the direction of carrying axle 21 with reducing the arc angle of arc pressing module in elastomer block 2223
The radian of unit.
The arc of abutted equipment provided in an embodiment of the present invention presses module, can be realized by means of adjusting bracket and adjust correspondence
Arc angle lamination unit radian purpose.The fixed arc pressing of the radian of the arc angle lamination unit referred to other embodiments
Module is compared, and the embodiment of the present invention can adjust the arc of arc angle lamination unit according to the practical curvature for the cover board for including bent angular zone
Degree, to make abutted equipment can adapt to and be bonded the cover board of the bent angular zone including different curvatures, and then further decreases patch
The occurrence probability of blackspot and bubble during conjunction, further promotes binding yield.
Fig. 3 show the structural representation of the first magnetic part of the drive module of the abutted equipment of one embodiment of the invention offer
Figure.Extend the embodiment of the present invention on the basis of Fig. 1 a of the present invention and Fig. 1 b illustrated embodiment, describes the present invention emphatically below
The difference of embodiment and Fig. 1 a and Fig. 1 b illustrated embodiment, something in common repeat no more.
As shown in figure 3, first magnetic part 311 is automatically controlled magnetic part in abutted equipment provided in an embodiment of the present invention.Tool
For body, the first magnetic part 311 includes the magnetic ontology 3111 of class rectangle cube structure and is located in the middle part of magnetic ontology 3111
Shielded layer 3112.Magnetic ontology 3111 includes the first absorption end 31111 and the second absorption end 31112, adsorbs end first
The periphery of magnetic ontology 3111 between 31111 and shielded layer 3112 is wound with the first power-on circuit 3113, adsorbs end second
The periphery of magnetic ontology 3111 between 31112 and shielded layer 3112 is wound with the second power-on circuit 3114, wherein first is logical
Circuit 3113 and the second power-on circuit 3114 are asynchronous circuit for controlling electricity turning.
Shielded layer 3112 be used for shield and be spaced based on the first power-on circuit 3113 and the second power-on circuit 3114 formation
Interference between two magnetic ends.For example, in an embodiment of the present invention, shielded layer 3112 includes two layers of iron plate, and every layer of iron plate
Thickness be all larger than 0.5mm, be provided between two layers adjacent of iron plate thickness range be 5mm to 10mm foam.
In actual application, each magnetic end it is magnetic whether there is or not and magnetic size can be based on corresponding power-on circuit
The parameters such as current switching, size of current, winding the number of turns of power-on circuit controlled, and then control corresponding absorption end
Adsorption capacity.Optionally, the power-on circuit of automatically controlled magnetic part may be connected to corresponding controller, and the electric current issued by controller
The information such as size control the working condition of automatically controlled magnetic part.
It should be noted that other magnetic parts (such as the second magnetic part 312, third magnetic part 3214, the 4th magnetic part
3215, the 5th magnetic part and the 6th magnetic part 3225) can be set according to actual conditions referred to for the embodiment of the present invention it is automatically controlled
Magnetic part structure.
The drive module of abutted equipment provided in an embodiment of the present invention, by by one or more magnetic in drive module
Portion is limited to the mode of automatically controlled magnetic part, realizes through the parameters essence such as winding the number of turns of power-on circuit of the automatically controlled magnetic part of control
The purpose of the driving force of quasi- control drive module, and then realize that cover board provides premise item with being precisely bonded for flexible screen body to be final
Part.In addition, in embodiments of the present invention, since two absorption ends of same magnetic part are controlled based on asynchronous circuit for controlling electricity turning
System, therefore, the control fine granularity of drive module can be further increased.
Fig. 4 show the structural schematic diagram of the reprinting layer of the abutted equipment of one embodiment of the invention offer.Scheme in the present invention
Extend the embodiment of the present invention on the basis of 1a and Fig. 1 b illustrated embodiment, below emphatically narration the embodiment of the present invention and Fig. 1 a and
The difference of Fig. 1 b illustrated embodiment, something in common repeat no more.As shown in figure 4, in fitting provided in an embodiment of the present invention
In equipment, the reprinting area M1 for reprinting floor 1 is divided into the first sticky region M11 and the second sticky region M12.First sticky region M11 with
The region of the flexible screen body plane domain to be fit to cover board is corresponding, and the second sticky region M12 and flexible screen body are to be fit to cover board
Bent angular zone region it is corresponding.In embodiments of the present invention, the boundary between the first sticky region M11 and the second sticky region M12
Line is parallel to the long side (the right and left in orientation as shown in Figure 4) of the reprinting film 11 of rectangular plate-like.Wherein, the first sticky region M11
Viscosity less than the second sticky region M12.
The specific setting range of first sticky region M11 and the second sticky region M12 can be according to the actual conditions spirit of flexible screen body
Setting living, as long as guaranteeing that the first sticky region M11 is corresponding with the region of the flexible screen body plane domain to be fit to cover board, second is glutinous
Property the area M12 flexible screen body bent angular zone to be fit to cover board region it is corresponding, and the viscosity of the first sticky region M11 is less than second
The viscosity of sticky region M12.
During the practical fitting of flexible screen body and cover board, since the bent angular zone of cover board needs to carry out bending fitting,
Therefore, it is necessary to the region of flexible screen body corresponding with the bent angular zone of cover board and to reprint the probability that film 11 is removed bigger, and then leads
Cause fitting is undesirable to happen.
Abutted equipment provided in an embodiment of the present invention passes through the distribution feelings of plane domain and bent angular zone based on cover board
Condition, the corresponding reprinting zoning that will carry the reprinting film of flexible screen body is divided into the sticky region of different viscosities, and limits the bent angle of cover board
The viscosity of the corresponding sticky region in region is greater than the mode of the viscosity of the corresponding sticky region of plane domain of cover board, reduces flexible screen
The probability of film is reprinted in body removing, ensure that binding yield.Further, since the cost of the high adhesive of viscosity is higher than low viscous of viscosity
Mixture all coats highly viscous adhesive accordingly, with respect to supporting region and compares, and the embodiment of the present invention is guaranteeing binding yield
Under the premise of reduce production cost.
In an embodiment of the present invention, the first sticky region M11 is divided into along the direction for the long side for being parallel to carrier film 11
The different sub- sticky region of multiple viscosity, and the viscosity of multiple sub- sticky regions is limited along the first extending direction of supporting region M1 and second
Extending direction (the left extending direction and right extending direction in orientation i.e. as shown in Figure 4) is incremented by.Optionally, also by the second sticky region
M12 is divided into the different sub- sticky region of multiple viscosity along the direction for the long side for being parallel to carrier film 11, and limits multiple sub- stickiness
The viscosity in area is incremented by along the direction far from the first sticky region M11.The embodiment of the present invention is by by the first sticky region M11 and/or
Two sticky region M12 are divided into the mode of multiple sub- sticky regions, realize the mesh for more reasonably conforming to flexible screen body and reprinting film
's.It should be noted that the quantity and size of sub- sticky region included by each sticky region can sets itself according to the actual situation,
The embodiment of the present invention is no longer described in detail.
In an alternative embodiment of the invention, the width of the second sticky region M12 (left and right directions in orientation i.e. as shown in Figure 4
Length) be less than corresponding cover board bent angular zone width.Optionally, the boundary of the second sticky region M12 and the first sticky region M11
Line and the width between the boundary line of the first sticky region M11 ipsilateral carrier film 11 are less than the width of the bent angular zone of cover board
1 to 2mm.The higher cost of adhesive due to high viscosity, and the removing of flexible screen body and reprinting film 11 usually occurs in flexibility
Shield the edge of body, therefore, the present invention can be realized drop while guaranteeing flexible screen body and reprinting the adhesion stability of film 11
Low production cost.
In an embodiment of the present invention, abutted equipment is applied to does not include the cover board of plane domain and the patch of flexible screen body
Closing operation.So, in the abutted equipment that the embodiment of the present invention refers to, the supporting region M1 for reprinting layer 1 includes the first sticky region M11
With the default center region of the second sticky region M12, the first sticky region M11 and the flexible screen body bent angular zone to be fit to cover board
Region is corresponding, the region pair of the default fringe region of the second sticky region M12 and the flexible screen body bent angular zone to be fit to cover board
It answers, also, the viscosity of the first sticky region M11 is not more than the viscosity of the second sticky region M12.Preferably, the first sticky region M11's is glutinous
Spend the viscosity less than the second sticky region M12.It should be noted that in the bent angular zone for the supporting region M1 and cover board for reprinting layer 1
The default corresponding region of fringe region is set as the higher sticky region of viscosity, and flexible screen body edge can be effectively prevent to tilt
It happens, and then further improves the stability of fitting.
Wherein, default center region refers in the bent angular zone of cover board, the preset range far from song angular zone edge
Interior region, default fringe region refer in the bent angular zone of cover board, in the preset range at song angular zone edge
Region.It should be appreciated that the specific range of default center region and default fringe region can sets itself according to the actual situation.
Fig. 5 show another embodiment of the present invention provides abutted equipment schematic perspective view.In Fig. 1 a of the present invention
Extend the embodiment of the present invention on the basis of Fig. 1 b illustrated embodiment, describes the embodiment of the present invention and Fig. 1 a and figure emphatically below
The difference of 1b illustrated embodiment, something in common repeat no more.
As shown in figure 5, further including being set to reprint layer 1 and arc pressure in abutted equipment provided in an embodiment of the present invention
The flexible buffer module 6 between block 2 is molded, to buffer cambered surface lamination unit and arc angle in arc press-fitting mould block 2
The hardness of lamination unit prevents during fitting, and arc presses the cambered surface lamination unit and arc angle lamination unit pair in module 2
Flexible screen body 4 generates damage.
With continued reference to shown in Fig. 5, buffer module 6 is both ends open and the oval tubular structure including cavity, buffer module
Envelope tight fit structure is formed between 6 and arc pressing module 2.Wherein, envelope tight fit structure refers to flexible slow
Die block 6 can generate cladding power to arc pressing module 2 by frictional force and the elastic force of itself, and then make to delay by cladding power
Die block 6 is relatively fixed to arc pressing module 2 and reprints between layer 1.
Optionally, the region of buffer module 6 can be contacted in the reprinting film 11 for reprinting layer 1, coat anti-static coating, to prevent
The only electrostatic damage flexible screen body 4 between buffer module 6 and reprinting film 11.
In addition, it should be noted that, the parameters such as the material of buffer module 6, thickness and hardness can be according to the actual situation
Sets itself, the embodiment of the present invention limit this without unified.For example, buffer module 6 is using the high polymers such as silicon rubber elasticity
Material is prepared.
Abutted equipment provided in an embodiment of the present invention has elasticity by pressing setting between module in reprinting layer and arc
Buffer module mode, reduce flexible screen body by arc pressing module damage probability, to further improve fitting
Yield.
In an embodiment of the present invention, the thickness of buffer module 6 is greater than or equal to 1.5mm, and 6 hardness of buffer module is Lip river
Any value in family name's hardness 20,23,25,30,35,40,43,45, hardness deviation are controlled ± 3.By a large amount of practical real
Verifying, when the thickness of buffer module 6 and hardness fall into the numberical range that the embodiment of the present invention refers to, 6 energy of buffer module
Enough play more excellent buffer function.
Fig. 6 show the schematic perspective view of the abutted equipment of further embodiment of this invention offer.Fig. 7 show this hair
The schematic perspective view of the cover board stationary fixture for the abutted equipment that a bright embodiment provides.Shown in Fig. 1 a of the present invention and Fig. 1 b
Extend the embodiment of the present invention on the basis of embodiment, implements shown in the narration embodiment of the present invention and Fig. 1 a and Fig. 1 b emphatically below
The difference of example, something in common repeat no more.
It as shown in Figure 6 and Figure 7, further include the lid for fixing cover board 5 in abutted equipment provided in an embodiment of the present invention
Plate stationary fixture 7.Specifically, cover board stationary fixture 7 is that loading plate 71 is arrived in the loading plate 71 for including rectangular plate-like and setting
Strip grip block 72 within the scope of edge preset, also, grip block 72 is perpendicular to 71 place plane of loading plate.Loading plate 71 and folder
It holds plate 72 and the accommodation space that can accommodate cover board 5 is collectively formed.
In the preset range in the middle position of loading plate 71, it is provided with vacuum suction area 711, vacuum suction area 711 opens
Equipped with multiple adsorption holes 7111, vacuum suction area 711 is used to generate adsorption capacity to cover board 5, to inhale cover board 5 by adsorption capacity
It is attached to be fixed to cover board stationary fixture 7.Exist it should be appreciated that fixing cover board 5 by the way of vacuum suction and can sufficiently reduce cover board 5
Impaired probability during fixed clamp.In addition, offer multiple grooves 721 on grip block 72, groove 721 for it is convenient from
The operation of cover board 5 is removed in cover board stationary fixture 7, is provided for removal operation and necessary is puted forth effort area.
Preferably, the edge of groove 721 is the rounded edges for not including hangnail, to realize that the edge for preventing groove 721 is drawn
The case where hurting cover board 5 generation, to further increase binding yield.
Abutted equipment provided in an embodiment of the present invention is realized using the cover board stationary fixture for including vacuum suction area and groove
The fixation of cover board further avoids the probability that cover board is damaged, and then can be further ensured that binding yield.
For the advantage for further determining that abutted equipment that the above embodiment of the present invention refers to, for existing abutted equipment and this
The abutted equipment that invention above-described embodiment refers to has carried out multinomial performance test.Specifically, table 1 show existing abutted equipment and
The performance test results for the abutted equipment that the above embodiment of the present invention refers to.It wherein, is existing for the existing abutted equipment of test
Some right angle silica gel plate abutted equipments.
The performance test of 1 abutted equipment of table
The test data shown by table 1 can explicitly be learnt very much, and compared with existing abutted equipment, the present invention is above-mentioned
The abutted equipment that embodiment refers to has the long service life referred in above-described embodiment, the debugging stable time short and patch really
Close many advantages, such as yield is high.
Fig. 8 show the flow diagram of the applying method of one embodiment of the invention offer.As shown in figure 8, the present invention is real
It applies the applying method that example refers to and presses module and driving mould including reprinting layer, arc applied to what the above embodiment of the present invention referred to
The abutted equipment of block.Specifically, the applying method that the embodiment of the present invention refers to includes the following steps.
S10: flexible screen body is fixed to and reprints layer.
S20: based on the mobile shift motion range for reprinting layer to arc pressing module of drive module.
S30: the position for reprinting layer and arc pressing module and form are adjusted based on drive module, flexible screen consideration is bonded to
With the matched cover board of flexible screen body.
In actual application, the flexible screen body to be fit to cover board is fixed to the reprinting layer of abutted equipment first,
It is then based on the mobile shift motion range for reprinting layer to arc pressing module of drive module of abutted equipment, finally based on driving
Position and the form of layer and arc pressing module are reprinted in module adjustment, and flexible screen consideration is bonded to and the matched lid of flexible screen body
Plate.
The applying method that the embodiment of the present invention refers to is driven using drive module and reprints layer and arc pressing module, with reality
The mode being linked between layer and arc pressing module is now reprinted, the mesh for being bonded flexible screen body with cover board is realized
's.Compared with existing applying method, the applying method that the embodiment of the present invention refers to is realized using arc pressing module to flexibility
The accurate fitting for shielding body and cover board reduces the occurrence probability of the blackspot and bubble during being bonded, promotes binding yield.
In the above embodiment of the present invention unless specifically defined or limited otherwise, term " connected ", " connection ", " layer
It is folded " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral;It can be
It is connected directly, the mutual of connection inside two elements or two elements can also be can be indirectly connected through an intermediary
Interactively.For the ordinary skill in the art, it can understand as the case may be above-mentioned term in the present invention
Concrete meaning.
Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations;To the greatest extent
Pipe present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: its according to
So be possible to modify the technical solutions described in the foregoing embodiments, or to some or all of the technical features into
Row equivalent replacement;And these are modified or replaceed, various embodiments of the present invention technology that it does not separate the essence of the corresponding technical solution
The range of scheme.