CN208133808U - Vacuum printer - Google Patents
Vacuum printer Download PDFInfo
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- CN208133808U CN208133808U CN201820496393.3U CN201820496393U CN208133808U CN 208133808 U CN208133808 U CN 208133808U CN 201820496393 U CN201820496393 U CN 201820496393U CN 208133808 U CN208133808 U CN 208133808U
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Abstract
A kind of vacuum printer includes vacuum tank, feed box, the first supply unit, the second supply unit, jig unit, alignment device, control unit, taking unit and printing element for placing for printed article.The feed box and the vacuum tank are defined along the material feeding region that first axis is connected, contraposition area and Printing Zone.The jig unit can be mobile in material feeding region and contraposition section by the drive of the first supply unit.The alignment device can align jig unit and printed article, and can be driven together with jig unit by second supply unit and align area and the movement of printing section.The taking unit is set to above contraposition area.The printing element is set to Printing Zone.When jig unit is located at contraposition area, taking unit can carry out capture and position operation to printed article and send messages to control unit, so that control unit drives alignment device to align printed article, can so simplify the operation of pan feeding, and then improve working efficiency.
Description
Technical field
The utility model relates to a kind of printing machines, more particularly to a kind of vacuum printer of energy automatic aligning.
Background technique
A kind of existing vacuum printer (No. 267330 Patent Cases of TaiWan, China TW certificate number I) is used to a workpiece
Printed, the vacuum printer include one define the periphery in an enclosed interior space, one be set to this it is closed in
The printing machine in portion space, a workbench for being set to the enclosed interior space and one are connected to the enclosed interior space
Exhaust apparatus.The periphery is set to the sealed door of the top surface with a top surface and one.The workbench can be an occlusion position
Set and a supply position between move.When the workbench is in the occlusion locations, the workbench is airtight by the enclosed interior space
Area is separated out one first and separates room and one second separates room, which is located at this and first separates room, the printing machine and should
Exhaust apparatus is then located at this and second separates room, and by the exhaust apparatus, which is held in vacuum state, at this time can
The sealed door is opened by Workpiece supply to the workbench.When the movable workbench to the supply position, the workbench is by workpiece
It is supplied to the printing machine to be printed, and by the exhaust apparatus, which integrally keeps vacuum state.
However, such vacuum printer when by Workpiece supply to workbench, need to carry out the position correction of workpiece manually, make
At operational inconvenience, and then production efficiency is reduced, in addition, workbench is in the occlusion locations, though it can be by enclosed interior sky
Between separate out first and separate room and second separate room, however first separates room and second separates airtight effect between room still not
Good, therefore, the second vacuum state for separating room will receive influence after opening sealed door, and after closing sealed door, due to
The previous vacuum breaker in one room of separating, therefore the air pressure of Integral sealing inner space can be made to be affected, and reduce the effect of exhaust apparatus
Rate.
Summary of the invention
The purpose of this utility model is to provide a kind of vacuum printers of at least one disadvantage that can solve background technique.
The vacuum printer of the utility model, suitable for printing to printed article, the vacuum printer includes vacuum
Case, feed box, the first supply unit, the second supply unit, jig unit, an alignment device, control unit, taking unit, and
Printing element.
It is able to maintain inside the vacuum tank in vacuum state, and defines contraposition area, and be connected to and be located at along first axis
The Printing Zone of the contraposition area side.The feed box connects the vacuum tank and defines the pan feeding for being connected to the contraposition area
Area, the material feeding region are located at the other side in the contraposition area along the first axis in contrast to the Printing Zone, and can be sealed
It is connected to outside with closing.
First supply unit is set to the material feeding region and the contraposition area along the first axis.Described second is defeated
It send unit to be arranged along the first axis and the Printing Zone is extended to by the contraposition area, and along the vertical first axis
The second axially opposing lower section positioned at first supply unit.
The jig unit is used to place for the printed article, and it is defeated that the jig unit can be separately disposed in described first
Unit is sent, and can be driven by first supply unit and be moved back and forth in the material feeding region and the contraposition section.
The alignment device is set to second supply unit, and the alignment device includes can be single by second conveying
Member drive and in the base station that the contraposition area and the printing section move back and forth, and be set to the base station top surface and can phase
First pair of bit platform of position correction is carried out to the printed article for the base station, first pair of bit platform can be along described the
The jig unit is axially lifted away from first supply unit by two, and corrects the jig unit and the printed article to pre-
Determine printing position.
Described control unit is electrically connected the alignment device and the alignment device can be driven to carry out school to the printed article
Just.
The taking unit is along the described second axial top for being located at the contraposition area and is electrically connected described control unit, when
When the jig unit is located at the contraposition area, the taking unit can carry out capture and position operation to the printed article, and
By the message transmission after operation to described control unit, so that described control unit drives the alignment device to the printed article
Carry out position correction.
The printing element is set to the Printing Zone and is used to print the printed article.
The vacuum printer of the utility model, also the valve list comprising airtightly connecting the feed box and the vacuum tank
Member, the valve unit can completely cut off the feed box and the vacuum tank with opening, and the feed box is used to connect described take out very
Null device and be able to maintain inside in low-pressure state.
The vacuum printer of the utility model, the alignment device further include being axially set in the base station along described second
Second pair of bit platform below top and first pair of bit platform is set to second pair of bit platform and connection described first
To the lifting unit of bit platform, and it is set to the base station and connects the translation unit of second pair of bit platform, the lifting
Unit is used to drive first pair of bit platform relative to second pair of bit platform along second axial movement, definition and institute
It states first axis and the second axial orthogonal third is axial, the translation unit is used to drive second contraposition flat
Platform is moved axially relative to the base station along the first axis and the third, and for driving second pair of bit platform phase
For the base station around second axial-rotation.
The vacuum printer of the utility model, the lifting unit are fixedly arranged on second pair of bit platform and institute with multiple
State first pair of bit platform and can along second axial stretching telescopic rod, be set to second pair of bit platform top surface
One screw rod, spiral shell are set to the first movement part of first screw rod, two two opposite sides for being fixedly arranged on the first movement part and flat
The axial movable plate of row first screw rod multiple is set to the movable plate and can be rollably by being connected to second contraposition
The idler wheel of platform, multiple pushing and pressing wheels for being set to the movable plate and neighbouring first pair of bit platform and multiple it is set to institute
State the wedge block of the bottom surface of first pair of bit platform, itself axially vertical described second axial, each wedge of first screw rod
Shape block has the pushing and pressing face that the axial direction along first screw rod is extended by second pair of bit platform towards first pair of bit platform,
The pushing and pressing face bears against the pushing and pressing wheel respectively, and first screw rod can be forced to and rotate and make the first movement part band
It moves the movable plate to move axially along itself, so that the pushing and pressing wheel is mobile respectively at the pushing and pressing face of the wedge block.
The vacuum printer of the utility model, the translation unit have the support of multiple top surfaces for being fixedly arranged on the base station
Bar, multiple bottoms for being set to the support bar top and bearing against second pair of bit platform Universal caster, be set to institute
State the of the second screw rod group of the top surface of base station, the bottom surface for being set to second pair of bit platform and connection second screw rod group
Two moving part groups, the third screw rod group of two top surfaces for being arranged at intervals at the base station along the first axis, two be set to
The bottom surface of second pair of bit platform and the third moving part group for being separately connected the third screw rod group, the second screw rod group energy
It is driven and the second moving part group and second pair of bit platform is driven to move along the first axis, the third screw rod
Group can be driven and the third moving part group is driven to move axially along the third respectively, so that second pair of bit platform edge
The third axial movement is axially rotated around described second.
The vacuum printer of the utility model, second screw rod group have top surface and itself axis for being set to the base station
The second moving member of second screw rod is set to the second screw rod, the spiral shell of the parallel first axis;The second moving part group
With can around described second it is axial rotationally be articulated in the articulated part of second moving member, and to be set to second contraposition flat
The bottom surface of platform and the sliding part that can be slided along the third axially with respect to the articulated part.
The vacuum printer of the utility model, each third screw rod group, which has, is set to the base station top surface and itself axis
The third moving member of the third screw rod, each third moving part are set to third screw rod, the spiral shell of the parallel third axial direction
Group has and axially can rotationally be articulated in the articulated part of respective third moving member around described second, and is set to described second pair
Bit platform bottom surface and the sliding part that can be slided along the first axis relative to the articulated part.
The beneficial effect of the utility model is:Pass through first supply unit, the second supply unit, the contraposition
Device and the taking unit match, and make the printed article that can correct contraposition automatically during transport, to simplify pan feeding
Operation, and then improve working efficiency.
Detailed description of the invention
Other features and effect of the utility model will be clearly presented in the embodiment referring to schema, wherein:
Fig. 1 is the side view diagram of one embodiment of the utility model vacuum printer;
Fig. 2 is a side view cutaway drawing of the embodiment;
Fig. 3 be a valve unit of the embodiment, first supply unit, second supply unit, one control
Has the perspective view of unit and an alignment device;
Fig. 4 is a Partial enlarged side view of Fig. 3;
Fig. 5 is a cross-sectional view acquired by cutting line V-V in Fig. 4;
Fig. 6 is a cross-sectional view acquired by cutting line VI-VI in Fig. 4;
Fig. 7 is a cross-sectional view acquired by cutting line VII-VII in Fig. 4;
Fig. 8 is a cross-sectional view acquired by cutting line VIII-VIII in Fig. 4;
Fig. 9 is a base station of the embodiment, second screw rod group, the second moving part group, two third screw rods
The perspective view of group and two third moving part groups;
Figure 10 is a schematic cross-sectional view of the embodiment, illustrates that the jig unit is located at a material feeding region and a contraposition
The situation in area;And
Figure 11 is analogous to a schematic cross-sectional view of Figure 10, illustrates that the jig unit and the alignment device are located at a print
Brush the situation in area.
Specific embodiment
Before the utility model is described in detail, it shall be noted that in the following description content, similar component be with
It is identically numbered to indicate.
Refering to fig. 1, Fig. 2 and Fig. 3, one embodiment of the utility model vacuum printer are suitable for connection one and take out very
Null device (not shown), and a printed article A is printed, it include a valve list of feed box 2, one of vacuum tank 1, one
The jig unit 6, one alignment device 7, one of the second supply unit 52, one control of the first supply unit 51, one of 3, one, member
Unit, a taking unit 9 and a printing element 10 processed.
The vacuum tank 1 is used to connect the vaccum-pumping equipment and be able to maintain inside in vacuum state, the vacuum tank 1
It defines a contraposition area 11 and one is connected to along a first axis X and is located at the Printing Zone 12 for aligning 11 side of area.In
In the present embodiment, the vaccum-pumping equipment can be made of existing vacuum pumping pump.
The feed box 2 connects the vacuum tank 1 and is used to connect the vaccum-pumping equipment and be able to maintain inside in low
Pressure condition, the feed box 2 define the material feeding region 21 in connection contraposition area 11, and the material feeding region 21 is along described first
Axial X is located at the other side in the contraposition area 11 in contrast to the Printing Zone 12, and the feed box 2 includes that a connection is external
And the Printing Zone 12 opening 22 and one can open ground closing it is described opening 22 outer cover 23.
The valve unit 3 airtightly connects the feed box 2 and the vacuum tank 1, and can open and enter described in ground isolation
Hopper 2 and the vacuum tank 1.In this present embodiment, the valve unit 3 includes one and is located at the feed box 2 and described true
Door-plate 31 between empty van 1, the door-plate 31 can be by oil pressure elevatings to open and close a connection feed box 2 and the vacuum tank
1 channel, and by multiple pneumatic cylinders to reach airtight effect, but not limited to this.
Refering to Fig. 3 and Fig. 4, first supply unit 51 is set to the material feeding region 21 and institute along the first axis X
State contraposition area 11.In this present embodiment, first supply unit 51 is respectively arranged at the material feeding region 21 and institute including two groups
State the conveyer belt group 511 in contraposition area 11, each conveyer belt group 511 is made of idler wheel, conveyer belt and motor, but not as
Limit.
Second supply unit 52 is arranged along the first axis X and extends to the Printing Zone by the contraposition area 11
12, and it is located relatively at along the one second axial direction Z of a vertical first axis X lower section of first supply unit 51.
In this present embodiment, second supply unit 52 is made of line rail and transmission belt group, and the transmission belt group is by belt pulley, skin
Band and motor are formed, and but not limited to this.
The jig unit 6 is used to place for the printed article A, and the jig unit 6 can be separately disposed in described the
One supply unit 51, and can be reciprocal between the material feeding region 21 and the contraposition area 11 by first supply unit 51 drive
It is mobile.
Refering to Fig. 3, Fig. 4 and Fig. 5, the alignment device 7 is set to second supply unit 52, the alignment device 7
It can be moved back and forth between the contraposition area 11 and the Printing Zone 12 by second supply unit 52 drive including one
Base station 71, one are set to a top surface 711 of the base station 71 and can carry out relative to the base station 71 to the printed article A
First pair of bit platform 72, one of position correction are set to above the base station 71 and first pair described along the second axial direction Z
Second pair of bit platform 73, one of 72 lower section of bit platform are set to second pair of bit platform 73 and connection first contraposition is flat
The lifting unit 74 of platform 72 and one are set to the base station 71 and connect the translation unit 75 of second pair of bit platform 73.
Refering to Fig. 5, Fig. 7 and Fig. 8, the lifting unit 74 is used to drive first pair of bit platform 72 relative to described the
Two pairs of bit platforms 73 are moved along the second axial direction Z.The lifting unit 74 is fixedly arranged on second pair of bit platform with multiple
73 and first pair of bit platform 72 and can along the second axial direction Z stretch telescopic rod 741, one be set to described second pair
742, spiral shells of the first screw rod of one top surface 731 of bit platform 73 be set to first screw rod 742 first movement part 743,
The axial movable plate 744 of two two opposite sides for being fixedly arranged on the first movement part 743 and parallel first screw rod 742,
It is multiple to be set to the movable plate 744 and be rollably by being connected to the idler wheel 745 of second pair of bit platform 73, multiple being set to
The movable plate 744 and the pushing and pressing wheel 746 of neighbouring first pair of bit platform 72 and multiple it is set to first pair of bit platform
The wedge block 747 of 72 bottom surface 721, itself axially vertical second axial direction Z of first screw rod 742, each
There is wedge block 747 one to be put down by second pair of bit platform 73 towards first contraposition along the axial of first screw rod 742
Platform 72 extends and the pushing and pressing face 748 that takes the form of inclined plane, and the pushing and pressing face 748 bears against the pushing and pressing respectively and takes turns 746.
And the lifting unit 74 is as flowing mode:When first screw rod 742 is forced to and rotates, institute will drive
It states first movement part 743 and interlocks the movable plate 744 and moved along itself axially opposing second pair of bit platform 73, and it is described
Movable plate 744 can then interlock the pushing and pressing wheel 746 respectively at the movement of the pushing and pressing face 748 of the wedge block 747, be pushed against with this described
First pair of bit platform 72 is gone up and down relative to second pair of bit platform 73 along the second axial direction Z.
Refering to Fig. 5, Fig. 6 and Fig. 9, definition and the first axis X and the orthogonal third of the second axial direction Z
Axial Y, the translation unit 75 are used to drive second pair of bit platform 73 relative to the base station 71 along the first axis X
And the third axial direction Y is mobile, and for driving second pair of bit platform 73 relative to the base station 71 around second axis
It is rotated to Z.The translation unit 75 has the support rod 751 of multiple top surfaces 711 for being fixedly arranged on the base station 71, multiple is set to
Universal caster 752, one of 751 top of the support rod and the bottom for bearing against second pair of bit platform 73 are set to described
The second screw rod group 76, one of 71 top surface 711 of base station is set to a bottom surface 732 of second pair of bit platform 73 and connection institute
The second moving part group 77, two for stating the second screw rod group 76 are arranged at intervals at 71 top surface 711 of base station along the first axis X
Third screw rod group 78, two be set to second pair of bit platform, 73 bottom surface 732 and be separately connected the third screw rod group 78
Third moving part group 79.
There is second screw rod group 76 one to be set to 71 top surface 711 of base station and itself axial direction parallel described first
761, spiral shells of the second screw rod of axial X are set to the second moving member 762 of second screw rod 761;The second moving part group
77, which have one, can rotationally be articulated in the articulated part 771 of second moving member 762 around the second axial direction Z and one sets
The sliding that is placed in second pair of bit platform, 73 bottom surface 732 and can be slided along the third axial direction Y relative to the articulated part 771
Part 772.There is each third screw rod group 78 one to be set to 71 top surface 711 of base station and itself axial parallel third
781, spiral shells of third screw rod of axial Y are set to the third moving member 782 of the third screw rod 781, each third moving part
Group 79 can rotationally be articulated in the articulated part 791 and one of respective third moving member 782 with one around the second axial direction Z
It is a to be set to second pair of bit platform, 73 bottom surface 732 and be slided along the first axis X relative to the articulated part 791
Sliding part 792.
And the translation unit 75 is as flowing mode:When second screw rod 761 is driven and rotates, described second
Moving member 762 will drive the second moving part group 77 and second pair of bit platform 73 is moved along the first axis X.Work as institute
When stating third screw rod group 78 and being driven and rotate, the third moving member 782 can drive 79 edge of third moving part group respectively
The third axial direction Y is mobile, wherein when 782 displacement of third moving member is identical, second pair of bit platform 73 is along institute
It is mobile to state third axial direction Y, when the 782 displacement difference of third moving member, second pair of bit platform 73 is around described second
Axial Z rotation.
Described control unit is electrically connected the alignment device 7, and can drive the first screw rod 742 of the alignment device 7, the
Two screw rods 761 and third screw rod 781 rotate so that the alignment device 7 by it is above-mentioned make flowing mode to the printed article A into
Row correction.
Refering to fig. 1 and Fig. 2, the taking unit 9 are located at the top in the contraposition area 11 along the second axial direction Z and are electrically connected
Described control unit is connect, the taking unit 9 is made of existing CCD computer image alignment device.
The printing element 10 is set to the Printing Zone 12 and is used to print the printed article A.
When in use, the printed article A is first put into the material feeding region 21 and is placed in institute by 0 and Figure 11, user refering to fig. 1
Jig unit 6 is stated, then the jig unit 6 is delivered to the contraposition area 11 via first supply unit 51, then institute
First pair of bit platform 72 for stating alignment device 7 can be driven and the jig unit 6 is lifted away from described along the second axial direction Z
One supply unit 51, at this point, the taking unit 9 can carry out capture and position operation to the printed article A, and will be after operation
Message transmission is to described control unit, so that described control unit drives the alignment device 7 to carry out position to the printed article A
Correction.After the jig unit 6 and the printed article A are corrected to a predetermined printing position, second supply unit 52
The alignment device 7 Printing Zone 12 can be delivered to together with the jig unit 6 and the printed article A to print.And
After being completed for printing, second supply unit 52 can be by the alignment device 7 together with the jig unit 6 and the printed article A
It is transmitted back to the contraposition area 11, and the jig unit 6 is dropped back to first supply unit 51 again by the alignment device 7, most
Afterwards, the feed box 2 is transmitted back to by jig unit 6 described in first supply unit 51, the institute that can will be completed for printing
State printed article A taking-up.
It further illustrates, in use, the vaccum-pumping equipment can continue the vacuum tank 1 being maintained at true
Dummy status, and when the outer cover 23 of the feed box 2 is turned on so that the printed article A passes in and out the material feeding region 21, the valve
Gate cell 3 closes and completely cuts off the vacuum tank 1;And when the outer cover 23 of the feed box 2 is closed, the vaccum-pumping equipment can incite somebody to action
The material feeding region 21 conversion is to low pressure or vacuum state, and then the valve unit 3 can just be opened so that the printed article A and
Jig unit 6 passes in and out the vacuum tank 1.
Compared to prior art, the utility model vacuum printer is single by first supply unit 51, second conveying
Member 52, the alignment device 7 and the taking unit 9 match, and make the printed article A during transport and can correct automatically pair
Position to correct printing position, thus pan feeding operation is simplified, and then promote working efficiency, and various sizes of printed article can be applicable in
A, in addition, being avoided that the error manually aligned by image automatic aligning.
In addition, compared to prior art, the valve unit 3 of the utility model vacuum printer is due to be independently arranged
Without connecting with the first supply unit 51 or jig unit 6 etc., therefore airtight effect can be actually reached by modes such as pneumatic cylinders
Fruit makes the printed article A when being put into the feed box 2 and taking out, and the internal pressure of the vacuum tank 1 is unaffected, and
When act in next step, the vaccum-pumping equipment only needs to vacuumize the feed box 2, thus can improve whole effect
Rate, it is worth noting that, since its material feeding region of general vacuum printer is to align area, that is to say, that general Vacuum printing
Machine does not simultaneously have feed box, therefore is connected to Printing Zone into a biggish inner space when vacuumizing by material feeding region, and
So that vacuum is more long, efficiency is poor, therefore setting and the valve list of the utility model by the feed box 2
Member 3 can effectively completely cut off the feed box 2 and vacuum tank 1, and can greatly reduce what printed article A must be vacuumized after pan feeding and discharging
Space, and can effectively improve the efficiency integrally vacuumized.
In conclusion the utility model vacuum printer, can carry out automatic aligning to the printed article A, and can substantially mention
High working efficiency reduces human error, and can be applicable in various sizes of printed article, so can reach the mesh of the utility model really
's.
As described above, only the embodiments of the present invention, when the utility model implementation cannot be limited with this
Range, i.e., it is all according to simple equivalent changes and modifications made by the utility model claims book and description, all still belong to
The scope of the utility model.
Claims (7)
1. a kind of vacuum printer suitable for connection vaccum-pumping equipment and prints printed article, it is characterised in that:It is described true
Empty printing machine includes:
Vacuum tank is able to maintain inside in vacuum state for connecting the vaccum-pumping equipment, and the vacuum tank defines pair
Position area, and the Printing Zone of the contraposition area side is connected to and is located at along first axis;
Feed box connects the vacuum tank and defines the material feeding region for being connected to the contraposition area, and the material feeding region is along described first
It is axial opposed to be located at the other side in the contraposition area in the Printing Zone, and outside can be connected to being closed;
First supply unit is set to the material feeding region and the contraposition area along the first axis;
Second supply unit is arranged along the first axis and extends to the Printing Zone by the contraposition area, and along vertical institute
State the second axially opposing lower section positioned at first supply unit of first axis;
Jig unit is used to place for the printed article, and the jig unit can be separately disposed in first supply unit,
And it can be driven by first supply unit and be moved back and forth in the material feeding region and the contraposition section;
Alignment device, is set to second supply unit, and the alignment device includes that can be driven by second supply unit
And it is described contraposition area and it is described printing section move back and forth base station, and be set to the base station top surface and can be relative to institute
First pair of bit platform that base station carries out position correction to the printed article is stated, first pair of bit platform can be axial along described second
The jig unit is lifted away from first supply unit, and corrects the jig unit and the printed article to predetermined printing
Position;
Control unit is electrically connected the alignment device and the alignment device can be driven to be corrected the printed article;
Taking unit is controlled along the described second axial top for being located at the contraposition area and electrical connection described control unit when described
Tool unit is when being located at the contraposition area, and the taking unit can be to printed article progress capture and position operation, and by operation
Message transmission afterwards is to described control unit, so that described control unit drives the alignment device to carry out position to the printed article
Set correction;And
Printing element is set to the Printing Zone and is used to print the printed article.
2. vacuum printer according to claim 1, it is characterised in that:The vacuum printer also includes airtightly to connect
The valve unit of the feed box and the vacuum tank, the valve unit can completely cut off the feed box and the vacuum with opening
Case, the feed box are used to connect the vaccum-pumping equipment and be able to maintain inside in low-pressure state.
3. vacuum printer according to claim 1, it is characterised in that:The alignment device further includes along second axis
To second pair of bit platform being set to above the base station and below first pair of bit platform, to be set to second contraposition flat
The lifting unit of platform and connection first pair of bit platform, and be set to the base station and connect described second and bit platform is put down
Unit is moved, the lifting unit is used to drive first pair of bit platform relative to second pair of bit platform along second axis
To movement, definition and the first axis and the second axial orthogonal third are axial, and the translation unit is used to band
It moves second pair of bit platform and is moved axially relative to the base station along the first axis and the third, and for driving
Second pair of bit platform is stated relative to the base station around second axial-rotation.
4. vacuum printer according to claim 3, it is characterised in that:The lifting unit has described in multiple be fixedly arranged on
Second pair of bit platform and first pair of bit platform and can along second axial stretching telescopic rod, be set to described second pair
First screw rod of the top surface of bit platform, spiral shell be set to the first movement part of first screw rod, two be fixedly arranged on the first movement
The axial movable plate of the two opposite sides of part and parallel first screw rod multiple are set to the movable plate and can rollably lean on
It is connected to the idler wheel of second pair of bit platform, multiple pushing and pressing for being set to the movable plate and neighbouring first pair of bit platform
Wheel and the wedge block of multiple bottom surfaces for being set to first pair of bit platform, first screw rod itself is axially vertical described
Second is axial, each wedge block has to be aligned by second pair of bit platform towards described first along the axial of first screw rod
The pushing and pressing face that platform extends, the pushing and pressing face bear against the pushing and pressing wheel respectively, and first screw rod can be forced to and rotate simultaneously
Make the first movement part that the movable plate be driven to move axially along itself, so that pushing and pressing wheel is respectively at the wedge block
Pushing and pressing face is mobile.
5. vacuum printer according to claim 3, it is characterised in that:The translation unit has described in multiple be fixedly arranged on
The support rod of the top surface of base station, multiple bottoms for being set to the support bar top and bearing against second pair of bit platform ten thousand
To ball, the top surface for being set to the base station the second screw rod group, be set to second pair of bit platform bottom surface and connection institute
State the third spiral shell of the second moving part group of the second screw rod group, two top surfaces for being arranged at intervals at the base station along the first axis
Bar group, two be set to the bottom surface of second pair of bit platform and be separately connected the third moving part group of the third screw rod group,
Second screw rod group can be driven and drive the second moving part group and second pair of bit platform along the first axis
Mobile, the third screw rod group can be driven and the third moving part group is driven to move axially along the third respectively, so that
Second pair of bit platform moves axially along the third or around the described second axial rotation.
6. vacuum printer according to claim 5, it is characterised in that:Second screw rod group, which has, is set to the base
The second screw rod, the spiral shell of the top surface of platform and itself axial parallel first axis are set to the second moving member of second screw rod;
The second moving part group has can be around the described second axial articulated part for being rotationally articulated in second moving member, and setting
Bottom surface in second pair of bit platform and the sliding part that can be slided along the third axially with respect to the articulated part.
7. vacuum printer according to claim 5, it is characterised in that:Each third screw rod group is described with being set to
The third that third screw rod, the spiral shell of the top surface of base station and itself axial parallel third axial direction are set to the third screw rod is mobile
Part, each third moving part group has can be around the described second axial pivot joint for being rotationally articulated in respective third moving member
Part, and the sliding that is set to the bottom surface of second pair of bit platform and can be slided along the first axis relative to the articulated part
Part.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820496393.3U CN208133808U (en) | 2018-04-09 | 2018-04-09 | Vacuum printer |
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CN201820496393.3U CN208133808U (en) | 2018-04-09 | 2018-04-09 | Vacuum printer |
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CN208133808U true CN208133808U (en) | 2018-11-23 |
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CN201820496393.3U Expired - Fee Related CN208133808U (en) | 2018-04-09 | 2018-04-09 | Vacuum printer |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115231254A (en) * | 2022-09-26 | 2022-10-25 | 昆山晟丰精密机械有限公司 | Multi-stage telescopic loading and unloading device applied to vacuum printing |
CN115230301A (en) * | 2022-09-23 | 2022-10-25 | 昆山晟丰精密机械有限公司 | Three-bin flow sheet type vacuum printing equipment and printing method |
-
2018
- 2018-04-09 CN CN201820496393.3U patent/CN208133808U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115230301A (en) * | 2022-09-23 | 2022-10-25 | 昆山晟丰精密机械有限公司 | Three-bin flow sheet type vacuum printing equipment and printing method |
CN115230301B (en) * | 2022-09-23 | 2023-02-03 | 昆山晟丰精密机械有限公司 | Three-bin flow sheet type vacuum printing equipment and printing method |
CN115231254A (en) * | 2022-09-26 | 2022-10-25 | 昆山晟丰精密机械有限公司 | Multi-stage telescopic loading and unloading device applied to vacuum printing |
CN115231254B (en) * | 2022-09-26 | 2023-01-17 | 昆山晟丰精密机械有限公司 | Multi-stage telescopic loading and unloading device applied to vacuum printing |
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