CN208071579U - The upper sheet devices of Full-automatic glass cutting - Google Patents
The upper sheet devices of Full-automatic glass cutting Download PDFInfo
- Publication number
- CN208071579U CN208071579U CN201820329872.6U CN201820329872U CN208071579U CN 208071579 U CN208071579 U CN 208071579U CN 201820329872 U CN201820329872 U CN 201820329872U CN 208071579 U CN208071579 U CN 208071579U
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- Prior art keywords
- upper sheet
- sheet devices
- full
- glass plate
- crank
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Abstract
The utility model is related to a kind of upper sheet devices of Full-automatic glass cutting, including rack and cutting machine ontology, cutting machine ontology includes workbench, and the upper sheet devices for being carried to glass plate from shelf on workbench are provided with above workbench;Upper sheet devices include absorbent module, the anti-lost component for preventing glass plate from being inadvertently fallen off from absorbent module and the drive component for driving absorbent module and anti-lost component to be slid along rack being arranged in rack for adsorbing glass plate.When processing glass plate using this Full-automatic glass cutting, automatic sheet-feeding or bottom sheet can be realized to a certain extent, reduces intensity of workers, save human cost.
Description
Technical field
The utility model is related to the upper on chip of glass processing device field more particularly to a kind of Full-automatic glass cutting
It sets.
Background technology
Glass cutting machine is a kind of special cutting device designed for plate glass, it can be according to the practical work of user
It needs, the overall process of glass-cutting is controlled by computer, realize straight line, the abnormity cutting of plate glass, in machine
Not only geometric figure is selected for operating personnel there are many storage, and the figure made of AutoCAD can also conveniently enter
In machine, machine will be cut according to this, with a variety of optimization graphing capabilities are equipped in opportunity, realize automatic discharge cutting.
The Chinese patent that Authorization Notice No. is CN204981625U discloses a kind of Full-automatic glass cutting, including installation
Glass cut-off knife on cut-off knife seat, cut-off knife seat are hinged on the side of lead screw sliding block, and lead screw sliding block is driven straight by revolvable lead screw
Line moves, and lead screw is mounted in small driving and across plate glass, and one end of small driving is equipped with the scale that can be swung up and down
The other end of mechanism, small driving connects returning pull-spring, and sizing mechanism of reinforcing can be hooked on the traveling end face of plate glass and make small row
Vehicle slides forward together in company with plate glass;The both ends of cut-off knife seat, which are respectively equipped with, puts tool arm and cutter lifting arm, and glass cut-off knife, which is located at, to be put
Tool arm side, is equipped with tension spring between cutter lifting arm and lead screw sliding block, ratchet is fixed on cut-off knife seat, is installed on lead screw sliding block and ratchet
Compatible pawl is fixed with cut-off knife in small driving and puts down cam and cutter lifting cam gently, and cut-off knife puts down cam and cutter lifting cam difference gently
With put tool arm and cutter lifting arm is corresponding, cut-off knife puts down cam gently and cutter lifting cam can limit and put turning for tool arm and cutter lifting arm respectively
Angle makes glass cut-off knife slowly put down and lift, and pawl is fixed in small driving and touches screw, it is light that pawl shake-up screw is located at cut-off knife
Put one end of cam.
Disadvantage is that when carrying out glass-cutting using this Full-automatic glass cutting, it is especially to be processed
When the size of glass plate is larger, it usually needs at least glass plate is carried on workbench by two workers, and labor intensity is larger, is increased
Human cost.
Utility model content
The purpose of this utility model is to provide a kind of upper sheet devices of Full-automatic glass cutting, can be to a certain extent
It realizes automatic sheet-feeding or bottom sheet, reduces intensity of workers, save human cost.
The above-mentioned purpose of the utility model technical scheme is that:
A kind of upper sheet devices of Full-automatic glass cutting, including rack and cutting machine ontology, the cutting machine ontology packet
Workbench is included, is provided with above the workbench upper on chip on the workbench for glass plate to be carried to from shelf
It sets;
The upper sheet devices include being arranged in the rack for adsorbing the absorbent module of glass plate, for preventing glass
Anti-lost component that plate is inadvertently fallen off from absorbent module and for driving absorbent module and anti-lost component to be slid along rack
Drive component;
The absorbent module includes the guide plate being slidably connected in rack, and cylinder is provided on the guide plate, described
The cylinder body of cylinder is fixedly connected with the guide plate, and the end of the piston rod of the cylinder is fixedly connected with holder, the holder
Side far from the cylinder is provided with multiple vacuum cups, and multiple vacuum cups are connected with by tracheae for controlling
The vacuum cup air-breathing or the vacuum generator of deflation;
The anti-lost component includes the first driving source, toggle and kelly;
The toggle includes rotation connection crank on the bracket, one end of the crank and described the
The energy output end of one driving source is connected to drive the crank to rotate, and the both sides of the crank are equipped with connecting rod journal diameter and rotation connects
The connecting rod being connected on connecting rod journal diameter, the connecting rod journal diameter and connecting rod of both sides are with the center line symmetrical setting of crank;
The kelly is equipped with two groups, and two groups of kellies are rotatably connected on two connecting rods of toggle far from crank respectively
One end, the kelly includes cursor, is connected with the holder pivots in the middle part of the cursor, described cursor one end is equipped with
Bending part for clasping glass plate, the other end of the cursor pass through the universal connection of transmission component with the connecting rod;
The driving component includes the leading screw being rotatably connected in the rack, and sliding block is slidably connected on the leading screw,
The sliding block is fixedly connected with the guide plate, and one end of the leading screw is connected with the second driving for driving leading screw to rotate
Source.
Implement above-mentioned technical proposal, when carrying out glass-cutting using this Full-automatic glass cutting, upper piece process is as follows,
Sheet devices in startup, anti-lost component is in the open state, i.e. the first driving source drives toggle operating so that two groups of cards
Bar is opened, and then absorbent module is started to work, the piston rod driving arm and vacuum cup downward actuation of the first cylinder so that
Vacuum cup is abutted against with the glass plate on shelf, and then vacuum generator is started to work so that vacuum cup starts air-breathing simultaneously
Glass plate is adsorbed, after glass plate is secured by absorption, the piston rod of the first cylinder starts gradually to retract, and drives holder, vacuum
Sucker and by vacuum cup adsorb glass plate act upwards, while the first driving source driving toggle operating, make
Obtain crank rotated ninety degrees so that two groups of connecting rods make the action being located remotely from each other, and two groups of kellies is made to fasten and clasp glass plate
So that glass plate adsorbed more securely, glass plate reach certain altitude after, the second driving source start drive leading screw rotation, make
It obtains sliding block to slide on leading screw, and absorbent module and glass plate is driven to be acted to cutting machine ontology, when reaching above workbench,
First driving source drives toggle to operate again so that crank rotated ninety degrees again so that two groups of connecting rods are made mutual
Close action, and two groups of kellies making are opened, then piston rod driving arm, vacuum cup and the glass plate of the first cylinder
Downward actuation, after glass plate is abutted with workbench, vacuum generator is stopped so that glass plate is detached from from vacuum cup to be inhaled
Attached, then guide plate starts to reset under the reverse drive of drive component, that is, completes work.This full-automatic glass cutting
The upper sheet devices of machine, can realize automatic sheet-feeding or bottom sheet to a certain extent, reduce intensity of workers, save manpower at
This.
Further, it is provided with sliding slot in the rack, sliding compatible with the sliding slot is provided on the guide plate
Mechanism;The slipping mechanism includes the connecting shaft being arranged at the guide plate both ends, and idler wheel is rotatably connected in the connecting shaft,
The idler wheel is placed in the sliding slot.
Implement above-mentioned technical proposal, being slidably connected for realization guide plate and rack slide in sliding slot by idler wheel, simultaneously
The sliding of idler wheel scrolling realization guide plate in sliding slot so that sliding is more smooth.
Further, the sliding slot is T-slot, and the idler wheel is placed in the T-slot, and the connecting shaft is opened from the T-slot
Mouth side is stretched out.
Implement above-mentioned technical proposal, sliding slot is arranged to T-slot can be effectively prevented idler wheel to fall off from the open side of sliding slot.
Further, the transmission component includes the guide pad for the end for being rotatably connected on the kelly, is set on the holder
It is equipped with guide rail, the guide pad sliding is connected in the guide rail.
Implement above-mentioned technical proposal, pass through the limit of guide rail so that guide pad can do always straight reciprocating motion so that turns
Lateral sliding will not occur for swing arm, stable.
Further, the holder includes the lever arm for being hinged on its both ends, the other end of the lever arm and the rotation
The middle part of arm is rotatablely connected.
Implement above-mentioned technical proposal, when toggle drives cursor to be rotated around the hinge joint of itself and connecting rod, due to
The swing of lever arm so that cursor will not occur because of straight skidding by the stuck phenomenon of entire toggle so that
Entire mechanism is stable.
Further, first driving source and second driving source are respectively first motor and the second motor, and described
One motor it is horizontal installation on the bracket and by axis commutate component connect with the crank gearing, second motor it is defeated
One end of shaft and the leading screw is fixedly and coaxially connected.
Implement above-mentioned technical proposal, first motor uses horizontal installation, and by driving angular wheel and transmission conical tooth
Transmission is realized in wheel engagement so that power output is stablized;If first motor and the failure of the second motor are easily replaced.
Further, the axis commutation component includes the driving cone being fixedly and coaxially connected on the output shaft of the first motor
Shape gear and the transmission angular wheel being fixedly connected on the crank, the driving angular wheel and the transmission angular wheel
Engagement.
Implement above-mentioned technical proposal, by axis commutate component drive connection, do not have to directly by the shaft of first motor with
The crank of toggle connects, and reduces influence of the vibration of first motor to entire crank connecting link.
Further, the bending part is used to have the abutting for increasing contact area with the end set that glass plate abuts against
Piece.
Implement above-mentioned technical proposal, abutted against with glass plate by contact piece and neonychium, reduces kelly and glass plate
Pressure when abutting, with protective glass plate.
Further, neonychium is provided on the end face that the contact piece is used to abut with glass plate.
Implement above-mentioned technical proposal, when contact piece is abutted with glass plate, neonychium plays certain cushioning effect, with protection
Glass plate reduces the possibility that contact piece breaks glass plate.
In conclusion the utility model has the advantages that:
It is adsorbed by the absorbent module in upper sheet devices or puts down glass plate, it is mating to be provided with for preventing glass plate from falling
Anti-lost component, and by drive component drive motion realize carry, to a certain extent realize automatic sheet-feeding reduce work people
Member's labor intensity, saves human cost.
Description of the drawings
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, other drawings may also be obtained based on these drawings.
Fig. 1 is the overall structure diagram of the utility model embodiment;
Fig. 2 is the partial sectional view after the utility model embodiment hides cutting machine ontology;
Fig. 3 is the portions the A enlarged drawing in Fig. 2;
Fig. 4 is the first structure schematic diagram of the upper sheet devices of the utility model embodiment;
Fig. 5 is the portions the B enlarged drawing in Fig. 4;
Fig. 6 is the second structural schematic diagram of the upper sheet devices of the utility model embodiment;
Fig. 7 is the portions the C enlarged drawing in Fig. 6.
Reference numeral:1, rack;11, sliding slot;2, cutting machine ontology;21, workbench;3, upper sheet devices;31, absorption group
Part;311, guide plate;3111, slipping mechanism;31111, connecting shaft;31112, idler wheel;312, cylinder;313, holder;3131, living
Swing arm;314, vacuum cup;315, vacuum generator;316, tracheae;32, anti-lost component;321, the first driving source;322, crank
Link mechanism;3221, crank;3222, connecting rod;323, kelly;3231, cursor;3232, bending part;324, axis commutation component;
3241, angular wheel is driven;3242, it is driven angular wheel;325, transmission component;3251, guide pad;3252, guide rail;3261,
Contact piece;3262, neonychium;33, drive component;331, leading screw;332, sliding block;333, the second driving source.
Specific implementation mode
In the following detailed description, it is proposed that many details, in order to the comprehensive understanding to the utility model.But
It is, it will be apparent to those skilled in the art that the utility model can be in one in not needing these details
Implement in the case of a little details.Below the description of embodiment is used for the purpose of providing by showing the example of the utility model
The utility model is more fully understood.
Below in conjunction with attached drawing, the technical solution of the utility model embodiment is described.
Embodiment
As shown in Figure 1, a kind of upper sheet devices of Full-automatic glass cutting, including rack 1 and cutting machine ontology 2, cutting
Machine ontology 2 includes workbench 21, and 21 top of workbench is provided with for glass plate to be carried to from shelf (not shown)
Upper sheet devices 3 on workbench 21.
As shown in Fig. 2, upper sheet devices 3 include being arranged in rack 1 for adsorbing the absorbent module 31 of glass plate, for preventing
Anti-lost component 32 that only glass plate is inadvertently fallen off from absorbent module 31 and for driving absorbent module 31 and anti-lost component 32
The drive component 33 slid along rack 1.
As shown in Fig. 2, absorbent module 31 includes the guide plate 311 being slidably connected in rack 1.
In conjunction with Fig. 2 and Fig. 3, guide plate 311 is accomplished by the following way with rack 1 and is slidably connected, and cunning is provided in rack 1
Slot 11, in the present embodiment, sliding slot 11 is T-slot, and slipping mechanism 3111 compatible with sliding slot 11 is provided on guide plate 311,
Slipping mechanism 3111 includes the connecting shaft 31111 being arranged at 311 both ends of guide plate, and idler wheel is rotatably connected in connecting shaft 31111
31112, idler wheel 31112 is placed in the T-slot, and connecting shaft 31111 is stretched out from the open side of the T-slot.
It sliding slot 11 is arranged to T-slot can be effectively prevented idler wheel 31112 to fall off from the open side of sliding slot 11, idler wheel
31112 slidings of scrolling realization guide plate 311 in sliding slot 11 so that the sliding of guide plate 311 is more smooth.
As shown in figure 4, being provided with cylinder 312 on guide plate 311, the cylinder body of cylinder 312 is fixedly connected with guide plate 311,
The end of the piston rod of cylinder 312 is fixedly connected with holder 313, and side of the holder 313 far from cylinder 312 is provided with multiple vacuum
Sucker 314, in conjunction with Fig. 5, multiple vacuum cups 314 are connected with by tracheae 316 for controlling 314 air-breathing of vacuum cup or putting
The vacuum generator 315 of gas.
As shown in fig. 6, anti-lost component 32 includes the first driving source 321, toggle 322 and kelly 323.
First driving source 321 is the horizontal first motor on holder 313, it is preferable that first motor uses servo
Motor.
Toggle 322 includes being rotatably connected on crank 3221 on holder 313, in conjunction with Fig. 7, the one of crank 3221
End and the output shaft of first motor are sequentially connected by the axis component 324 that commutates to drive crank 3221 to rotate, and are commutated group by axis
The drive connection of part 324 subtracts without directly connecting the output shaft of first motor with the crank 3221 of toggle 322
Influence of the vibration of few first motor to entire toggle 322.
In conjunction with Fig. 7, wherein axis commutation component 324 includes being fixedly and coaxially connected the driving on the output shaft of first motor
Angular wheel 3241 and the transmission angular wheel 3242 being fixedly connected on crank 3221, driving angular wheel 3241 are bored with transmission
Shape gear 3242 engages.The output shaft of first motor rotates, and drives driving angular wheel 3241 thereon to rotate, drives conical tooth
3241 driving of wheel is meshed therewith is driven the rotation of angular wheel 3242, and transmission angular wheel 3242 drives crank 3221 to rotate.
The connecting rod 3222 that the both sides of crank 3221 are equipped with connecting rod journal diameter and are rotatably connected on connecting rod journal diameter, the connecting rod of both sides
The diameter of axle and connecting rod 3222 are with the center line symmetrical setting of crank 3221.
Referring to Fig. 6, kelly 323 is equipped with two groups, and two groups of kellies 323 are rotatably connected on the two of toggle 322 respectively
The one end of a connecting rod 3222 far from crank 3221, kelly 323 include cursor 3231, and 3231 middle part of cursor and holder 313 are logical
Under type such as is crossed to be rotatablely connected, holder 313 includes being hinged on the lever arm 3131 at its both ends, the other end of lever arm 3131 with turn
The middle part of swing arm 3231 is rotatablely connected, 3231 one end of cursor be equipped with bending part 3232 for clasping glass plate, the other end with
Connecting rod 3222 passes through 325 universal connection of transmission component.
Bending part 3232 is used to have the contact piece 3261 for increasing contact area with the end set that glass plate abuts against,
It is provided with neonychium 3262 on the end face that contact piece 3261 is used to abut with glass plate.Pass through contact piece 3261 and neonychium
3262 abut against with glass plate, reduce pressure when kelly 323 is abutted with glass plate, with protective glass plate, when contact piece 3261
When being abutted with glass plate, neonychium 3262 plays certain cushioning effect, with protective glass plate, reduces contact piece 3261 by glass plate
The possibility broken.
Wherein, transmission component 325 includes the guide pad 3251 for the end for being rotatably connected on kelly 323, is arranged on holder 313
There are guide rail 3252, the sliding of guide pad 3251 to be connected in guide rail 3252, passes through the limit of guide rail 3252 so that 3251 energy of guide pad
Straight reciprocating motion is done always so that lateral sliding will not occur for cursor 3231.
When toggle 322 drives cursor 3231 to be rotated around the hinge joint of itself and connecting rod 3222, due to lever arm
3131 swing so that cursor 3231 will not occur because of straight skidding by the stuck phenomenon of entire toggle 322,
So that entire mechanism is stable.
As shown in Fig. 2, drive component 33 includes the leading screw 331 being rotatably connected in rack 1, it is slidably connected on leading screw 331
There are sliding block 332, sliding block 332 to be fixedly connected with guide plate 311, one end of leading screw 331 is connected with for driving leading screw 331 to rotate
Second driving source 333, the second driving source 333 are the second motor, it is preferable that the second motor uses servo motor, the second motor
One end of output shaft and leading screw 331 is fixedly and coaxially connected.
In conclusion when carrying out glass-cutting using this Full-automatic glass cutting, upper piece process is as follows.
Sheet devices 3 in startup, anti-lost component 32 is in the open state, i.e. the first driving source 321 drives toggle
322 operatings so that two groups of kellies 323 are opened, and then absorbent module 31 is started to work, the piston rod driving branch of the first cylinder 312
314 downward actuation of frame 313 and vacuum cup so that vacuum cup 314 is abutted against with the glass plate on shelf, and then vacuum is sent out
Raw device 315 is started to work so that vacuum cup 314 starts air-breathing and adsorbs glass plate.
When glass plate by absorption securely after, the piston rod of the first cylinder 312 starts gradually to retract, and drives holder 313, true
It suction disk 314 and is acted upwards by the glass plate that vacuum cup 314 adsorbs, while the first driving source 321 drives crank connecting link
Mechanism 322 operates so that 3221 rotated ninety degrees of crank so that two groups of connecting rods 3222 make the action being located remotely from each other, and make two
Group kelly 323 fasten and clasp glass plate so that glass plate adsorbed more securely.
After glass plate reaches certain altitude, the second driving source 333 starts that leading screw 331 is driven to rotate so that sliding block 332 is in silk
It is slid on thick stick 331, and absorbent module 31 and glass plate is driven to be acted to cutting machine ontology 2.
When reaching 21 top of workbench, the first driving source 321 drives toggle 322 to operate again so that crank
3221 rotated ninety degrees again so that two groups of connecting rods 3222 make action close to each other, and two made group kelly 323 is opened, so
The piston rod driving arm 313 of first cylinder 312, vacuum cup 314 and glass plate downward actuation afterwards, when glass plate and work
After platform 21 abuts, vacuum generator 315 is stopped so that glass plate is detached from from vacuum cup 314 and adsorbs.
Then guide plate 311 starts to reset under the reverse drive of drive component 33, that is, completes work.
Above example is only to illustrate the technical solution of the utility model, rather than is carried out to the protection domain of utility model
Limitation.Obviously, described embodiment is only the utility model section Example, rather than whole embodiments.Based on these
Embodiment, the every other embodiment that those of ordinary skill in the art are obtained without creative efforts, all
Belong to the utility model scope of the claimed.
Although the utility model is described in detail with reference to above-described embodiment, those of ordinary skill in the art are still
Can it is according to circumstances mutual to the feature in various embodiments of the utility model that creative work not be made in the absence of conflict
Other adjustment are made in combination, additions and deletions, to obtain other technologies side of the different, essence without departing from the design of the utility model
Case, these technical solutions similarly belong to the utility model scope of the claimed.
Claims (9)
1. a kind of upper sheet devices of Full-automatic glass cutting, including rack (1) and cutting machine ontology (2), which is characterized in that institute
It includes workbench (21) to state cutting machine ontology (2), is provided with above the workbench (21) for removing glass plate from shelf
The upper sheet devices (3) being transported on the workbench (21);
The upper sheet devices (3) include being arranged in the rack (1) for adsorbing the absorbent module (31) of glass plate, for preventing
Anti-lost component (32) that only glass plate is inadvertently fallen off from absorbent module (31) and for driving absorbent module (31) and anti-lost
The drive component (33) that component (32) slides along rack (1);
The absorbent module (31) includes the guide plate (311) being slidably connected in rack (1), is set on the guide plate (311)
It is equipped with cylinder (312), the cylinder body of the cylinder (312) is fixedly connected with the guide plate (311), the work of the cylinder (312)
The end of stopper rod is fixedly connected with holder (313), and side of the holder (313) far from the cylinder (312) is provided with multiple
Vacuum cup (314), multiple vacuum cups (314) are connected with by tracheae (316) for controlling the vacuum cup
(314) air-breathing or the vacuum generator of deflation (315);
The anti-lost component (32) includes the first driving source (321), toggle (322) and kelly (323);
The toggle (322) includes the crank (3221) being rotatably connected on the holder (313), the crank
(3221) one end is connect with the energy output end of first driving source (321) to drive the crank (3221) to rotate, institute
State the connecting rod (3222) that the both sides of crank (3221) are equipped with connecting rod journal diameter and are rotatably connected on connecting rod journal diameter, the pitman shaft of both sides
Diameter and connecting rod (3222) are with the center line symmetrical setting of crank (3221);
The kelly (323) is equipped with two groups, and two groups of kellies (323) are rotatably connected on two of toggle (322) respectively
The one end of connecting rod (3222) far from crank (3221), the kelly (323) includes cursor (3231), the cursor (3231)
Middle part and the holder (313) rotation connection, described cursor (3231) one end are equipped with the bending part for clasping glass plate
(3232), the other end Yu the connecting rod (3222) of the cursor (3231) pass through transmission component (325) universal connection;
The driving component (33) includes the leading screw (331) being rotatably connected in the rack (1), is slided on the leading screw (331)
Dynamic to be connected with sliding block (332), the sliding block (332) is fixedly connected with the guide plate (311), one end of the leading screw (331)
It is connected with the second driving source (333) for driving leading screw (331) to rotate.
2. the upper sheet devices of Full-automatic glass cutting according to claim 1, which is characterized in that on the rack (1)
It is provided with sliding slot (11), the compatible slipping mechanism (3111) with the sliding slot (11) is provided on the guide plate (311);
The slipping mechanism (3111) includes connecting shaft (31111) of the setting at the guide plate (311) both ends, the connecting shaft
(31111) idler wheel (31112) is rotatably connected on, the idler wheel (31112) is placed in the sliding slot (11).
3. the upper sheet devices of Full-automatic glass cutting according to claim 2, which is characterized in that the sliding slot (11) is
T-slot, the idler wheel (31112) are placed in the T-slot, and the connecting shaft (31111) is stretched out from the open side of the T-slot.
4. the upper sheet devices of Full-automatic glass cutting according to claim 1, which is characterized in that the transmission component
(325) include the end for being rotatably connected on the kelly (323) guide pad (3251), be provided on the holder (313) and lead
Rail (3252), guide pad (3251) sliding are connected in the guide rail (3252).
5. the upper sheet devices of Full-automatic glass cutting according to claim 1, which is characterized in that the holder (313)
Lever arm (3131) including being hinged on its both ends, the other end of the lever arm (3131) in the cursor (3231)
Portion is rotatablely connected.
6. the upper sheet devices of Full-automatic glass cutting according to claim 1, which is characterized in that first driving source
(321) and second driving source (333) is respectively first motor and the second motor, and the first motor is horizontal mounted on described
It is sequentially connected on holder (313) and by axis commutation component (324) and the crank (3221), the output shaft of second motor
It is fixedly and coaxially connected with one end of the leading screw (331).
7. the upper sheet devices of Full-automatic glass cutting according to claim 6, which is characterized in that the axis commutation component
(324) include the driving angular wheel (3241) being fixedly and coaxially connected on the output shaft of the first motor and be fixedly connected on
Transmission angular wheel (3242) on the crank (3221), the driving angular wheel (3241) and the transmission angular wheel
(3242) it engages.
8. the upper sheet devices of Full-automatic glass cutting according to claim 1, which is characterized in that the bending part
(3232) it is used to have the contact piece (3261) for increasing contact area with the end set that glass plate abuts against.
9. the upper sheet devices of Full-automatic glass cutting according to claim 8, which is characterized in that the contact piece
(3261) it is provided with neonychium (3262) on the end face for being used to abut with glass plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820329872.6U CN208071579U (en) | 2018-03-10 | 2018-03-10 | The upper sheet devices of Full-automatic glass cutting |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820329872.6U CN208071579U (en) | 2018-03-10 | 2018-03-10 | The upper sheet devices of Full-automatic glass cutting |
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Publication Number | Publication Date |
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CN208071579U true CN208071579U (en) | 2018-11-09 |
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ID=64039944
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CN201820329872.6U Expired - Fee Related CN208071579U (en) | 2018-03-10 | 2018-03-10 | The upper sheet devices of Full-automatic glass cutting |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110407451A (en) * | 2019-07-12 | 2019-11-05 | 大族激光科技产业集团股份有限公司 | A kind of glass-cutting microscope carrier and its application method |
CN110862225A (en) * | 2019-12-14 | 2020-03-06 | 赵增瑞 | Automatic glass cutting device |
-
2018
- 2018-03-10 CN CN201820329872.6U patent/CN208071579U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110407451A (en) * | 2019-07-12 | 2019-11-05 | 大族激光科技产业集团股份有限公司 | A kind of glass-cutting microscope carrier and its application method |
CN110407451B (en) * | 2019-07-12 | 2022-08-09 | 大族激光科技产业集团股份有限公司 | Glass cutting carrying platform and using method thereof |
CN110862225A (en) * | 2019-12-14 | 2020-03-06 | 赵增瑞 | Automatic glass cutting device |
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