CN207020096U - A kind of sheet glass assembling subsystem of automatic package system - Google Patents
A kind of sheet glass assembling subsystem of automatic package system Download PDFInfo
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- CN207020096U CN207020096U CN201721013116.4U CN201721013116U CN207020096U CN 207020096 U CN207020096 U CN 207020096U CN 201721013116 U CN201721013116 U CN 201721013116U CN 207020096 U CN207020096 U CN 207020096U
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Abstract
The utility model discloses a kind of sheet glass of automatic package system to assemble subsystem, including sheet glass, in addition to sheet glass supply unit, including sheet glass vibration component and sheet glass conveying mechanism;Sheet glass detection unit, including sheet glass detection components and sheet glass push component;Sheet glass screening unit, in addition to rotate horizontally component, vertical upset component and push component.The beneficial effects of the utility model:A kind of sheet glass assembling subsystem of automatic package system provided by the utility model, when by provided with sheet glass detection unit, the positive and negative of sheet glass can be detected;Second, by provided with sheet glass screening unit, the sheet glass after detection can be adjusted, the sheet glass being adjusted under the state of meeting the requirements, afterwards into workbench, hence into the assembling that next step is carried out in next assembling subsystem, improve production efficiency.
Description
Technical field
It the utility model is related to the technical field assembled automatically, more particularly to a kind of sheet glass assembling of automatic package system
Subsystem.
Background technology
Recently as the development of science and technology, anti-explosion digital thermometer is one of temperature measuring device type, according to
The difference of thermometric substance used and the difference of temperature-measuring range, there is kerosene thermometer, alcohol thermometer, mercurial thermometer, gas temperature
Spend meter, resistance thermometer, thermoelectric thermometer, radiation thermometer and flash ranging thermometer, bimetallic thermometer etc., digital temperature
Meter can accurately judge and measurement temperature, and with numerical monitor, and non-pointer or mercury are shown, therefore claims digital thermometer or numeral
Round-the-clock collection and communication under thermometer, its field for being adapted to that external power can not be provided or adverse circumstances, meet corrosivity, impact
Property, the premise temperature such as vibrations show, meet laboratory and industry spot high precision collecting demand, substitute conventional cursor thermometer,
Normal thermometer can be done.And anti-explosion digital thermometer product explosion-resistant enclosure is formed using the aluminum alloy casing die casting of high intensity,
Inside uses import high accuracy, Low Drift Temperature, ultra-low power consumption integrated circuit and super large LCDs, makes temperature display more directly perceived,
Apparent five-digit numbers code, which is shown, makes measurement display precision higher, and the anti-explosion digital thermometer on open market includes front casing, glass
Glass piece, internal electronic element and rear casing, and it is low in the presence of the efficiency of production in process of production, it is necessary to spend a large amount of artificial
And the time come complete whole completed assembled the problem of.
Utility model content
The purpose of this part is some aspects for summarizing embodiment of the present utility model and briefly to introduce some preferable
Embodiment.It may do a little simplified or be omitted to keep away in this part and the description of the present application summary and utility model title
The purpose for exempting to make this part, specification digest and utility model title obscures, and this simplification or omission cannot be used for limitation originally
The scope of utility model.
In view of the problem of sheet glass assembling subsystem of above-mentioned existing automatic package system is present, it is proposed that this practicality is new
Type.
Therefore, the utility model purpose is to provide a kind of sheet glass assembling subsystem of automatic package system, can be in glass
The state of sheet glass is automatically detected in the automatic package system of glass piece, adjusted by the screening effect of automatic screening unit
To fall into workbench after match state, hence into next assembling subsystem.
The beneficial effects of the utility model:A kind of sheet glass assembling subsystem of automatic package system provided by the utility model
System, when by provided with sheet glass detection unit, the positive and negative of sheet glass can be detected;Second, by provided with sheet glass sieve
Menu member, can be adjusted, the sheet glass being adjusted under the state of meeting the requirements to the sheet glass after detection, afterwards into work
Make platform, hence into the assembling that next step is carried out in next assembling subsystem, improve production efficiency.
Brief description of the drawings
It is required in being described below to embodiment in order to illustrate more clearly of the technical scheme of the utility model embodiment
The accompanying drawing used is briefly described, it should be apparent that, drawings in the following description are only some implementations of the present utility model
Example, for those of ordinary skill in the art, without having to pay creative labor, can also be according to these accompanying drawings
Obtain other accompanying drawings.Wherein:
Fig. 1 show the whole of the sheet glass assembling subsystem of automatic package system described in the utility model the first embodiment
Body structural representation.
Fig. 2 show glass in the sheet glass assembling subsystem of automatic package system described in the utility model the first embodiment
The overall structure diagram of glass piece.
Fig. 3 show glass in the sheet glass assembling subsystem of automatic package system described in second of embodiment of the utility model
The structural representation of glass piece conveying mechanism.
Fig. 4 show glass in the sheet glass assembling subsystem of automatic package system described in second of embodiment of the utility model
Glass piece pushes the structural representation of component.
Fig. 5 show in the sheet glass assembling subsystem of automatic package system described in the utility model the third embodiment and examined
Survey the structural representation of component.
Fig. 6 show Fig. 5 sectional view.
Fig. 7 show glass in the sheet glass assembling subsystem of automatic package system described in the 4th kind of embodiment of the utility model
The overall structure diagram of glass piece screening unit.
Fig. 8 show glass in the sheet glass assembling subsystem of automatic package system described in the 4th kind of embodiment of the utility model
The partial enlargement structural representation of glass piece screening unit.
Fig. 9 is the overall structure diagram in the utility model conveying assembly another embodiment.
Figure 10 is put for the overall structure left view schematic diagram in the utility model conveying assembly another embodiment and part
Big schematic diagram.
Figure 11 is that the overall structure of first scraping wings in the utility model conveying assembly another embodiment is shown
Intention and close-up schematic view.
Figure 12 is the overall structure signal of the first transmission parts described in the utility model conveying assembly another embodiment
Figure and close-up schematic view.
Figure 13 is the overall structure main view of the first transmission parts described in the utility model conveying assembly another embodiment
Schematic diagram.
Figure 14 is the overall structure signal of first scraping wings in a kind of embodiment of the utility model conveying assembly
Figure and close-up schematic view.
Figure 15 is the overall structure signal of first pushing piece in a kind of embodiment of the utility model conveying assembly
Figure and close-up schematic view.
Figure 16 is the overall structure diagram that the utility model assembles the blanking component in a kind of embodiment of device.
Figure 17 is the overall structure diagram in a kind of the utility model assembling embodiment of device.
Figure 18 is the overall applicability structural representation that the utility model is applied to automatic package system.
Embodiment
It is attached with reference to specification to enable above-mentioned purpose of the present utility model, feature and advantage more obvious understandable
Figure is described in detail to specific embodiment of the present utility model.
Many details are elaborated in the following description in order to fully understand the utility model, but this practicality is new
Type can also be different from other manner described here using other to be implemented, and those skilled in the art can be without prejudice to this reality
With doing similar popularization in the case of new intension, therefore the utility model is not limited by following public specific embodiment.
Secondly, " one embodiment " or " embodiment " referred to herein refers to may be included at least one reality of the utility model
Special characteristic, structure or characteristic in existing mode." in one embodiment " that different places occur in this manual is not
Same embodiment is referred both to, nor the single or selective embodiment mutually exclusive with other embodiment.
Embodiment 1:
The sheet glass of automatic package system assembles subsystem as described in Fig. 1~2 show the utility model the first embodiment
The structural representation of system, in order to carry out automatic detection identification to sheet glass X, and it is adjusted to undesirable, in this reality
Apply in example, sheet glass X is the slide of the cake shape made of glass, and one layer is posted on the upper surface both sides of slide not
Transparent film, and the film is not pasted in the centre position of slide, forms a square display module, the display module can be shown
The temperature of anti-explosion digital thermometer measure, therefore it can be detected by the opaque coating posted, distinguish its positive and negative;
And the subsystem also includes sheet glass supply unit 300, sheet glass detection unit 400 and sheet glass screening unit 500, glass
Sheet glass X is delivered to after sheet glass detection unit 400 is detected and pushes to sheet glass screening unit by piece supply unit 300
In 500, by carrying out the upset on vertical direction in sheet glass screening unit 500, so as to adjust it as the state that meets the requirements
Under sheet glass X, the rotation on by level is transported on workbench, and workbench herein is with some works
The turntable of position, into next assembling subsystem, specifically, sheet glass supply unit 300 also includes sheet glass vibration component
301 and sheet glass conveying mechanism 302, sheet glass vibration component 301 is vibrating barrel in the present embodiment, by the sheet glass X in it
It is delivered to by way of vibration on sheet glass conveying mechanism 302;And sheet glass conveying mechanism 302 and sheet glass detection unit
400 connect relatively, and sheet glass detection unit 400 also includes sheet glass detection components 401 and sheet glass push component 402, sheet glass
The sheet glass that push component 402 will stay on conveying mechanism 302, which pushes to, carries out positive and negative in sheet glass detection components 401
Detection, detection components 401 are docked with sheet glass screening unit 500, after the completion of detection components 401 detect sheet glass X again
Pushed it into by sheet glass push component 402 and upset adjustment is carried out in sheet glass screening unit 500;Sheet glass screening unit 500
Also include rotating horizontally component 501, vertical upset component 502 and push component 503, rotate horizontally component 501 and surround in rotating disk
The heart rotates, and vertical upset component 502 is symmetricly set in the both ends for rotating horizontally component 501 centered on center of turntable;Glass
Piece pushes component and pushes to the sheet glass X after the completion of detection in vertical upset component 502, by overturning component 502 vertically
Upset screening obtains the sheet glass X under the state of meeting the requirements;The band of component 502 will be overturn vertically by rotating horizontally the rotation of component 501
Fallen to above workbench, pushing component 503 and pushing sheet glass X on workbench, during detecting herein, if inspection
Measure and meet the requirements, then upset component 502 is not overturn vertically, rotates horizontally the rotation in the occurred level direction of component 501, if detection
Go out it is undesirable, then vertically upset component 502 first overturn, by sheet glass X overturn after, horizontal rotation component 501 occur
The rotation of horizontal direction, the sheet glass X after adjustment is brought to workbench top and dropped.
Embodiment 2:
The sheet glass for automatic package system described in second of embodiment of the utility model assembles subsystem as shown in figs. 34
The structural representation of system, in order to by the sheet glass X of sheet glass conveying mechanism 302 it is spacing after, it is single to be accurately pushed into sheet glass detection
In member 400, it is in the present embodiment with the first embodiment difference:Sheet glass conveying mechanism 302 also includes sheet glass
Delivery track 302a, limiting plate 302b and push opening 302c and, sheet glass push component 402 also include the first sheet glass
Component 402a and the second sheet glass push component 402b are pushed, specifically, sheet glass X is the saturating of the cake shape made of glass
Bright, one layer of opaque film is posted on the upper surface both sides of slide, and the film is not pasted in the centre position of slide, is formed
One square display module, the display module can show the temperature of anti-explosion digital thermometer measure, therefore can pass through patch
Some opaque coatings detect to it, distinguish its positive and negative;And the subsystem also includes sheet glass supply unit 300, glass
Sheet glass X is delivered to sheet glass and detected by piece detection unit 400 and sheet glass screening unit 500, sheet glass supply unit 300
Unit 400 is pushed to after being detected in sheet glass screening unit 500, vertical by being carried out in sheet glass screening unit 500
Upset on direction, it is sheet glass X under the state of meeting the requirements so as to adjust it, the rotation on by level is transported to
On workbench, into next assembling subsystem, specifically, sheet glass supply unit 300 also includes sheet glass vibration component
301 and sheet glass conveying mechanism 302, sheet glass vibration component 301 is vibrating barrel in the present embodiment, by the sheet glass X in it
It is delivered to by way of vibration on sheet glass conveying mechanism 302;In the present embodiment, wherein:Sheet glass conveying mechanism 302 is also
Including sheet glass delivery track 302a, limiting plate 302b and push opening 302c, further, sheet glass delivery track 302a rises
Top is connected with sheet glass vibration component 301, and its end is provided with limiting plate 302b, and sheet glass delivery track 302a is conveyed
The spacing positions at limiting plate 302b of sheet glass X, and on the orbit sidewall of sheet glass delivery track 302a ends both sides
It is provided with the push opening 302c vertical with limiting plate 302b, push opening 302c size is straight with sheet glass X circular pieces
Footpath size is identical, and sheet glass X can be pushed component 402 by push opening 302c push-in sheet glass detection unit 400 by sheet glass
In detected;Push opening 302c is relative with sheet glass detection unit 400 to be connect, and sheet glass detection unit 400 also includes glass
Piece detection components 401 and sheet glass push component 402, the glass that sheet glass push component 402 will stay on conveying mechanism 302
Piece pushes in sheet glass detection components 401 detection for carrying out positive and negative, and detection components 401 and sheet glass screening unit 500 are right
Connect, sheet glass screening is pushed it into by sheet glass push component 402 again after the completion of detection components 401 detect sheet glass X
Upset adjustment is carried out in unit 500;Further, in the present embodiment also one with the first embodiment difference:Glass
Glass piece push component 402 also includes the first sheet glass push component 402a and the second sheet glass push component 402b, the first glass
The sheet glass X push that piece push component 402a will be delivered at limiting plate 302b, which is put into detection components 401, to be detected, and second
Sheet glass pushes component 402b and releases the sheet glass X after detection is completed in detection components 401;And first sheet glass push component
402a also includes being arranged at the first sheet glass pushing plate 402a-1 at push opening 302c, the first sheet glass pushing plate
402a-1 enters from push opening 302c one end, and the sheet glass X at limiting plate 302b is open into 302c's by pushing
The other end is released, and pushes opening 302c other end docking sheet glass detection unit 400, and with the first sheet glass pushing plate
The first sheet glass drive device 402a-2 that 402a-1 is connected;Second sheet glass push component 402b is also described including being arranged at
Second sheet glass pushing plate 402b-1 of the top of detection components 401 and be connected with the second sheet glass pushing plate 402b-1 the
Two sheet glass drive device 402b-2, and the first sheet glass drive device 402a-2 and the second sheet glass drive device 402b-2 exist
It is power set, preferably cylinder in the present embodiment;Sheet glass screening unit 500 also includes rotating horizontally component 501, vertical upset
Component 502 rotates with component 503, horizontal rotation component 501 is pushed around center of turntable, and vertical upset component 502 is with rotating disk
The both ends for rotating horizontally component 501 are symmetricly set in centered on center;Sheet glass pushes component by the sheet glass X after the completion of detection
Push in vertical upset component 502, the glass under the state of meeting the requirements is obtained by the upset screening for overturning component 502 vertically
Piece X;Rotating horizontally the rotation of component 501 will overturn above the band of component 502 to workbench vertically, push component 503 by glass
Piece X, which is pushed, to be fallen on workbench, vertical to overturn component 502 not if detecting to meet the requirements during detecting herein
Upset, rotates horizontally the rotation in component 501 occurred level direction, if detect it is undesirable, it is vertical to overturn component 502 first
Overturn, after sheet glass X is overturn, the rotation in the occurred level direction of component 501 is rotated horizontally, by the sheet glass X after adjustment
Dropped above band to workbench.
Embodiment 3:
The sheet glass of automatic package system assembles subsystem as described in Fig. 5~6 show the utility model the third embodiment
The structural representation of system, in order to more accurately detect sheet glass X positive and negative, in the present embodiment with second of embodiment
Difference is:Detection components 401 also include arc bend 403, light source component 404 and light sensing component 405, specifically,
Sheet glass X is the slide of the cake shape made of glass, posted on the upper surface both sides of slide one layer it is opaque
Film, and the film is not pasted in the centre position of slide, forms a square display module, the display module can show explosion-proof number
The temperature of word thermometer measure, therefore it can be detected by the opaque coating posted, distinguish its positive and negative;And the son
System also includes sheet glass supply unit 300, sheet glass detection unit 400 and sheet glass screening unit 500, sheet glass conveying
Sheet glass X is delivered to after sheet glass detection unit 400 is detected and pushed in sheet glass screening unit 500 by unit 300, leads to
The upset carried out in sheet glass screening unit 500 on vertical direction is crossed, is glass under the state of meeting the requirements so as to adjust it
Piece X, the rotation on by level are transported on workbench, into next assembling subsystem, specifically, sheet glass
Supply unit 300 also includes sheet glass vibration component 301 and sheet glass conveying mechanism 302, and sheet glass vibration component 301 is in this reality
It is vibrating barrel to apply in example, and the sheet glass X in it is delivered to by way of vibration on sheet glass conveying mechanism 302;In this reality
Apply in example, wherein:Sheet glass conveying mechanism 302 also includes sheet glass delivery track 302a, limiting plate 302b and push opening
302c, further, sheet glass delivery track 302a initiating terminals are connected with sheet glass vibration component 301, and the setting of its end is limited
Position plate 302b, the spacing positions at limiting plate 302b of sheet glass X conveyed to sheet glass delivery track 302a, and sheet glass
The push opening 302c vertical with limiting plate 302b is provided with the orbit sidewall of delivery track 302a ends both sides, the push is opened
Mouth 302c size is identical with the diameter of sheet glass X circular pieces, and sheet glass X can be pushed component 402 by pushing away by sheet glass
Send in opening 302c push-in sheet glass detection unit 400 and detected;Push opening 302c is relative with sheet glass detection unit 400
Connect, sheet glass detection unit 400 also includes sheet glass detection components 401 and sheet glass push component 402, sheet glass push component
402 sheet glass that will stay on conveying mechanism 302 push in sheet glass detection components 401 detection for carrying out positive and negative, inspection
Survey component 401 to dock with sheet glass screening unit 500, again by sheet glass after the completion of detection components 401 detect sheet glass X
Push component 402, which pushes it into, carries out upset adjustment in sheet glass screening unit 500;Sheet glass push component 402 also includes the
One sheet glass pushes component 402a and the second sheet glass push component 402b, and the first sheet glass push component 402a will be delivered to limit
Sheet glass X push at the plate 302b of position, which is put into detection components 401, to be detected, and the second sheet glass push component 402b will be detected
The sheet glass X after detection is completed in component 401 to release;And first sheet glass push component 402a also include being arranged at push opening
The first sheet glass pushing plate 402a-1 at 302c, the first sheet glass pushing plate 402a-1 enter from push opening 302c one end
Enter, the sheet glass X at limiting plate 302b is released by pushing the other end for the 302c that is open, and push the another of opening 302c
One end docking sheet glass detection unit 400, and the first sheet glass driving being connected with the first sheet glass pushing plate 402a-1
Device 402a-2;Second sheet glass push component 402b also includes the second sheet glass for being arranged at the top of detection components 401
Pushing plate 402b-1 and the second sheet glass drive device 402b-2 being connected with the second sheet glass pushing plate 402b-1, and the
One sheet glass drive device 402a-2 and the second sheet glass drive device 402b-2 is power set, preferably gas in the present embodiment
Cylinder;In the present embodiment,
Wherein:Detection components 401 also include arc bend 403, light source component 404 and light sensing component 405, sheet glass inspection
Survey component 401 is cube structure, and it is arranged at push opening 302c side, and sheet glass detection components 401 are opened close to push
It is provided with detection entrance 401a, the detection entrance 401a on mouth 302c side to dock with push opening 302c, sheet glass X can
Entered by push opening 302c in detection entrance 401a, and a passage is dug out along detection entrance 401a is parallel into cube structure
401b, passage 401b channel width are corresponding with sheet glass X diameter, have the function that to be oriented to conveying, passage to sheet glass X
401b, which is extended on adjacent side, sets detection outlet 401c, and the upper surface of sheet glass detection components 401 is provided with and led to
The chute 401d of road 401b connections, chute 401d one end is docked with the second sheet glass pushing plate 402b-1, and the second sheet glass
Pushing plate 402b-1 by the second sheet glass drive device 402b-2 drive after can be slided in chute 401d, and passage 401b with
Chute 401d is connected, and the second sheet glass pushing plate 402b-1 and sheet glass X is contradicted, so as to promote sheet glass X passage 401b's
Slide;Arc bend 403 is additionally provided with passage 402, the radian of this arc bend 403 is equal with sheet glass X circular arc, therefore
After sheet glass X is pushed in passage 401b by the first sheet glass pushing plate 402a-1, arc bend 403 is rested on, it is because arc
Spend equal, be bonded with its edge, and the top of arc bend 403 has along its radian direction and some light source components 404 that be arranged in parallel,
The light source component 404 equally has the radian same with arc bend 403, and the coverage rate of formation is the four of the sheet glass X area of a circle
/ mono-, it can all include opaque film because sheet glass X any a quarter goes out, therefore when sheet glass X is located at some light
During the lower section of source part 404, some light source components 404 can be irradiated on sheet glass X a quarter area, and close to the light source
On the adjacent two sides of part 404 set light sensing component 405, if when sheet glass X for post opaque coating it is face-up when, just have
The light that light source component 404 is irradiated can not be penetrated, and light source would not be sensed by being arranged at both sides light sensing component 405, Ruo Ruodangbo
Glass piece X for post opaque coating it is face-down when, light source component 404 irradiate light will all penetrate, there will be no light sensing component 405
Light source is can't detect, so as to detect sheet glass X state, the second sheet glass pushing plate after detection has judged by such a mode
402b-1 pushes to sheet glass X in sheet glass screening unit 500;Sheet glass screening unit 500 also includes rotating horizontally component
501st, component 502 is overturn vertically and pushes component 503, is rotated horizontally component 501 and is rotated around center of turntable, and upset group vertically
Part 502 is symmetricly set in the both ends for rotating horizontally component 501 centered on center of turntable;Sheet glass, which pushes component, will detect completion
Sheet glass X afterwards is pushed in vertical upset component 502, and the upset by overturning component 502 vertically, which is screened, to be met the requirements
Sheet glass X under state;Rotating horizontally the rotation of component 501 will overturn above the band of component 502 to workbench vertically, push group
Sheet glass X is pushed and fallen on workbench by part 503, during detecting herein, if detecting to meet the requirements, is turned over vertically
Turn component 502 not overturn, rotate horizontally the rotation in component 501 occurred level direction, if detecting undesirable, turn over vertically
Turn component 502 first to overturn, after sheet glass X is overturn, rotate horizontally the rotation in the occurred level direction of component 501, will adjust
Sheet glass X afterwards, which is brought to workbench top, to drop.
Embodiment 4:
The sheet glass assembling subsystem of automatic package system as described in Fig. 7~8 show the 4th kind of embodiment of the utility model
The structural representation of system, in order to which undesirable sheet glass X is overturn after to judgement, in the present embodiment with the third
Embodiment difference is:Rotating horizontally component 501 also includes horizontal rotating disc 501a and extension 501b;Vertical upset group
Part 502 also includes roll-over table 502a;Pushing component 503 also includes the lower lock block 503a of column structure, specifically, sheet glass X is
The slide of cake shape made of glass, one layer of opaque film is posted on the upper surface both sides of slide, and it is transparent
The film is not pasted in the centre position of piece, forms a square display module, and the display module can show anti-explosion digital thermometer
The temperature of measurement, therefore it can be detected by the opaque coating posted, distinguish its positive and negative;And the subsystem also wraps
Include sheet glass supply unit 300, sheet glass detection unit 400 and sheet glass screening unit 500, sheet glass supply unit 300
Sheet glass X is delivered to after sheet glass detection unit 400 is detected and pushed in sheet glass screening unit 500, by glass
The upset on vertical direction is carried out in glass piece screening unit 500, is sheet glass X under the state of meeting the requirements so as to adjust it,
It is transported to by the rotation in level on workbench, into next assembling subsystem, specifically, sheet glass conveying is single
Member 300 also includes sheet glass vibration component 301 and sheet glass conveying mechanism 302, and sheet glass vibration component 301 is in the present embodiment
For vibrating barrel, the sheet glass X in it is delivered to by way of vibration on sheet glass conveying mechanism 302;In the present embodiment,
Wherein:Sheet glass conveying mechanism 302 also includes sheet glass delivery track 302a, limiting plate 302b and push opening 302c, enters
One step, sheet glass delivery track 302a initiating terminals are connected with sheet glass vibration component 301, and its end is provided with limiting plate
302b, to the spacing positions at limiting plate 302b of sheet glass X of sheet glass delivery track 302a conveyings, and sheet glass conveys
The push opening 302c vertical with limiting plate 302b, the push opening are provided with the orbit sidewall of track 302a ends both sides
302c size is identical with the diameter of sheet glass X circular pieces, and sheet glass X can be pushed component 402 by pushing by sheet glass
Detected in opening 302c push-in sheet glass detection unit 400;Push opening 302c is relative with sheet glass detection unit 400
Connect, sheet glass detection unit 400 also includes sheet glass detection components 401 and sheet glass push component 402, sheet glass push component
402 sheet glass that will stay on conveying mechanism 302 push in sheet glass detection components 401 detection for carrying out positive and negative, inspection
Survey component 401 to dock with sheet glass screening unit 500, again by sheet glass after the completion of detection components 401 detect sheet glass X
Push component 402, which pushes it into, carries out upset adjustment in sheet glass screening unit 500;Sheet glass push component 402 also includes the
One sheet glass pushes component 402a and the second sheet glass push component 402b, and the first sheet glass push component 402a will be delivered to limit
Sheet glass X push at the plate 302b of position, which is put into detection components 401, to be detected, and the second sheet glass push component 402b will be detected
The sheet glass X after detection is completed in component 401 to release;And first sheet glass push component 402a also include being arranged at push opening
The first sheet glass pushing plate 402a-1 at 302c, the first sheet glass pushing plate 402a-1 enter from push opening 302c one end
Enter, the sheet glass X at limiting plate 302b is released by pushing the other end for the 302c that is open, and push the another of opening 302c
One end docking sheet glass detection unit 400, and the first sheet glass driving being connected with the first sheet glass pushing plate 402a-1
Device 402a-2;Second sheet glass push component 402b also includes the second sheet glass for being arranged at the top of detection components 401
Pushing plate 402b-1 and the second sheet glass drive device 402b-2 being connected with the second sheet glass pushing plate 402b-1, and the
One sheet glass drive device 402a-2 and the second sheet glass drive device 402b-2 is power set, preferably gas in the present embodiment
Cylinder;Detection components 401 also include arc bend 403, light source component 404 and light sensing component 405, sheet glass detection components 401
For cube structure, it is arranged at push opening 302c side, and sheet glass detection components 401 are close to push opening 302c side
It is provided with detection entrance 401a, the detection entrance 401a on face to dock with push opening 302c, sheet glass X can be open by push
302c enters in detection entrance 401a, and digs out a passage 401b, passage along detection entrance 401a is parallel into cube structure
401b channel width is corresponding with sheet glass X diameter, has the function that to be oriented to conveying to sheet glass X, passage 401b is extended to
Detection outlet 401c is set on adjacent side, and the upper surface of sheet glass detection components 401 is provided with and connected with passage 401b
Chute 401d, chute 401d one end is docked with the second sheet glass pushing plate 402b-1, and the second sheet glass pushing plate 402b-
1 can be slided after second sheet glass drive device 402b-2 drivings in chute 401d, and passage 401b and chute 401d connects
Logical, the second sheet glass pushing plate 402b-1 and sheet glass X is contradicted, so as to promote slips of the sheet glass X in passage 401b;Passage
Arc bend 403 is additionally provided with 402, the radian of this arc bend 403 is equal with sheet glass X circular arc, therefore sheet glass X quilts
After first sheet glass pushing plate 402a-1 is pushed in passage 401b, rest on arc bend 403, itself because radian is equal, with
Its edge is bonded, and the top of arc bend 403 has along its radian direction and some light source components 404 that be arranged in parallel, the light source component
404 equally have the radian same with arc bend 403, and the coverage rate of formation is a quarter of the sheet glass X area of a circle, because
Sheet glass X any a quarter, which goes out, can all include opaque film, therefore when sheet glass X is located at some light source components 404
During lower section, some light source components 404 can be irradiated on sheet glass X a quarter area, and adjacent close to the light source component 404
Two sides on set light sensing component 405, if when sheet glass X for post opaque coating it is face-up when, just have light source component 404
The light of irradiation can not be penetrated, and light source would not be sensed by being arranged at both sides light sensing component 405, if if when sheet glass X is patch
When having opaque coating face-down, the light that light source component 404 is irradiated will be penetrated all, and there will be no light sensing component 405 can't detect
Light source, so as to detect sheet glass X state by such a mode, detection has judged rear second sheet glass pushing plate 402b-1 by glass
Glass piece X is pushed in sheet glass screening unit 500;Sheet glass screening unit 500 also includes rotating horizontally component 501, turned over vertically
Turn component 502 and push component 503, rotate horizontally component 501 and rotated around center of turntable, and overturn component 502 vertically to turn
The both ends for rotating horizontally component 501 are symmetricly set in centered on disk center;Sheet glass pushes component by the glass after the completion of detection
Piece X is pushed in vertical upset component 502, is obtained by the upset screening for overturning component 502 vertically under the state of meeting the requirements
Sheet glass X;Rotating horizontally the rotation of component 501 will overturn above the band of component 502 to workbench vertically, and pushing component 503 will
Sheet glass X, which is pushed, to be fallen on workbench, vertical to overturn component if detecting to meet the requirements during detecting herein
502 do not overturn, and rotate horizontally the rotation in the occurred level direction of component 501, if detecting undesirable, vertical upset component
502 first overturn, and after sheet glass X is overturn, the rotation in the occurred level direction of component 501 are rotated horizontally, by the glass after adjustment
Glass piece X, which is brought to workbench top, to drop;In the present embodiment,
Wherein:Rotating horizontally component 501 also includes horizontal rotating disc 501a and extension 501b, and horizontal rotating disc 501a's turns
Disk center is provided with the 3rd sheet glass drive device 501a-1 and drives its rotation, and extension 501b is arranged at horizontal rotating disc 501a
On relative side, and it is centrosymmetric setting on center of turntable, the 3rd sheet glass drive device 501a-1 drivings are horizontal to be turned
When disk 501a is rotated, synchronous rotation occurs for extension 501b, and vertical upset component 502 also includes roll-over table 502a, its with
Extension 501b connections, are provided with the 4th sheet glass drive device 501b-1 on extension 501b, in this embodiment, the 3rd glass
Piece drive device 501a-1 and the 4th preferred motors of sheet glass drive device 501b-1, roll-over table 502a and the 4th sheet glass drive
Dynamic device 501b-1 machine shaft connection, the 4th sheet glass drive device 501b-1 driving roll-over table 502a in the vertical directions
Upset, as the sheet glass X for detecting to fall short of specifications, is carried out the upset of vertical direction;And roll-over table 502a and detection
Second entrance 502a-1 is provided with side relative outlet 401c, is pushed after sheet glass X completes to detect by the second sheet glass
Plate 402b-1 is pushed into second entrance 502a-1 by detection outlet 401c, and roll-over table 502a centre is provided with sheet glass and fallen
Fall a mouthful 502a-2, second entrance 502a-1 and sheet glass mouthful 502a-2 that drops are connected, sheet glass drop mouthful 502a-2 upper surfaces with
Second entrance 502a-1 connectivity parts are additionally provided with push pedal opening 502a-4, push pedal opening 502a-4 and the second sheet glass pushing plate
402b-1 is corresponding, and sheet glass X push-in sheet glass is dropped and is clamped in mouthful 502a-2, therefore pushes to second entrance 502a-1's
Sheet glass X can fall into sheet glass and drop in mouthful 502a-2, in the present embodiment sheet glass drop mouthful 502a-2 edge of opening on also
Elastic clamping pieces 502a-3 is set, and elastic clamping pieces 502a-3 preferred rubber materials are made, and sheet glass X is clamped in glass by it
Piece drops in mouthful 502a-2, does not allow it to fall down, so as to driving horizontal rotating disc 501a rotation, by sheet glass X rotate horizontally to
The top of workbench, pushed by pushing component 503 and dropped, and pushing component 503 also includes the lower lock block of column structure
503a, lower lock block 503a are connected with the 5th sheet glass drive device 503b, and it drives lower lock block 503a to move downwardly to glass
Piece is dropped in mouthful 502a-2, and at this moment lower lock block 503a pushes sheet glass X, and because it is under pressure, clamping glass piece X edges are set
Elastic clamping pieces 502a-3 will deform upon, so as to sheet glass X be pushed on the station of the workbench that drops.
9~Figure 13 of reference picture, the one embodiment provided for the utility model conveying assembly 600, reference picture 9, the reality
Applying its main body in example includes the first pushing piece 610 and the first transmission parts 620, and first pushing piece 610 includes the first scraping wings
611, include the first rack 611a on the first scraping wings 611, and the first rack 611a is the incline direction court of positive helical teeth, i.e. rack
It is right.
Reference picture 10~12, the first transmission parts 620 include object storage component 621 and driving member 622, and driving member 622 includes first
Gear 622a and second gear 622b, and first gear 622a and second gear 622b are mutually perpendicular to, i.e., the rotation of two gears
Direction is vertical, for example, one is horizontally oriented rotation, another is rotated along vertical direction.Reference picture 12, first gear
622a is connected by connecting rod with object storage component 621, and is parallel to each other with object storage component 621, and second gear 622b is arranged on object storage component
On 621, it is connected with the driving wheel of object storage component 621, first gear 622a and second gear 622b intermeshings, realizes linkage.
Wherein, first gear 622a and the first rack 611a are meshed, it is preferred that reference picture 11, the first scraping wings 611 are arranged to " U "
Type, when first gear 622a and the first rack 611a interacts, because to be empty among the first scraping wings 611, the
One gear 622a and during the first rack 611a engagements, 611 flexible performance of the first scraping wings, enhances the first scraping wings
611 service life.First scraping wings 611 to the direction of object storage component 621 move when, the first rack 611a driving first gear
622a, first gear 622a driving second gear 622b motions, second gear 622b driving driving wheels, realize the first transmission parts
620 transmission.
In the present embodiment, reference picture 12 and Figure 13, driving member 622 also include driven member 622e and conveyer belt 622c, and
Conveyer belt 622c is provided with baffle plate 622d.Driven pulley 622e includes the first driven pulley 622e-1 and the second driven pulley 622e-2, and
First driven pulley 622e-1 and the second driven pulley 622e-2 is gear, and is intermeshed.When driving wheel is by second gear 622b
After driving, the first driven pulley 622e-1 is also moved therewith, because the first driven pulley 622e-1 and the second driven pulley 622e-2 are mutual
Engagement, so the second driven pulley 622e-2 is also moved therewith.Conveyer belt 622c includes the transmission of the first conveyer belt 622c-1 and second
Band 622c-2, when the first driven pulley 622e-1 and the second driven pulley 622e-2 drives the first conveyer belt 622c-1 and second to pass respectively
When sending band 622c-2 motions, because being linked caused by gear engagement, the first conveyer belt 622c-1 and the second conveyer belt
622c-2 is moved in opposite direction.Baffle plate 622d includes first baffle 622d-1 and second baffle 622d-2, per adjacent first
In one plane, first baffle 622d-1 is arranged on the first conveyer belt 622c-1 by baffle plate 622d-1 and second baffle 622d-2,
Second baffle 622d-2 is arranged on the second conveyer belt 622c-2, because the first conveyer belt 622c-1 and the second conveyer belt 622c-2 fortune
It is dynamic in opposite direction, so the originally first baffle 622d-1 on the first conveyer belt 622c-1, and the adjacent thereto second transmission
With the second baffle 622d-2 on 622c-2 after exercise, both are still adjacent and in one plane.In adjacent first gear
Material is placed between plate 622d-1 and second baffle 622d-2, if the first conveyer belt 622c-1 first first baffle 622d-1
And second conveyer belt 622c-2 first second baffle 622d-2 between formed for first receiving space M, the first conveyer belt
Formed between 622c-1 second first baffle 622d-1 and the second conveyer belt 622c-2 second second baffle 622d-2
For the second receiving space N, in the present embodiment, first receiving space M is empty, i.e., does not place material.
Reference picture 11, in the present embodiment, the first rack 611a are positive helical teeth, and the first rack 611a is in the first scraping wings
The distance of 611 actings is equal to the distance between upper two adjacent first baffle 622d-1 of the first conveyer belt 622c-1, or waits
In the distance between upper two adjacent second baffle 622d-2 of the second conveyer belt 622c-2." acting " mentioned here refers to,
First rack 611a and first gear 622a are meshed, if the first rack 611a and first gear 622a are not intermeshed, the
One rack 611a just not works done.So when the first scraping wings 611 pushes toward the direction of object storage component 621, the first rack 611a and
One gear 622a is meshed, and starts to do work, now, the first rack 611a driving first gear 622a, first gear 622a drivings
Second gear 622b is moved, and second gear 622b driving driving wheels, after driving wheel is driven by second gear 622b, first is driven
Wheel 622e-1 also move therewith because the first driven pulley 622e-1 and the second driven pulley 622e-2 intermeshing, second from
Driving wheel 622e-2 is also moved therewith, realizes the transmission of the first transmission parts 620, and now the material in the second receiving space N down pushes away
Send the position instead of first receiving space M.When material falls on first receiving space M under the second receiving space N position, the
One rack 611a completes to do work in the first scraping wings 611, allows it to complete taken mode of doing work, can set the first scraping wings
611 carry the first rack 611a rack length, can also carry the first rack 611a mono- on the first scraping wings 611 by setting
The length at end, other embodiment do not illustrate one by one, but in the scope of protection of the utility model.Continue to press on first
Scraping wings 611, now the first rack 611a and first gear 622a on the first scraping wings 611 do not do work, i.e., both no longer nibble
Close and do not produce linkage, therefore promote the first scraping wings 611, the material being now positioned in first receiving space M is pushed out.Connect
The first scraping wings 611 to move to the opposite direction where object storage component 621, the first scraping wings 611 is pulled out, because in this reality
It is positive helical teeth to apply the first rack 611a in example, so during counter motion, the first rack 611a does not engage with first gear 622a, because
This does not produce linkage yet.When pushing again, successively so.In the present embodiment, by promoting the first scraping wings 611 to allow the second appearance
After the material in the N of space of receiving down pushes the position instead of first receiving space M, continuation is pushed forward, and material is held from second
Receive after pushing out in the N of space, then the first scraping wings 611 is moved toward away from the direction of object storage component 621, now because the first rack
611a is positive helical teeth, still will not now be engaged between the first rack 611a and first gear 622a and not produce linkage.
Reference picture 14, is second embodiment of the utility model conveying assembly 600, and the embodiment is different from first reality
Apply example is:First rack 611a is backslash tooth, i.e. teeth directional is towards a left side.Specific embodiment is:When the first scraping wings 611 is to glove
When the place direction of part 621 is moved, because the first rack 611a is backslash tooth, therefore the first rack 611a does not drive first gear 622a
Motion, the first scraping wings 611 push forward straight, until after material is pushed out, then allow the first scraping wings 611 to be put to remote
The direction of object 621 is moved, because the first rack 611a is backslash tooth, now the first rack on the first scraping wings 611
611a and first gear 622a are engaged, so as to produce linkage.First rack 611a drives first gear 622a, first gear
622a driving second gear 622b motions, second gear 622b driving driving wheels, after driving wheel is driven by second gear 622b,
First driven pulley 622e-1 is also moved therewith, because the first driven pulley 622e-1 and the second driven pulley 622e-2 intermeshings, institute
Also moved therewith with the second driven pulley 622e-2, now the material in the second receiving space N down pushes accommodates sky instead of first
Between M position.So in the present embodiment, when the first scraping wings 611 pushes forward, release material.First scraping wings 611 is backward
During drawing, moving down for material is realized in last layer space toward declining.
Reference picture 15, be the utility model conveying assembly 600 the 3rd embodiment, the embodiment be different from first or
Second embodiment, in the embodiment, the first pushing piece 610 includes the first actuator 613, and the one of the first actuator 613
End is provided with the 3rd gear 613a, and the first scraping wings 611 also includes the second rack 611b, the second rack 611b and the 3rd gear 613a
It is engaged.3rd gear 613a rotations are driven by the first actuator 613, the 3rd gear 613a engages with the second rack 611b,
So that the first scraping wings 611 pushes forward, then the first rack 611a is also moved therewith.If the first rack 611a is positive helical teeth
(teeth directional of rack towards the right side), the first rack 611a driving first gear 622a, first gear 622a driving second gear 622b fortune
Dynamic, second gear 622b driving driving wheels, after driving wheel is driven by second gear 622b, the first driven pulley 622e-1 is also therewith
Motion because the first driven pulley 622e-1 and the second driven pulley 622e-2 intermeshing, the second driven pulley 622e-2 also with
Motion, the material in the second receiving space N down pushes the position instead of first receiving space M.And continue push first and push away
, it is necessary to explanation, now the first rack 611a is no longer intermeshed flitch 611 with first gear 622a, therefore is pushed first and pushed away
During flitch 611, material is simply pushed, does not realize the function that material declines.After material is pushed out from the second receiving space N,
The first scraping wings 611 is moved toward away from the direction of object storage component 621 again, now between the first rack 611a and first gear 622a still
It will not so engage and not produce linkage, the first scraping wings 611 returns to original state position.If the first rack 611a is backslash tooth
(teeth directional of rack towards a left side), when the first scraping wings 611 pushes forward, the first rack 611a and first gear 622a are not engaged, therefore
In this motion, the action for releasing material is only done.When first scraping wings 611 is toward post-tensioning, the first rack 611a drives the first tooth
Take turns 622a, first gear 622a driving second gear 622b motions, second gear 622b driving driving wheels, when driving wheel is by second
After gear 622b drivings, the first driven pulley 622e-1 is also moved therewith, because the first driven pulley 622e-1 and the second driven pulley
622e-2 is intermeshed, so the second driven pulley 622e-2 is also moved therewith, the material in the second receiving space N down pushes generation
For first receiving space M position, moving down for material is realized.
Reference picture 16 and Figure 17, the utility model additionally provide a kind of assembling device, and the main body of the device includes conveying group
Part 600 and blanking component 700, reference picture 9~15, conveying assembly 600 include the first pushing piece 610 and the first transmission parts 620, the
One pushing piece 610 includes the first scraping wings 611, includes the first rack 611a on the first scraping wings 611.First transmission parts 620 wrap
Object storage component 621 and driving member 622 are included, driving member 622 includes first gear 622a and second gear 622b.First gear 622a leads to
Crossing connecting rod with object storage component 621 to connect, and be parallel to each other with object storage component 621, second gear 622b is arranged on object storage component 621,
It is connected with the driving wheel of object storage component 621, first gear 622a and second gear 622b intermeshings, realizes linkage.First pushes away
Flitch 611 to the place direction of object storage component 621 move when, the first rack 611a driving first gear 622a, first gear 622a drive
Dynamic second gear 622b motions, second gear 622b driving driving wheels, realize the transmission of the first transmission parts 620.Driving member 622 is also
Including driven member 622e and conveyer belt 622c, and conveyer belt 622c is provided with baffle plate 622d.It is driven that driven pulley 622e includes first
622e-1 and the second driven pulley 622e-2 is taken turns, and the first driven pulley 622e-1 and the second driven pulley 622e-2 are gear, and phase
Mutually engagement.After driving wheel is driven by second gear 622b, the first driven pulley 622e-1 is also moved therewith, because the first driven pulley
622e-1 and the second driven pulley 622e-2 intermeshings, so the second driven pulley 622e-2 is also moved therewith.Conveyer belt 622c bags
The first conveyer belt 622c-1 and the second conveyer belt 622c-2 are included, when the first driven pulley 622e-1 and the second driven pulley 622e-2 distinguishes
When driving the first conveyer belt 622c-1 and the second conveyer belt 622c-2 motions, because being linked caused by gear engagement, the
One conveyer belt 622c-1 and the second conveyer belt 622c-2 is moved in opposite direction.Baffle plate 622d includes first baffle 622d-1 and the
In one plane, first baffle 622d-1 is arranged on by two baffle plate 622d-2, first baffle 622d-1 and second baffle 622d-2
First conveyer belt 622c-1, second baffle 622d-2 are arranged on the second conveyer belt 622c-2 because the first conveyer belt 622c-1 and
The second conveyer belt 622c-2 directions of motion on the contrary, so the original first baffle 622d-1 on the first conveyer belt 622c-1, and
After exercise, both are still adjacent and in a plane by second baffle 622d-2 on the second conveyer belt 622c-2 adjacent thereto
On.Material is placed between adjacent first baffle 622d-1 and second baffle 622d-2, if the of the first conveyer belt 622c-1
What is formed between one first baffle 622d-1 and the second conveyer belt 622c-2 first second baffle 622d-2 holds for first
Receive space M, second second of the first conveyer belt 622c-1 second first baffle 622d-1 and the second conveyer belt 622c-2
Formed between baffle plate 622d-2 for the second receiving space N.If the first rack 611a is positive helical teeth (teeth directional of rack towards the right side), the
One rack 611a drives first gear 622a, first gear 622a driving second gear 622b motions, second gear 622b drivings
Driving wheel, after driving wheel is driven by second gear 622b, the first driven pulley 622e-1 is also moved therewith, because the first driven pulley
622e-1 and the second driven pulley 622e-2 intermeshings, so the second driven pulley 622e-2 is also moved therewith, the second receiving space N
In material down push position instead of first receiving space M.And continue the first scraping wings 611 of push, it is necessary to illustrate,
Now the first rack 611a is no longer intermeshed with first gear 622a, therefore during the first scraping wings 611 of push, simply push thing
Material, the function that material declines is not realized.After material is pushed out from the second receiving space N, then by the first scraping wings 611 toward far
Moved from the direction of object storage component 621, still will not now be engaged between the first rack 611a and first gear 622a and not produce connection
Dynamic, the first scraping wings 611 returns to original state position.If the first rack 611a is backslash tooth (teeth directional of rack towards a left side), first
When scraping wings 611 pushes forward, the first rack 611a and first gear 622a are not engaged, therefore in this motion, only release
The action of material.When first scraping wings 611 is toward post-tensioning, the first rack 611a driving first gear 622a, first gear 622a drives
Dynamic second gear 622b motions, second gear 622b driving driving wheels, after driving wheel is driven by second gear 622b, first from
Driving wheel 622e-1 is also moved therewith, because the first driven pulley 622e-1 and the second driven pulley 622e-2 intermeshings, second
Driven pulley 622e-2 is also moved therewith, and the material in the second receiving space N down pushes the position instead of first receiving space M,
Realize moving down for material.
Reference picture 16, blanking component 700 include the first hole 704, and material is pushed to blanking component by the first scraping wings 611
At 700 the first hole 704, material drops at the first hole 704.But if when material is pushed at the first hole 704, directly allow
If material falls, the unstable of whereabouts, or material can be caused to be stuck at the first hole 704.
Preferably, blanking component 700 also includes moving member 701, moving member 701 includes the first movable plate 701a and second and moved
Dynamic plate 701b, and blanking component 700 is provided with the 4th groove 702 and the 5th groove 703, the 4th groove 702 and the 5th groove 703 are arranged at
On blanking component 700, and the 4th groove 702 ensures the first movable plate 701a opening and closing back and forth above the first hole 704, the 5th groove 703
Ensure the second movable plate 701b opening and closing back and forth above the first hole 704.
Preferably, the first movable plate 701a end is provided with the 4th gear 701a-1, the second movable plate 701b end is set
There are the 5th gear 701b-1, and the 4th gear 701a-1 and the 5th gear 701b-1 intermeshings.4th gear 701a-1's is upper
Side second drives 701a-1 ', drives the 4th gear 701a-1 rotations by the second driving 701a-1 ', and drive the 5th gear
701b-1。
Preferably, assembling device also includes the first revolving part 800, and the first revolving part 800 is provided with multiple stations, Mei Gegong
Conveying assembly 600 is placed on position, so as to save the time of workers carry, only illustrates 5 stations in fig. 17, but not only limit
In 5, it differs one for example, but in the scope of protection of the utility model with quantity.
Figure 18 is the overall applicability structure that technical solutions of the utility model are applied to the automatic package system of each part of instrument
Schematic diagram.In one embodiment, described instrument (being described in detail by taking explosion-proof thermometer as an example) first passes through assembling instrument
The station of table front casing device, instrument front casing is assembled on explosion-proof temperature meter, then is rotated to apparatus glass piece and assembled station,
Sheet glass supply unit 300 that reference picture includes, sheet glass detection unit 400, sheet glass screening unit 500, complete instrument
After the assembling of sheet glass, rotary working platform to assembling at device station, conveying assembly 600 in reference picture, blanking component 700 with
And first revolving part 800, after loading electronic component, rotary working platform, rotates to other stations, after assembling again
Lid, finally rotates to the station of finished product mounted box sub-device, ready-made instrument finished product is fitted into box.
It should be noted that above example is only to illustrate the technical solution of the utility model and unrestricted, although reference
The utility model is described in detail for preferred embodiment, it will be understood by those within the art that, can be to this reality
Modified with new technical scheme or equivalent substitution, without departing from the spirit and scope of technical solutions of the utility model,
It all should cover among right of the present utility model.
Claims (10)
- A kind of 1. sheet glass assembling subsystem of automatic package system, it is characterised in that:Including,Sheet glass supply unit (300), including sheet glass vibration component (301) and sheet glass conveying mechanism (302), the glass Sheet glass (X) in it is vibrated on the sheet glass conveying mechanism (302) by piece vibration component (301);Sheet glass detection unit (400), it is connected with the sheet glass conveying mechanism (302), including sheet glass detection components (401) With sheet glass push component (402), the sheet glass (X) from the sheet glass conveying mechanism (302) is pushed to described Positive and negative detection is carried out in sheet glass detection components (401);Sheet glass screening unit (500), it is connected with the sheet glass detection unit (400), in addition to rotates horizontally component (501) component (502), is overturn vertically and pushes component (503), the horizontal rotation component (501) rotates around center of turntable, And the vertical upset component (502) is symmetricly set in the horizontal rotation component (501) centered on the center of turntable Both ends;The sheet glass (X) after the completion of detection is pushed to the vertical upset component by the sheet glass push component (402) (502) in, the sheet glass (X) under the state of meeting the requirements is obtained by the upset screening of the vertical upset component (502); The rotation for rotating horizontally component (501) is overturn above component (502) band to workbench vertically by described, described to push group The sheet glass (X) is pushed and fallen on the workbench by part (503).
- 2. the sheet glass assembling subsystem of automatic package system as claimed in claim 1, it is characterised in that:The sheet glass is defeated Mechanism (302) is sent also to include sheet glass delivery track (302a), sheet glass delivery track (302a) initiating terminal and the glass Glass piece vibration component (301) connects, and its end is provided with limiting plate (302b), sheet glass delivery track (302a) end The push opening (302c) vertical with the limiting plate (302b) is provided with the orbit sidewall of both sides.
- 3. the sheet glass assembling subsystem of automatic package system as claimed in claim 2, it is characterised in that:The sheet glass pushes away Sending component (402) includes the first sheet glass push component (402a) and the second sheet glass push component (402b), first glass The sheet glass (X) push that glass piece push component (402a) will be delivered to the limiting plate (302b) place is put to the detection group Part is detected in (401), after the second sheet glass push component (402b) will complete detection in the detection components (401) The sheet glass (X) release;And the first sheet glass push component (402a) also includes being arranged at first glass for pushing opening (302c) place Piece pushing plate (402a-1) and the first sheet glass drive device being connected with the first sheet glass pushing plate (402a-1) (402a-2);The second sheet glass push component (402b) also includes being arranged at second above the detection components (401) Sheet glass pushing plate (402b-1) and the second sheet glass driving being connected with the second sheet glass pushing plate (402b-1) Device (402b-2).
- 4. the sheet glass assembling subsystem of automatic package system as claimed in claim 3, it is characterised in that:The sheet glass inspection It is cube structure to survey component (401), and it is arranged at the side of the push opening (302c), and the sheet glass detection components (401) it is open close to the push on the side of (302c) and is provided with detection entrance (401a), along the detection entrance (401a) Parallel into cube structure to dig out passage (401b), the passage (401b), which is extended on adjacent side, sets detection outlet (401c), and the upper surface of the sheet glass detection components (401) is provided with the chute connected with the passage (401b) (401d), the second sheet glass pushing plate (402b-1) by the second sheet glass drive device (402b-2) drive after in institute State in chute (401d) and slide.
- 5. the sheet glass assembling subsystem of automatic package system as claimed in claim 4, it is characterised in that:The passage (402) arc bend (403) is additionally provided with, has along its radian direction and be arranged in parallel above the arc bend (403) Light source component (404), and light sensing component (405) is set on the adjacent two sides of the light source component (404), detect the glass The state of glass piece (X).
- 6. the sheet glass assembling subsystem of automatic package system as claimed in claim 5, it is characterised in that:The horizontal rotation Component (501) also includes horizontal rotating disc (501a) and extension (501b), and the center of turntable of the horizontal rotating disc (501a) is set It is equipped with the 3rd sheet glass drive device (501a-1) and drives its rotation, the extension (501b) is arranged at the horizontal rotating disc On (501a) relative side, and it is centrosymmetric setting on the center of turntable.
- 7. the sheet glass assembling subsystem of automatic package system as claimed in claim 6, it is characterised in that:The vertical upset Component (502) also includes roll-over table (502a), and it is connected with the extension (501b), and is set on the extension (501b) There is the 4th sheet glass drive device (501b-1), the 4th sheet glass drive device (501b-1) drives the roll-over table (502a) in the vertical direction rotates.
- 8. the sheet glass assembling subsystem of automatic package system as claimed in claim 7, it is characterised in that:The roll-over table (502a) is exported with the detection and is provided with second entrance (502a-1) on (401c) relative side;The roll-over table (502a) Centre be provided with sheet glass and drop mouth (502a-2), the second entrance (502a-1) and the sheet glass drop mouth (502a- 2) connect, and the sheet glass drop mouth (502a-2) edge of opening on also set up elastic clamping pieces (502a-3), the bullet The sheet glass (X) is clamped in the sheet glass and dropped in mouth (502a-2) by property holder (502a-3).
- 9. the sheet glass assembling subsystem of automatic package system as claimed in claim 8, it is characterised in that:The sheet glass falls Fall mouth (502a-2) upper surface and be additionally provided with push pedal opening (502a-4) with the second entrance (502a-1) connectivity part, it is described to push away Plate opening (502a-4) is corresponding with the second sheet glass pushing plate (402b-1), and the sheet glass (X) is pushed into the glass Piece drops and is clamped in mouth (502a-2).
- 10. the sheet glass assembling subsystem of automatic package system as claimed in claim 9, it is characterised in that:It is described to push group Part (503) also includes the lower lock block (503a) of column structure, the lower lock block (503a) and the 5th sheet glass drive device (503b) is connected, and it drives described lower lock block (503a) to move downwardly to the sheet glass and dropped in mouth (502a-2), will described in Sheet glass (X) is pushed on the station for the workbench that drops.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721013116.4U CN207020096U (en) | 2017-08-14 | 2017-08-14 | A kind of sheet glass assembling subsystem of automatic package system |
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Application Number | Priority Date | Filing Date | Title |
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CN201721013116.4U CN207020096U (en) | 2017-08-14 | 2017-08-14 | A kind of sheet glass assembling subsystem of automatic package system |
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CN201721013116.4U Expired - Fee Related CN207020096U (en) | 2017-08-14 | 2017-08-14 | A kind of sheet glass assembling subsystem of automatic package system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107505321A (en) * | 2017-08-14 | 2017-12-22 | 江苏杰克仪表有限公司 | A kind of sheet glass assembling subsystem of automatic package system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107505321A (en) * | 2017-08-14 | 2017-12-22 | 江苏杰克仪表有限公司 | A kind of sheet glass assembling subsystem of automatic package system |
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