CN209223850U - A kind of photovoltaic glass automatic sand blasting assembly line - Google Patents
A kind of photovoltaic glass automatic sand blasting assembly line Download PDFInfo
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- CN209223850U CN209223850U CN201821739929.6U CN201821739929U CN209223850U CN 209223850 U CN209223850 U CN 209223850U CN 201821739929 U CN201821739929 U CN 201821739929U CN 209223850 U CN209223850 U CN 209223850U
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- photovoltaic glass
- sandblasting
- sand
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- feeding mechanism
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Abstract
The utility model relates to photovoltaic glass technical field of sandblasting, in particular disclose a kind of photovoltaic glass automatic sand blasting assembly line, including feeding mechanism, sandblasting mechanism and circulation of sand mechanism, feeding mechanism includes frame body, the multiple rollers for being rotatably dispose in frame body, and roller includes the compliant wheel for being used to support photovoltaic glass;Sandblasting mechanism includes the blasting cabinet for being set to frame body, the ejection head unit for being set to blasting cabinet;Feeding mechanism inputs photovoltaic glass in blasting cabinet, ejection head unit is to photovoltaic glass sandblasting, feeding mechanism exports the photovoltaic glass after sandblasting, circulation of sand mechanism extracts the sand material of blasting cabinet lower end and sprays sand material via ejection head unit, realize the automatic sand blasting of photovoltaic glass, without the manual feeding of operating personnel and manual sandblasting, the sandblasting efficiency of photovoltaic glass is promoted;In the feeding process of photovoltaic glass, photovoltaic glass is supported using compliant wheel, prevents the collision impact between roller and photovoltaic glass from damaging photovoltaic glass, promotes the sandblasting yield of photovoltaic glass.
Description
Technical field
The utility model relates to photovoltaic glass technical field of sandblasting, in particular disclose a kind of photovoltaic glass automatic sand blasting flowing water
Line.
Background technique
Mode one of of the solar power generation as clean energy resource, which has been obtained, to be more and more widely used, and photovoltaic glass is
One of basic accessory of solar power generation needs to carry out photovoltaic glass blasting treatment in the manufacturing process of photovoltaic glass, existing
Have in technology and photovoltaic glass is first mainly moved to scheduled sandblasting station via operating personnel, then again by operating personnel's hand
It holds sand-blasting gun and manual sandblasting is carried out to the photovoltaic glass of sandblasting station, operating personnel again moves the photovoltaic glass after sandblasting later
It walks;The efficiency of sandblasting operation is extremely low, is not able to satisfy the needs of modern production.
Utility model content
In order to overcome shortcoming and defect existing in the prior art, the purpose of this utility model is to provide a kind of photovoltaic glass
Glass automatic sand blasting assembly line, realizes the automatic sand blasting of photovoltaic glass, is not necessarily to the manual feeding of operating personnel and manual sandblasting, promotes light
Lie prostrate the sandblasting efficiency of glass;In the feeding process of photovoltaic glass, photovoltaic glass is supported using compliant wheel, prevents roller and photovoltaic
Collision impact between glass damages photovoltaic glass, promotes the sandblasting yield of photovoltaic glass.
To achieve the above object, a kind of photovoltaic glass automatic sand blasting assembly line of the utility model, including feeding mechanism, spray
Sand mechanism and circulation of sand mechanism, the extraneous photovoltaic glass of feeding mechanism input, what sandblasting mechanism was used to input feeding mechanism
Photovoltaic glass carries out sandblasting, and feeding mechanism exports the photovoltaic glass after the sandblasting of sandblasting mechanism, and circulation of sand mechanism will be for that will spray
The sand material that sand mechanism sprays is pumped into sandblasting mechanism;The feeding mechanism includes frame body, the multiple rollers for being rotatably dispose in frame body, sets
It is placed in the first actuator of frame body, roller includes the axis body for being rotatably dispose in frame body, the compliant wheel that is sheathed on the outside of axis body, and first
For actuator for driving axis body to rotate, compliant wheel is used to support photovoltaic glass;Sandblasting mechanism include the blasting cabinet for being set to frame body,
It is set to the ejection head unit of frame body or/and blasting cabinet, multiple rollers run through blasting cabinet, and blasting cabinet is equipped with feed opening and discharge hole,
By photovoltaic glass via in feed opening input blasting cabinet, ejection head unit is used to spray the photovoltaic glass in blasting cabinet feeding mechanism
Sand, feeding mechanism export the photovoltaic glass after ejection head unit sandblasting via discharge hole, and circulation of sand mechanism extracts under blasting cabinet
The sand material at end simultaneously sprays the sand material extracted via ejection head unit.
Preferably, the photovoltaic glass automatic sand blasting assembly line further includes sand material filter mechanism, and sand material filter mechanism includes
The sand material of blasting cabinet lower end is pumped into Rose Box by Rose Box, first pump housing, deduster and second pump housing, first pump housing, filtering
The strainer for the sand material in filtered filter box is provided in case, second pump housing will be pumped into dedusting via the sand material after strainer filtering
It is dusted in device, the sand grains after deduster dedusting is delivered in blasting cabinet.
Preferably, the photovoltaic glass automatic sand blasting assembly line further includes blower mechanism and air draft mechanism, and blasting cabinet is equipped with
Blowing chamber, sandblasting chamber and the exhausting chamber being isolated from each other, sandblasting chamber are located between blowing chamber and exhausting chamber, and feeding mechanism conveys photovoltaic
For glass successively by blowing chamber, sandblasting chamber and exhausting chamber, blower mechanism is connected to blowing chamber and the photovoltaic glass for that will dry intracavitary
Glass is blown clean, and it is intracavitary and for blower mechanism treated photovoltaic glass sandblasting, air draft mechanism to connect that ejection head unit is located at sandblasting
Logical exhausting chamber simultaneously is used to take away in the floating sand adhered on photovoltaic glass after ejection head unit sandblasting.
Preferably, the frame body is provided with the first adjustment component, and the first adjustment component is conveyed for adjusting feeding mechanism
Photovoltaic glass, feeding mechanism by the first adjustment component photovoltaic glass adjusted via feed opening input blasting cabinet in;First
Adjustment component includes the first slide plate for being slideably positioned in frame body, is set to frame body and for driving the second of the first slide plate to drive
Part, the idler wheel for being rotatably dispose in the first slide plate, the second actuator is via the driving related roller conflicting feeding mechanism institute of the first slide plate
The side wall of the photovoltaic glass of conveying.
Preferably, the quantity of the idler wheel is multiple, and multiple idler wheels are collinearly arranged, line and feeding between multiple idler wheels
The moving direction for the photovoltaic glass that mechanism is conveyed is arranged in parallel.
Preferably, the photovoltaic glass automatic sand blasting assembly line further includes second adjustment component, second adjustment component and
The construction of one adjustment component is identical, and the idler wheel of the first adjustment component, the idler wheel of second adjustment component are respectively used to contradict feeder
The left and right sides for the photovoltaic glass that structure is conveyed, the line and feeding mechanism between second adjustment component and the first adjustment component are defeated
The moving direction of the photovoltaic glass sent is vertically arranged.
Preferably, the frame body is installed with first support, and first support is equipped with two guide rods parallel to each other, the first adjustment
Second actuator of component, the second actuator of second adjustment component are respectively arranged at the left and right ends of first support, and first adjusts
The both ends of first slide plate of whole group part are slideably positioned in one end of two guide rods respectively, and the two of the first slide plate of second adjustment component
End is slideably positioned in the other end of two guide rods respectively, and the first slide plate of the first adjustment component, the first of second adjustment component are slided
Plate is close towards each other or direction away from each other is mobile.
Preferably, the ejection head unit includes the second support for being set to blasting cabinet, is slideably positioned in the of second support
Two slide plates are set to second support and are used to drive the third actuator of the second slide plate, be set to multiple spray guns of the second slide plate,
Multiple spray guns are collinearly arranged, and the line between multiple spray guns is parallel with the moving direction for the photovoltaic glass that feeding mechanism is conveyed to be set
It sets.
Preferably, the circulation of sand mechanism includes the fourth drive member for being set to frame body, collection sandpipe and the third pump housing, is turned
The visibly moved discharge with endless screw axis being set in collection sandpipe, blasting cabinet are equipped with multiple tapered portion, blowing chamber, sandblasting chamber and the intracavitary sand of exhausting
Material under the effect of gravity respectively via multiple tapered portion fall into collection sandpipe in, fourth drive member drive discharge with endless screw axis rotation with will
Collect the sand material discharge in sandpipe, the third pump housing extracts the sand material of discharge with endless screw axis discharge and by the sand material extracted via spray head list
Member sprays.
Preferably, the roller further includes two limit flexbile gears being sheathed on the outside of axis body, and compliant wheel is located at two limits
Between flexbile gear, limit flexbile gear includes the limit ring for being set to the wheel body of axis body and being set to wheel body, limits ring from wheel body
Outer surface projects, and stop collar ring is arranged around axis body, and photovoltaic glass is located between the limit ring of two limit flexbile gears, and two
The limit ring of a limit flexbile gear is used to distinguish the left and right sides of block photovoltaic glass.
The utility model has the beneficial effects that feeding mechanism passes through extraneous photovoltaic glass when needing to photovoltaic glass sandblasting
By in feed opening input blasting cabinet, ejection head unit is to the photovoltaic glass sandblasting in blasting cabinet, and feeding mechanism is by ejection head unit sandblasting
Photovoltaic glass afterwards is exported via discharge hole, and circulation of sand mechanism extracts the sand material of blasting cabinet lower end and passes through the sand material extracted
It is sprayed by ejection head unit, realizes the automatic sand blasting of photovoltaic glass, be not necessarily to the manual feeding of operating personnel and manual sandblasting, promote photovoltaic
The sandblasting efficiency of glass;In the feeding process of photovoltaic glass, photovoltaic glass is supported using compliant wheel, prevents roller and photovoltaic glass
Collision impact between glass damages photovoltaic glass, promotes the sandblasting yield of photovoltaic glass.
Detailed description of the invention
Fig. 1 is the schematic perspective view of the utility model;
Fig. 2 is the schematic perspective view at another visual angle of the utility model;
Fig. 3 is the schematic perspective view of the roller of the utility model;
Fig. 4 shows for the stereochemical structure of the first adjustment component of the utility model, second adjustment component, first support and guide rod
It is intended to;
Fig. 5 is the schematic perspective view of the ejection head unit of the utility model;
Fig. 6 is the schematic perspective view at the another visual angle of the utility model.
Appended drawing reference includes:
1-2-sandblasting of feeding mechanism mechanism, 3-circulation of sand mechanism
4-frame body 5-roller, 6-axis bodies
7-compliant wheel 8-blasting cabinet, 9-ejection head units
11-feed opening 12-discharge hole, 13-Rose Boxes
14-deduster 15-blower mechanism, 16-air draft mechanisms
17-the first adjustment component 19-idler wheels of the 18-the first slide plate
21-limit 22-wheel bodys of flexbile gear 23-limit ring
24-second adjustment component 25-first support, 26-guide rods
27-second support 29-spray guns of the 28-the second slide plate
31-collection 32-tapered portion of sandpipe.
Specific embodiment
For the ease of the understanding of those skilled in the art, the utility model is made below with reference to examples and drawings further
Explanation, the content that embodiment refers to not is restriction to the utility model.
Shown in please referring to Fig.1 to Fig.3, a kind of photovoltaic glass automatic sand blasting assembly line of the utility model, including feeder
Structure 1, sandblasting mechanism 2 and circulation of sand mechanism 3, feeding mechanism 1 input extraneous photovoltaic glass, and sandblasting mechanism 2 is used for feeding
The photovoltaic glass that mechanism 1 inputs carries out automatic sand blasting, and feeding mechanism 1 exports the photovoltaic glass after 2 sandblasting of sandblasting mechanism automatically,
The sand material that circulation of sand mechanism 3 is used to spray sandblasting mechanism 2 is pumped into sandblasting mechanism 2;The feeding mechanism 1 includes frame body 4, turns
The dynamic multiple rollers 5 being arranged on frame body 4, the first actuator (not shown) being arranged on frame body 4, frame body 4 is using gold
Belong to material to be made, the first actuator is motor, and according to actual needs, the first actuator can be via gear drive, V belt translation, chain
The driving roller 5 such as transmission rotates, and according to actual needs, the first actuator can drive all rollers 5 to rotate, and can also drive a certain
A or certain several roller 5 rotate, and utilize some or certain several related 5 turns of remaining rollers of roller 5 of the first actuator driving
It is dynamic.
The roller 5 includes the axis body 6 being rotatably arranged on frame body 4, the compliant wheel 7 for being set in 6 outside of axis body, axis body 6
Can be via bearing hinge connection on frame body 4, for the first actuator for driving axis body 6 to rotate, compliant wheel 7 is used to support photovoltaic glass
Glass, it is preferable that compliant wheel 7 is made of silica gel, and certainly, compliant wheel 7 also can be used other flexible materials and be made, and photovoltaic glass exists
Pressure holding is in compliant wheel 7 under gravity.
The sandblasting mechanism 2 includes the blasting cabinet 8 being arranged on frame body 4, is arranged on frame body 4 or/and on blasting cabinet 8
Ejection head unit 9, blasting cabinet 8 is enclosed by multiple metal plates to be set, and multiple rollers 5 run through blasting cabinet 8, and blasting cabinet 8 is equipped with feed opening
11 and discharge hole 12, feeding mechanism 1 inputs photovoltaic glass in blasting cabinet 8 via feed opening 11, and ejection head unit 9 is used for feeding
Mechanism 1 is conveyed into the photovoltaic glass in blasting cabinet 8 and carries out automatic sand blasting, and feeding mechanism 1 is by the photovoltaic glass after 9 sandblasting of ejection head unit
Glass is output to predetermined position via discharge hole 12 automatically, and circulation of sand mechanism 3 extracts the sand material of 8 lower end of blasting cabinet and will be extracted
Sand material via ejection head unit 9 spray.
When needing to extraneous photovoltaic glass sandblasting, the photovoltaic glass to sandblasting is placed on and send by extraneous manipulator etc.
On the roller 5 for expecting mechanism 1, feeding mechanism 1 inputs extraneous photovoltaic glass in blasting cabinet 8 via feed opening 11, ejection head unit 9
To in blasting cabinet 8 photovoltaic glass carry out automatic sand blasting, feeding mechanism 1 again by the photovoltaic glass after 9 sandblasting of ejection head unit via
Discharge hole 12 is output to predetermined position, the sand material that circulation of sand mechanism 3 extracts the sand material of 8 lower end of blasting cabinet and will be extracted automatically
It is ejected on photovoltaic glass via ejection head unit 9 and carries out automatic sand blasting, realize the automatic sand blasting of photovoltaic glass, be not necessarily to operating personnel
Manual feeding and manual sandblasting promote the sandblasting efficiency of photovoltaic glass;In the feeding process of photovoltaic glass, compliant wheel 7 is utilized
Photovoltaic glass is supported, prevents the collision impact between roller 5 and photovoltaic glass from damaging photovoltaic glass, promotes the spray of photovoltaic glass
Sand yield.
The photovoltaic glass automatic sand blasting assembly line further includes sand material filter mechanism, and sand material filter mechanism includes Rose Box
13, the first pump housing (not shown), deduster 14 and the second pump housing (not shown), first pump housing is by 8 lower end of blasting cabinet
Sand material be pumped into Rose Box 13 in, be provided in Rose Box 13 and (do not show in figure for the strainer of the sand material in filtered filter box 13
Out), the large-size particle object mixed in desanding material is considered (as adhered on photovoltaic glass surface by ejection head unit 9 using strainer
The large-size particle object blown off), prevent large-size particle object from sand material being followed to be injected on photovoltaic glass together and cause photovoltaic glass
The surface damage of glass, second pump housing will be pumped into deduster 14 via the sand material after strainer filtering and be dusted, and deduster 14 removes
Sand grains after dirt is delivered in blasting cabinet 8, and deduster 14 is the prior art, and details are not described herein;Desanding is considered using deduster 14
The dust that mixes in material or the sand grains for being fragmented into powder, promote the sandblasting yield and sandblasting efficiency of photovoltaic glass.
The photovoltaic glass automatic sand blasting assembly line further includes blower mechanism 15 and air draft mechanism 16, and blasting cabinet 8 is equipped with that
Blowing chamber, sandblasting chamber and the exhausting chamber of this isolation, sandblasting chamber are located between blowing chamber and exhausting chamber, and feeding mechanism 1 conveys photovoltaic
Glass is successively by blowing chamber, sandblasting chamber and exhausting chamber, the connection of blower mechanism 15 blowing chamber and for the intracavitary photovoltaic that will dry
Glass is blown clean, and after feeding mechanism 1 is intracavitary by the input blowing of the photovoltaic glass to sandblasting, blower mechanism 15 will dry intracavitary
Photovoltaic glass blow clean, the input sandblasting of photovoltaic glass after then feeding mechanism 1 blows clean blower mechanism 15 is intracavitary, spray head
It is intracavitary and for treated the photovoltaic glass sandblasting of blower mechanism 15, then feeding mechanism 1 to be again by spray head that unit 9 is located at sandblasting
Photovoltaic glass input exhausting after 9 sandblasting of unit is intracavitary, and air draft mechanism 16 is connected to exhausting chamber and for will be after 9 sandblasting of ejection head unit
The floating sand adhered on photovoltaic glass is taken away, realizes the automated cleaning to photovoltaic glass after sandblasting.
Shown in please referring to Fig.1 to Fig.4, the frame body 4 is provided with the first adjustment component 17, and the first adjustment component 17 is for adjusting
The first adjustment component 17 is adjusted position by position of the photovoltaic glass that whole feeding mechanism 1 is conveyed on roller 5, feeding mechanism 1
Photovoltaic glass afterwards inputs in blasting cabinet 8 via feed opening 11;The first adjustment component 17 includes the be slidably arranged on frame body 4
One slide plate 18, turns the second actuator (not shown) for being arranged on frame body 4 and being used to that the first slide plate 18 to be driven to slidably reciprocate
The dynamic idler wheel 19 being arranged on the first slide plate 18, the second actuator are cylinder, the piston rod of the second actuator and the first slide plate 18
Connection, the second actuator contradict the photovoltaic glass conveyed in feeding mechanism 1 via the related idler wheel 19 of the first slide plate 18 of driving
On side wall.In actual use, feeding mechanism 1 conveys photovoltaic glass and moves along the direction of parallel water plane, the rotation axis of idler wheel 19
Line conveys photovoltaic glass on the move to feeding mechanism 1 using the first adjustment component 17 and carries out position along being arranged in a vertical horizontal plane
Adjustment is arranged via the rotation of idler wheel 19 without being adjusted after shutting down to the position of photovoltaic glass, prevents the first adjustment group
Part 17 blocks photovoltaic glass and causes photovoltaic glass that cannot move on roller 5, further promotes the feeding efficiency of glass, in turn
The sandblasting efficiency of service hoisting photovoltaic glass.
The quantity of the idler wheel 19 is multiple, multiple collinearly settings of idler wheel 19, line and feeding between multiple idler wheels 19
The moving direction for the photovoltaic glass that mechanism 1 is conveyed is arranged in parallel.It is contradicted respectively in photovoltaic glass using multiple idler wheels 19 along shifting
On dynamic direction on the side wall of rear and front end, when the first adjustment component 17 adjusts position of the photovoltaic glass on roller 5, it is ensured that light
Glass rear and front end stress equalization is lied prostrate, realizes the primary of position of the first adjustment component 17 to photovoltaic glass on feeding mechanism 1
Property accurately adjust, promoted the first adjustment component 17 adjust photovoltaic glass position efficiency.
The roller 5 further includes two limit flexbile gears 21 being set on 6 outside of axis body, and all compliant wheels 7 are respectively positioned on two
Between a limit flexbile gear 21, limit flexbile gear 21 includes the wheel body 22 being arranged on axis body 6, the limit ring being arranged on wheel body 22
23, the outer surface of limit ring 23 from wheel body 22 projects, and limit ring 23 is annular in shape, and limit ring 23 is around axis body 6
Setting, it is preferable that limit flexbile gear 21 be integral type construct, photovoltaic glass be located at two limit flexbile gear 21 limit ring 23 it
Between, the limit ring 23 of two limit flexbile gears 21 is used to distinguish the left and right sides of block photovoltaic glass.Utilize two limit flexbile gears
The photovoltaic glass that 21 limit ring 23 conveys feeding mechanism 1 limits, prevent feeding mechanism 1 convey photovoltaic glass from
It falls off in compliant wheel 7 and collides axis body 6, collision frame body 4 or collision blasting cabinet 8 etc..
The photovoltaic glass automatic sand blasting assembly line further includes second adjustment component 24, and second adjustment component 24 and first are adjusted
The construction of whole group part 17 is identical, and the idler wheel 19 of the first adjustment component 17, the idler wheel 19 of second adjustment component 24 are respectively used to contradict
The left and right sides for the photovoltaic glass that feeding mechanism 1 is conveyed, the line between second adjustment component 24 and the first adjustment component 17
The moving direction of the photovoltaic glass conveyed with feeding mechanism 1 is vertically arranged.When needing the position to photovoltaic glass on feeding mechanism 1
Set when being adjusted, the first slide plate 18 of the first adjustment component 17, second adjustment component 24 the first slide plate 18 respectively from photovoltaic
Close direction is mobile towards each other for the left and right sides of glass, utilizes the idler wheel 19 of the first adjustment component 17, second adjustment component 24
Idler wheel 19 contradicted on the left and right sides of photovoltaic glass respectively, to realize position to photovoltaic glass on feeding mechanism 1
Quick adjustment.
First support 25 is installed on the frame body 4, first support 25 is equipped with two guide rods 26 parallel to each other, guide rod 26
Substantially strip cylinder, the second actuator of the first adjustment component 17, the second actuator of second adjustment component 24 are respectively set
On the left and right ends of first support 25, the both ends of the first slide plate 18 of the first adjustment component 17 are slidably arranged in two respectively and lead
On one end of bar 26, the both ends of the first slide plate 18 of second adjustment component 24 are slideably positioned in the other end of two guide rods 26 respectively
On, the first slide plate 18 of the first adjustment component 17, the first slide plate 18 of second adjustment component 24 are close towards each other or away from each other
Direction it is mobile, the first slide plate 18 of the first slide plate 18 of the first adjustment component 17, second adjustment component 24 is arranged in idler wheel 19
Upper side close to each other.
In the assembling process of photovoltaic glass automatic sand blasting assembly line, first by the first adjustment component 17, second adjustment component
24 are separately mounted in first support 25, then first support 25 is mounted on frame body 4, promote the first adjustment component 17, second
Packaging efficiency between component 24 and frame body 4 is adjusted, while making the first adjustment component 17, second adjustment component 24 via first
This common reference of bracket 25 is mounted on the rack, and promotes the installation yield of the first adjustment component 17, second adjustment component 24.
It please refers to shown in Fig. 1 to Fig. 5, the ejection head unit 9 includes the second support 27 being arranged on blasting cabinet 8, sliding
The second slide plate 28 for being arranged in second support 27 is arranged in second support 27 and for driving the second slide plate 28 to move back and forth
Third actuator (unlabeled in figure), multiple spray guns 29 for being arranged on the second slide plate 28, third actuator is motor, third
Actuator slidably reciprocates via the opposite second support 27 of the second slide plate of tape handler driving 28, multiple collinearly settings of spray gun 29,
The moving direction for the photovoltaic glass that line between multiple spray guns 29 is conveyed with feeding mechanism 1 is arranged in parallel, third actuator
The related multiple spray guns 29 of the second slide plate 28 are driven to move along the direction of parallel water plane, in use, feeding mechanism 1 conveys
Photovoltaic glass parallel water plane moves along the longitudinal direction, while third actuator drives multiple spray guns 29 above photovoltaic glass
Left side to right side is mobile, promotes the sandblasting efficiency of photovoltaic glass.
It please refers to shown in Fig. 1 to Fig. 6, the circulation of sand mechanism 3 includes the fourth drive member (figure being arranged on frame body 4
In it is unlabeled), collection sandpipe 31 and third pump housing (not shown), rotation is installed with the discharge with endless screw axis (figure in collection sandpipe 31
In be not shown), collection sandpipe 31 is located at the lower section of blasting cabinet 8, and the lower end of blasting cabinet 8 is provided with multiple tapered portion 32, tapered portion 32
It is greater than tapered portion 32 close to the aperture of one end of collection sandpipe 31, blowing chamber, sandblasting chamber and exhausting close to the aperture of one end of cabinet
Intracavitary sand material is automatically fallen into collection sandpipe 31 via multiple tapered portion 32 respectively under the effect of gravity, and fourth drive member is electricity
Machine, the shaft of fourth drive member drive the rotation of discharge with endless screw axis will collect sandpipe for connecting discharge with endless screw axis, fourth drive member
Sand material discharge in 31, the third pump housing extract the sand material of discharge with endless screw axis discharge and by the sand material extracted via ejection head unit 9
It sprays, realizes that the automation of sand material recycles.
The above content is only the preferred embodiment of the utility model, for those of ordinary skill in the art, according to this reality
With novel thought, there will be changes in the specific implementation manner and application range, and the content of the present specification should not be construed as
Limitations of the present invention.
Claims (10)
1. a kind of photovoltaic glass automatic sand blasting assembly line, including feeding mechanism, sandblasting mechanism and circulation of sand mechanism, feeding mechanism
Extraneous photovoltaic glass is inputted, the photovoltaic glass that sandblasting mechanism is used to input feeding mechanism carries out sandblasting, and feeding mechanism will spray
Photovoltaic glass output after the sandblasting of sand mechanism, the sand material that circulation of sand mechanism is used to spray sandblasting mechanism are pumped into sandblasting mechanism;
It is characterized by: the feeding mechanism includes frame body, the multiple rollers for being rotatably dispose in frame body, the first driving for being set to frame body
Part, roller includes the axis body for being rotatably dispose in frame body, the compliant wheel that is sheathed on the outside of axis body, and the first actuator is for driving axis body
Rotation, compliant wheel are used to support photovoltaic glass;Sandblasting mechanism includes the blasting cabinet for being set to frame body, is set to frame body or/and spray
The ejection head unit of sandbox, multiple rollers run through blasting cabinet, and blasting cabinet is equipped with feed opening and discharge hole, and feeding mechanism is by photovoltaic glass
Via in feed opening input blasting cabinet, ejection head unit is used for the photovoltaic glass sandblasting in blasting cabinet, and feeding mechanism is by spray head list
Photovoltaic glass after first sandblasting is exported via discharge hole, and circulation of sand mechanism extracts the sand material of blasting cabinet lower end and will be extracted
Sand material is sprayed via ejection head unit.
2. photovoltaic glass automatic sand blasting assembly line according to claim 1, it is characterised in that: the photovoltaic glass sprays automatically
Sand flow waterline further includes sand material filter mechanism, and sand material filter mechanism includes Rose Box, first pump housing, deduster and second pump housing,
The sand material of blasting cabinet lower end is pumped into Rose Box by first pump housing, is provided in Rose Box for the sand material in filtered filter box
Strainer, second pump housing will be pumped into deduster via the sand material after strainer filtering and be dusted, and the sand grains after deduster dedusting is defeated
It send to blasting cabinet.
3. photovoltaic glass automatic sand blasting assembly line according to claim 1, it is characterised in that: the photovoltaic glass sprays automatically
Sand flow waterline further includes blower mechanism and air draft mechanism, and blasting cabinet is equipped with blowing chamber, sandblasting chamber and the exhausting chamber being isolated from each other, spray
Sand chamber is located between blowing chamber and exhausting chamber, and feeding mechanism conveys photovoltaic glass and successively passes through blowing chamber, sandblasting chamber and exhausting chamber,
Blower mechanism connection blowing chamber is simultaneously blown clean for the intracavitary photovoltaic glass that will dry, and it is intracavitary and be used for that ejection head unit is located at sandblasting
To blower mechanism treated photovoltaic glass sandblasting, air draft mechanism is connected to exhausting chamber simultaneously for by photovoltaic glass after ejection head unit sandblasting
The floating sand adhered on glass is taken away.
4. photovoltaic glass automatic sand blasting assembly line according to claim 1, it is characterised in that: the frame body is provided with first
Component is adjusted, the first adjustment component is for adjusting the photovoltaic glass that feeding mechanism is conveyed, and feeding mechanism is by the first adjustment component
Photovoltaic glass adjusted is via in feed opening input blasting cabinet;The first adjustment component includes being slideably positioned in the first of frame body to slide
Plate is set to frame body and is used to drive the second actuator of the first slide plate, be rotatably dispose in the idler wheel of the first slide plate, the second driving
The side wall for the photovoltaic glass that part is conveyed via the driving related roller conflicting feeding mechanism of the first slide plate.
5. photovoltaic glass automatic sand blasting assembly line according to claim 4, it is characterised in that: the quantity of the idler wheel is more
A, multiple idler wheels are collinearly arranged, and the moving direction for the photovoltaic glass that the line between multiple idler wheels and feeding mechanism are conveyed is flat
Row setting.
6. photovoltaic glass automatic sand blasting assembly line according to claim 4, it is characterised in that: the photovoltaic glass sprays automatically
Sand flow waterline further includes second adjustment component, and second adjustment component is identical as the construction of the first adjustment component, the first adjustment component
Idler wheel, second adjustment component idler wheel be respectively used to contradict the left and right sides of photovoltaic glass that feeding mechanism is conveyed, second
The moving direction for the photovoltaic glass that line between adjustment component and the first adjustment component is conveyed with feeding mechanism is vertically arranged.
7. photovoltaic glass automatic sand blasting assembly line according to claim 6, it is characterised in that: the frame body is installed with first
Bracket, first support are equipped with two guide rods parallel to each other, and the of the second actuator of the first adjustment component, second adjustment component
Two actuators are respectively arranged at the left and right ends of first support, and setting is slided at the both ends of the first slide plate of the first adjustment component respectively
In one end of two guide rods, the both ends of the first slide plate of second adjustment component are slideably positioned in the other end of two guide rods respectively,
First slide plate of the first adjustment component, the first slide plate of second adjustment component are close towards each other or direction away from each other is mobile.
8. photovoltaic glass automatic sand blasting assembly line according to claim 1, it is characterised in that: the ejection head unit includes setting
It is placed in the second support of blasting cabinet, the second slide plate for being slideably positioned in second support, is set to second support and for driving the
The third actuator of two slide plates, the multiple spray guns for being set to the second slide plate, multiple spray guns are collinearly arranged, the company between multiple spray guns
The moving direction for the photovoltaic glass that line is conveyed with feeding mechanism is arranged in parallel.
9. photovoltaic glass automatic sand blasting assembly line according to claim 3, it is characterised in that: circulation of sand mechanism packet
The fourth drive member for being set to frame body, collection sandpipe and the third pump housing are included, rotation is located in the discharge with endless screw axis in collection sandpipe, sandblasting
Case is equipped with multiple tapered portion, and blowing chamber, sandblasting chamber and the intracavitary sand material of exhausting are under the effect of gravity respectively via multiple tapered portion
It falls into collection sandpipe, will collect the discharge of the sand material in sandpipe, the third pump housing is extracted for fourth drive member driving discharge with endless screw axis rotation
The sand material of discharge with endless screw axis discharge simultaneously sprays the sand material extracted via ejection head unit.
10. photovoltaic glass automatic sand blasting assembly line according to claim 1, it is characterised in that: the roller further includes set
Two limit flexbile gears on the outside of axis body, compliant wheel are located between two limit flexbile gears, and limit flexbile gear includes being set to axis body
Wheel body and be set to the limit ring of wheel body, limit ring is projected from the outer surface of wheel body, and stop collar ring is around axis body
Setting, photovoltaic glass are located between the limit ring of two limit flexbile gears, and the limit ring of two limit flexbile gears for keeping off respectively
The only left and right sides of photovoltaic glass.
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CN201821739929.6U CN209223850U (en) | 2018-10-24 | 2018-10-24 | A kind of photovoltaic glass automatic sand blasting assembly line |
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